Development of a data acquisition architecture with distributed synchronization for a Positron Emission Tomography system with integrated front-end

Aliaga Varea, Ramón José

02 May 2016

[EN] Positron Emission Tomography (PET) is a non-invasive nuclear medical imaging modality that makes it possible to observe the distribution of metabolic substances within a patient's body after marking them with radioactive isotopes and arranging an annular scanner around him in order to detect their decays. The main applications of this technique are the detection and tracing of tumors in cancer patients and metabolic studies with small animals. The Electronic Design for Nuclear Applications (EDNA) research group within the Instituto de Instrumentación para Imagen Molecular (I3M) has been involved in the study of high performance PET systems and maintains a small experimental setup with two detector modules. This thesis is framed within the necessity of developing a new data acquisition system (DAQ) for the aforementioned setup that corrects the drawbacks of the existing one. The main objective is to define a DAQ architecture that is completely scalable, modular, and guarantees the mobility and the possibility of reusing its components, so that it admits any extension of modification of the setup and it is possible to export it directly to the configurations used by other groups or experiments. At the same time, this architecture should be compatible with the best possible resolutions attainable at the present instead of imposing artificial limits on system performance. In particular, the new DAQ system should outperform the previous one. As a first step, a general study of DAQ arquitectures is carried out in the context of experimental setups for PET and other high energy physics applications. On one hand, the conclusion is reached that the desired specifications require early digitization of detector signals, exclusively digital communication between modules, and the absence of a centralized trigger. On the other hand, the necessity of a very precise distributed synchronization scheme between modules becomes apparent, with errors in the order of 100 ps, and operating directly over the data links. A study of the existing methods reveals their severe limitations in terms of achievable precision. A theoretical analysis of the situation is carried out with the goal of overcoming them, and a new synchronization algorithm is proposed that is able to reach the desired resolution while getting rid of the restrictions on clock alignment that are imposed by virtually all usual schemes. Since the measurement of clock phase difference plays a crucial role in the proposed algorithm, extensions to the existing methods are defined and analyzed that improve them significantly. The proposed scheme for synchronism is validated using commercial evaluation boards. Taking the proposed synchronization method as a starting point, a DAQ architecture for PET is defined that is composed of two types of module (acquisition and concentration) whose replication makes it possible to arrange a hierarchic system of arbitrary size, and circuit boards are designed and commissioned that implement a realization of the architecture for the particular case of two detectors. This DAQ is finally installed at the experimental setup, where their synchronization properties and resolution as a PET system are characterized and its performance is verified to have improved with respect to the previous system. / [ES] La Tomografía por Emisión de Positrones (PET) es una modalidad de imagen médica nuclear no invasiva que permite observar la distribución de sustancias metabólicas en el interior del cuerpo de un paciente tras marcarlas con isótopos radioactivos y disponer después un escáner anular a su alrededor para detectar su desintegración. Las principales aplicaciones de esta técnica son la detección y seguimiento de tumores en pacientes con cáncer y los estudios metabólicos en animales pequeños. El grupo de investigación Electronic Design for Nuclear Applications (EDNA) del Instituto de Instrumentación para Imagen Molecular (I3M) ha estado involucrado en el estudio de sistemas PET de alto rendimiento y mantiene un pequeño setup experimental con dos módulos detectores. La presente tesis se enmarca dentro de la necesidad de desarrollar un nuevo sistema de adquisición de datos (DAQ) para dicho setup que corrija los inconvenientes del ya existente. En particular, el objetivo es definir una arquitectura de DAQ que sea totalmente escalable, modular, y que asegure la movilidad y la posibilidad de reutilización de sus componentes, de manera que admita cualquier ampliación o alteración del setup y pueda exportarse directamente a los de otros grupos o experimentos. Al mismo tiempo, se desea que dicha arquitectura no limite artificialmente el rendimiento del sistema sino que sea compatible con las mejores resoluciones disponibles en la actualidad, y en particular que sus prestaciones superen a las del DAQ instalado previamente. En primer lugar, se lleva a cabo un estudio general de las arquitecturas de DAQ para setups experimentales para PET y otras aplicaciones de física de altas energías. Por un lado, se determina que las características deseadas implican la digitalización temprana de las señales del detector, la comunicación exclusivamente digital entre módulos, y la ausencia de trigger centralizado. Por otro lado, se hace patente la necesidad de un esquema de sincronización distribuida muy preciso entre módulos, con errores del orden de 100 ps, que opere directamente sobre los enlaces de datos. Un estudio de los métodos ya existentes revela sus graves limitaciones a la hora de alcanzar esas precisiones. Con el fin de paliarlos, se lleva a cabo un análisis teórico de la situación y se propone un nuevo algoritmo de sincronización que es capaz de alcanzar la resolución deseada y elimina las restricciones de alineamiento de reloj impuestas por casi todos los esquemas usuales. Dado que la medida de desfase entre relojes juega un papel crucial en el algoritmo propuesto, se definen y analizan extensiones a los métodos ya existentes que suponen una mejora sustancial. El esquema de sincronismo propuesto se valida utilizando placas de evaluación comerciales. Partiendo del método de sincronismo propuesto, se define una arquitectura de DAQ para PET compuesta de dos tipos de módulos (adquisición y concentración) cuya replicación permite construir un sistema jerárquico de tamaño arbitrario, y se diseñan e implementan placas de circuito basadas en dicha arquitectura para el caso particular de dos detectores. El DAQ así construído se instala finalmente en el setup experimental, donde se caracterizan tanto sus propiedades de sincronización como su resolución como sistema PET y se comprueba que sus prestaciones son superiores a las del sistema previo. / [CA] La Tomografia per Emissió de Positrons (PET) és una modalitat d'imatge mèdica nuclear no invasiva que permet observar la distribució de substàncies metabòliques a l'interior del cos d'un pacient després d'haver-les marcat amb isòtops radioactius disposant un escàner anular al seu voltant per a detectar la seua desintegració. Aquesta tècnica troba les seues principals aplicacions a la detecció i seguiment de tumors a pacients amb càncer i als estudis metabòlics en animals petits. El grup d'investigació Electronic Design for Nuclear Applications (EDNA) de l'Instituto de Instrumentación para Imagen Molecular (I3M) ha estat involucrat en l'estudi de sistemes PET d'alt rendiment i manté un petit setup experimental amb dos mòduls detectors. Aquesta tesi neix de la necessitat de desenvolupar un nou sistema d'adquisició de dades (DAQ) per al setup esmentat que corregisca els inconvenients de l'anterior. En particular, l'objectiu és definir una arquitectura de DAQ que sigui totalment escalable, modular, i que asseguri la mobilitat i la possibilitat de reutilització dels seus components, de tal manera que admeta qualsevol ampliació o alteració del setup i pugui exportar-se directament a aquells d'altres grups o experiments. Al mateix temps, es desitja que aquesta arquitectura no introduisca límits artificials al rendiment del sistema sinó que sigui compatible amb les millors resolucions disponibles a l'actualitat, i en particular que les seues prestacions siguin superiors a les del DAQ instal.lat amb anterioritat. En primer lloc, es porta a terme un estudi general de les arquitectures de DAQ per a setups experimentals per a PET i altres aplicacions de física d'altes energies. Per una banda, s'arriba a la conclusió que les característiques desitjades impliquen la digitalització dels senyals del detector el més aviat possible, la comunicació exclusivament digital entre mòduls, i l'absència de trigger centralitzat. D'altra banda, es fa palesa la necessitat d'un mecanisme de sincronització distribuïda molt precís entre mòduls, amb errors de l'ordre de 100 ps, que treballi directament sobre els enllaços de dades. Un estudi dels mètodes ja existents revela les seues greus limitacions a l'hora d'assolir aquest nivell de precisió. Amb l'objectiu de pal.liar-les, es duu a terme una anàlisi teòrica de la situació i es proposa un nou algoritme de sincronització que és capaç d'obtindre la resolució desitjada i es desfà de les restriccions d'alineament de rellotges imposades per gairebé tots els esquemes usuals. Atès que la mesura del desfasament entre rellotges juga un paper cabdal a l'algoritme proposat, es defineixen i analitzen extensions als mètodes ja existents que suposen una millora substancial. L'esquema de sincronisme proposat es valida mitjançant plaques d'avaluació comercials. Prenent el mètode proposat com a punt de partida, es defineix una arquitectura de DAQ per a PET composta de dos tipus de mòduls (d'adquisició i de concentració) tals que la replicació d'aquests elements permet construir un sistema jeràrquic de mida arbitrària, i es dissenyen i implementen plaques de circuit basades en aquesta arquitectura per al cas particular de dos detectors. L'electrònica desenvolupada s'instal.la finalment al setup experimental, on es caracteritzen tant les seues propietats de sincronització com la seua resolució com a sistema PET i es comprova que les seues prestacions són superiors a les del sistema previ. / Aliaga Varea, RJ. (2016). Development of a data acquisition architecture with distributed synchronization for a Positron Emission Tomography system with integrated front-end [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/63271 / Premios Extraordinarios de tesis doctorales

Data acquisition (DAQ)

Positron emission tomography (PET)

Synchronization

Phase measurement

Clocks

Clock distribution

Coincidence techniques

Detectors

Field programmable gate arrays (FPGA)

Gamma-ray detection

High energy physics instrumentation

Modular electronics

Nuclear electronics

Photodetectors

Self-calibration

Serial links

Signal detection

Timing circuits

Transceivers

Trigger circuits

TECNOLOGIA ELECTRONICA

Développement et radiosynthèse de ligands du récepteur tyrosine kinase neurotrophique type 2 (TrkB) marqués aux carbone-11 et fluor-18 pour l’imagerie cérébrale par tomographie d’émission de positons

Bernard-Gauthier, Vadim

08 1900

Ce mémoire présente mes travaux ayant menés au développement d’une première génération de radioligands marqués au fluor-18 (t1/2 = 110 min) et au carbone-11 (t1/2 = 20.4 min) destinés à l’imagerie cérébrale in vivo du récepteur tyrosine kinase neurotrophique de type 2 (TrkB) en tomographie par émission de positons (TEP). Ces travaux reposent sur l’identification récente de ligands de TrkB non peptidiques à hautes affinités dérivés du 7,8-dihydroxyflavone. La synthèse d’une série de dérivés du 7,8-dihydroxyflavone non-radioactifs de même que des précuseurs à l’incorporation du fluro-18 et du carbone-11 a d’abord été effectuée. Partant des précurseurs adéquats synthétisés, la radiosynthèse de deux radioligands, l’un marqué au fluor-18 et l’autre au carbone-11, a été développée. Ces radiosynthèses reposent respectivement sur une 18F-radiofluorination nucléophile aromatique nouvelle et hautement efficace et sur une 11C-méthylation N-sélective. Les radiotraceurs de TrkB ainsi obtenus ont ensuite été évalués in vitro en autoradiographie et in vivo en tant que traceurs TEP dans des rats. L’évaluation des propriétés physico-chimique de même que de la stabilité in vitro des radiotraceurs sont présentées. Partant d’une série d’analogues cristallisés de ces flavones synthétiques, une étude de relation structure-activité a été menée. La combinaison de cette étude, de pair avec l’évaluation in vivo de la première génération de radiotraceurs de TrkB a aussi permis d’investiguer les pharmacophores nécessaires à l’affinité de ces ligands de même que d’identifier des fragments structurels associés au métabolisme des radiotraceurs. La radiosynthèse d’un troisième radioligand de TrkB et son évaluation TEP in vivo de même que la mise en lumière des modifications structurelles utiles au développement d’une seconde génération de radioligands de TrkB avec des propriétés optimisées pour fin d’imagerie TEP sont aussi détaillés. / This thesis describes my contribution leading to the development of the first-generation positron emission tomography (PET) radioligands labeled with fluorine-18 (t1/2 = 110 min) or carbon-11 (t1/2 = 20.4 min) for the in vivo brain imaging of tropomyosin-related kinase B (TrkB). This research follows from the recent discovery of non-peptidic, high-affinity TrkB ligands derived from 7,8-dihydroxyflavone. The synthesis of non-radioactive 7,8-dihydroxyflavone derivatives and radiolabeling precursors amenable to fluorine-18 and carbon-11 incorporation was performed. Two synthesized compounds have been brought forward as precursors for radiolabeling with either fluorine-18 or carbon-11. Radiosynthesis involved either a novel nucleophilic aromatic subsitution with [18F]fluoride, or N-methylation with [11C]methyl iodide or [11C] methyl triflate. The resulting radiotracers were assessed in vitro by autoradiography and in vivo by PET scans of rats. The physicochemical properties and serum stability of these tracers were also evaluated. X-ray crystal structures of a series of synthetic flavone analogues were used as basis for structure-activity relationship (SAR) analysis. In combination with the above in vivo PET evaluation of these compounds, certain pharmacophores were shown essential for ligand binding affinity. In addition, some structural fragments were associated with in vivo ligand metabolism. The development and radiosynthesis of a third TrkB radiotracer, along with its in vivo PET evaluation and structural analysis, is also described here. In all, better understanding of these tracers have led to the design of potential second-generation TrkB ligands with more optimal properties as PET radiotracers.

Radiochimie du fluor-18

Radiochimie du carbone-11

Flavonoïde

7,8-Dihydroxyflavone

18F-Substitution nucléophile aromatique

11C-Méthylation

Positron emission tomography imaging

Central nervous system radioligand

18F-Radiochemistry

11C-Radiochemistry

Tropomyosin-related kinase B receptor

Brain-derived neurotrophic factor

Flavonoid

7,8-Dihydroxyflavone

Nucleophilic aromatic 18F-substitution

11C-Methylation

Aspectos clínicos e moleculares da hiperplasia adrenal macronodular independente de ACTH em sua forma familial / Clinical and molecular aspects of familial ACTH-independent macronodular adrenal hyperplasia

Alencar, Guilherme Asmar

14 October 2013

INTRODUÇÃO: A hiperplasia adrenal macronodular independente de ACTH (AIMAH) é uma doença rara, caracterizada pela presença de macronódulos funcionantes nas adrenais e por uma produção aumentada, autônoma e sustentada de cortisol. Constitui uma causa incomum de síndrome de Cushing (SC). A forma esporádica da doença parece ser a mais frequente, no entanto, se desconhece a real prevalência de sua forma familial. Apesar de ser uma entidade clínica conhecida há quase 50 anos, o processo fisiopatológico que culminaria com a AIMAH, as alterações genéticas predisponentes e aspectos clínicos, laboratoriais e radiológicos relevantes da doença ainda não foram elucidados de forma clara. O diagnóstico recente de uma grande família portadora da doença viabilizou a realização do presente trabalho. OBJETIVOS: 1) Caracterizar a evolução da AIMAH em sua forma familial, correlacionando as manifestações clínicas, os dados laboratoriais e os achados radiológicos; 2) investigar a possível associação entre a AIMAH e a ocorrência de meningiomas intracranianos; 3) avaliar a atividade metabólica das adrenais hiperplasiadas na AIMAH; 4) definir o padrão de herança genética da doença na família estudada; e 5) mapear regiões cromossômicas e loci potencialmente relacionados à etiologia genética da AIMAH familial. MÉTODOS: 96 membros da família estudada foram inicialmente submetidos a uma avaliação clínica e laboratorial pormenorizada. Em seguida, foram realizados exames de tomografia computadorizada para a caracterização radiológica das adrenais. Exames de ressonância magnética e de tomografia por emissão de pósitrons com fluordesoxiglicose marcada, acoplada à tomografia computadorizada (18F-FDGPET/CT) foram realizados em pacientes com as formas familial e esporádica da doença para, respectivamente, investigar a presença de meningiomas intracranianos e caracterizar a atividade metabólica das adrenais hiperplasiadas. Foram também realizados testes in vivo para a pesquisa de receptores hormonais aberrantes nos pacientes com a forma familial da doença. Em uma outra etapa do estudo, diferentes técnicas de biologia molecular foram empregadas para a investigação da etiologia genética da AIMAH familial. Desta forma, realizou-se: o sequenciamento do gene do receptor do ACTH (MC2R), um estudo de ligação genética utilizando microssatélites específicos, um estudo de ligação genética em escala genômica utilizando polimorfismos de nucleotídeo único (SNPs) e o sequenciamento de genes suspeitos. RESULTADOS: A avaliação dos indivíduos pertencentes à genealogia permitiu o diagnóstico de 15 casos da doença (7 mulheres e 8 homens) em três gerações consecutivas. A AIMAH era transmitida para as gerações subsequentes tanto pelo sexo masculino como feminino e acometia cerca de metade dos irmãos em alguns segmentos da família. A idade média ao diagnóstico da doença foi de 52,8 +-11,3 anos (32 a 74 anos) e cerca de 86% (12/14) desses pacientes apresentavam SC subclínica. As dosagens do cortisol salivar à meia-noite e do cortisol em urina de 24 horas demonstraram baixa sensibilidade (21% e 14%, respectivamente) para o diagnóstico da doença em sua forma familial. O valor do ACTH plasmático encontrava-se baixo ( < 10 pg/mL) em 46% (5/11) dos pacientes doentes. Em cerca de 62% (8/13) dos casos, foi demonstrada uma redução do valor sérico do sulfato de desidroepiandrosterona (SDHEA). Por regressão logística simples, foi observado que a probabilidade (odds ratio) de um indivíduo apresentar a doença na família era maior diante da presença de pletora, após o diagnóstico de diabetes ou pré-diabetes ou diante do relato de ganho ponderal progressivo. O espessamento de ambas as adrenais associado à presença de nódulos bilaterais foi o achado radiológico mais frequente na forma familial da doença. No entanto, em um terço dos pacientes (5/15) foram encontradas alterações radiológicas em somente uma das adrenais. Durante os testes in vivo para pesquisa de receptores hormonais aberrantes, foram observadas, com frequência, respostas distintas entre os indivíduos doentes pertencentes à família. Nos pacientes submetidos ao exame de ressonância magnética, foram demonstradas imagens típicas de meningiomas intracranianos em um terço (5/15) dos casos. No exame 18F-FDG-PET/CT, foi observado um aumento da atividade metabólica das adrenais hiperplasiadas, tanto nos pacientes com SC manifesta como naqueles com a forma subclínica da doença. O estudo molecular permitiu delimitar nos cromossomos 16 e 11 algumas regiões genômicas potencialmente relacionadas à etiologia genética da AIMAH familial. O sequenciamento de alguns genes suspeitos (GPR56, GPR97 e GPR114), localizados nessas regiões, não demonstrou a presença de mutações. CONCLUSÕES: Na genealogia estudada, o padrão de transmissão da AIMAH foi autossômico dominante, e a SC subclínica foi a forma mais frequente de manifestação da doença. O teste de supressão com 1 mg de dexametasona via oral à meia-noite demonstrou ser o exame laboratorial de escolha para a avaliação inicial dos pacientes suspeitos de apresentarem AIMAH familial, em função, sobretudo, da baixa sensibilidade do cortisol salivar à meia-noite e do cortisol urinário para o diagnóstico da doença. Valores normais do ACTH plasmático foram um achado laboratorial frequente na AIMAH familial e valores baixos do SDHEA sérico demonstraram ser um indício relativamente precoce da SC subclínica associada à doença. Diferentes padrões radiológicos foram demonstrados nas tomografias das adrenais dos pacientes com AIMAH familial, não sendo infrequente a presença de assimetria entre as duas glândulas. Os resultados dos testes in vivo para a pesquisa de receptores hormonais aberrantes foram mais condizentes com a hipótese de que a expressão desses receptores seria um epifenômeno do processo fisiopatológico, resultante da proliferação e desdiferenciação celular. Uma alta prevalência de meningiomas intracranianos foi observada nos pacientes com AIMAH, tanto na forma familial da doença como na forma esporádica. Demonstrou-se também, pela primeira vez, que as adrenais na AIMAH podem exibir uma captação aumentada de 18F-FDG no exame de PET/CT, de forma semelhante às metástases e aos carcinomas da glândula. Por fim, foram delimitadas no cromossomo 16 (16p12.1, 16p11.2, 16q12.1, 16q13 e 16q21) e no cromossomo 11 (11q23.1) as principais regiões do genoma suspeitas de estarem ligadas à etiologia genética da AIMAH familial (genoma de referência: NCBI36/hg18) / INTRODUCTION: ACTH-independent macronodular adrenal hyperplasia (AIMAH) is a rare disease characterized by functioning adrenal macronodules and increased, autonomous and sustained cortisol production. This condition is an uncommon cause of Cushing\'s syndrome (CS). While the sporadic form of the disease appears to be the most frequent, the true prevalence of its familial form is unknown. Despite being a known clinical entity for almost 50 years, the pathophysiological process that leads to AIMAH, the predisposing genetic alterations and important clinical, laboratory and radiological aspects of the disease have not been fully clarified. The recent identification of a large group of relatives with familial AIMAH allowed the accomplishment of the present study. OBJECTIVES: The following were the aims of this study: 1) characterize the development of familial AIMAH through correlations between clinical manifestations, laboratory data and radiological findings; 2) investigate the possible association between AIMAH and the occurrence of intracranial meningioma; 3) characterize the metabolic activity of the adrenal glands in this disease; 4) define the inheritance pattern of the disease in the family studied; and 5) map chromosomal regions and loci potentially related to the genetic etiology of familial AIMAH. METHODS: 96 members of the family studied were initially subjected to a detailed clinical and laboratory evaluation. Computed tomography (CT) scans were performed for the radiological characterization of the adrenal glands. Magnetic resonance imaging scans and 18F-fluorodeoxyglucose positron emission tomography/computed tomography (18F-FDG-PET/CT) scans were performed on patients with both forms of the disease (familial and sporadic) to investigate the presence of intracranial meningioma and characterize the metabolic activity of the adrenal glands, respectively. In vivo studies for aberrant hormone receptors were also conducted on those patients with familial AIMAH. In another phase of the study, different molecular biology techniques were employed to investigate the genetic etiology of familial AIMAH. For such, sequencing of the ACTH receptor gene (MC2R), a linkage study using specific microsatellite markers, a single nucleotide polymorphism (SNP)-based genome-wide linkage study and the sequencing of suspect genes were performed. RESULTS: The evaluation of the family revealed the diagnosis of 15 cases of the disease (7 women and 8 men) in three consecutive generations. AIMAH was transmitted to subsequent generations by both genders and half of the siblings were affected in some segments of the family. Mean age at diagnosis was 52.8 +-11.3 years (range: 32 to 74 years) and about 86% (12/14) of the patients exhibited subclinical CS. Both midnight salivary cortisol and 24-hour urinary cortisol demonstrated low sensitivity (21% and 14%, respectively) for the diagnosis of familial AIMAH. Plasma ACTH levels were low ( < 10 pg/ml) in 46% (5/11) of patients with the disease. In about 62% (8/13) of cases, serum dehydroepiandrosterone sulphate (DHEAS) levels were below the normal range. Simple logistic regression models revealed that the probability (odds ratio) of an individual having the disease in the family was greater in the presence of plethora, progressive weight gain or after the diagnosis of diabetes or prediabetes. Adrenal thickening associated with the presence of bilateral nodules was the most common radiological finding in familial AIMAH. However, radiological abnormalities were found in only one of the adrenal glands in one third of the patients (5/15). Throughout the in vivo studies for aberrant hormone receptors, distinct responses were frequently observed among the individuals with familial AIMAH. One third (5/15) of the patients who underwent magnetic resonance imaging scans had typical images of intracranial meningiomas. The 18F-FDG-PET/CT scan revealed increased metabolic activity of the hyperplastic adrenals in patients with both overt and subclinical CS. The molecular studies delimited genomic regions on chromosomes 16 and 11 potentially related to the genetic cause of familial AIMAH. Some suspected genes (GPR56, GPR97 and GPR114), located in these genomic regions, were sequenced, but no mutations were found. CONCLUSIONS: In the extended family studied, AIMAH followed an autosomal dominant pattern of inheritance and subclinical CS was the most common presentation of the disease. The 1 mg overnight dexamethasone suppression test proved to be the screening test of choice for the initial evaluation of patients suspected to have familial AIMAH, due mainly to the low sensitivity of midnight salivary cortisol and 24-hour urinary cortisol as screening tests. A normal level of plasma ACTH was a common laboratory finding in familial AIMAH. Low serum levels of DHEAS proved to be a relatively early finding associated with the subclinical CS determined by the disease. Adrenal CT scans revealed different radiological patterns among patients with familial AIMAH, with a fairly frequent rate of asymmetry between glands. The distinct responses observed throughout the in vivo studies for aberrant hormone receptors, among family members, favor the hypothesis that these receptors may be an epiphenomenon resulting from cell proliferation and dedifferentiation. An increased prevalence of intracranial meningioma was demonstrated in both the familial and sporadic forms of AIMAH. For the first time, it was shown that AIMAH may exhibit increased 18FFDG uptake on the PET/CT scan, similarly to adrenal carcinoma and metastasis. The main genomic regions potentially associated with familial AIMAH were delimited on chromosome 16 (16p12.1, 16p11.2, 16q12.1, 16q13 and 16q21) and chromosome 11 (11q23.1) (reference genome: NCBI36/hg18)

Cushing's syndrome /genetics

Cushing's syndrome/diagnosis

Cushing's syndrome/etiology

Genetic linkage

Genotyping techniques

Ligação genética

Meningioma

Meningioma

Polimorfismo de nucleotídeo único

Polymorphism single nucleotide

Receptores de superfície celular

Receptors cell surface

Signs and symptoms

Sinais e sintomas

Síndrome de Cushing/diagnóstico

Síndrome de Cushing/etiologia

Síndrome de Cushing/genética

Técnicas de genotipagem

Tomografia

Tomography

18F-markierte S100-Proteine als potentielle Radioliganden für die funktionelle Charakterisierung des Rezeptors für advanced glycation endproducts (RAGE) in vitro und in vivo

Hoppmann, Susan

06 October 2009

Die Interaktion von S100-Proteinen mit dem Rezeptor für advanced glycation endproducts (RAGE) wird als hoch relevant bei der Entstehung, Manifestation und Progression verschiedener entzündlicher Erkrankungen sowie bei der Tumorigenese gewertet. Das tiefergehende Verständnis der Interaktion von S100-Proteinen mit RAGE in vivo stellt eine wissenschaftliche Herausforderung dar und ist ein Ansatz für therapeutische Interventionen. Darüber hinaus stellen Untersuchungen zum Metabolismus von extrazellulär zirkulierenden S100-Proteinen in vivo einen vielversprechenden Forschungsansatz zur Analyse von S100-Protein-assoziierten Erkrankungen dar. Die einzigartigen Eigenschaften der Positronen-Emissions-Tomographie (PET) als nicht-invasives bildgebendes Verfahren erlauben die Darstellung und quantitative Erfassung biochemischer Prozesse mit der Möglichkeit zelluläre und molekulare Reaktionswege aufzuzeigen sowie in vivo-Mechanismen von Krankheiten im Kontext eines physiologischen Umfeldes darzulegen. Ziel der vorliegenden Arbeit war es, Fluor-18-markierte S100-Proteine (18F-S100) herzustellen, diese biochemisch, radiochemisch und radiopharmakologisch zu charakterisieren und deren Metabolismus und Interaktion mit RAGE in vivo mittels Kleintier-PET am Tiermodell zu untersuchen. Es wurden die mit RAGE interagierenden S100-Proteine S100A1, S100A12 und S100B in biologisch funktioneller Form hergestellt. Dazu wurden die entsprechenden S100-Gene in den prokaryotischen Expressionsvektor pGEX-6P-1 kloniert. Mit diesen Konstrukten wurden E. coli-Zellen transformiert, aus denen nachfolgend die S100-Proteine isoliert und gereinigt werden konnten. Es konnte eine Reinigung unter nativen, milden Bedingungen etabliert werden, die es ermöglichte, S100A1, S100A12 und S100B in biologisch aktiver Form und in hohen Reinheitsgraden (&amp;gt; 95%) für die nachfolgenden Experimente bereitzustellen. Diese S100-Proteine wurden über den 18F-tragenden Aktivester N-Succinimidyl-4-[18F]fluorbenzoesäure ([18F]SFB) radioaktiv markiert und charakterisiert. Dabei konnte sichergestellt werden, dass die 18F-S100-Proteine in vitro und in vivo stabil sind. Weiterhin konnte nachgewiesen werden, dass die radioaktive Markierung keine Beeinträchtigung auf die biologische Funktionalität der S100-Proteine hat. Dies wurde anhand von sRAGE-Bindungsuntersuchungen sowie Zell-Interaktionsuntersuchungen an konfluenten Endothelzellen (HAEC) und an zu Makrophagen differenzierten THP-1-Zellen (THP-1-Makrophagen) verifiziert. Für die Untersuchung der RAGE-Bindung war die Produktion des löslichen sRAGE bzw. die Generation von flRAGE-berexprimierenden Zellen erforderlich. Beide Konstrukte wurden in geeigneten Zellsystemen exprimiert und das sRAGE-Protein wurde in biologisch aktiver Form synthetisiert und gereinigt (Reinheitsgrad &amp;gt; 97%). Die 18F-S100-Bindung an THP-1-Makrophagen und HAEC wurde in Gegenwart von glykierten LDL (glykLDL) sowie sRAGE signifikant inhibiert, was auf eine RAGE-Interaktion hinweist. Weiterhin konnten durch den Einsatz von Scavenger-Rezeptor-Liganden, wie z. B. Maleinanhydrid-modifiziertes BSA (malBSA) bzw. von Lektinen inhibierende Effekte erzielt werden. Dies ist ein Indiz für die 18F-S100-Interaktion mit Scavenger-Rezeptoren und Glykokonjugaten an der Zelloberfläche. Durch die Untersuchungen mittels konfokaler Laserscanning-Mikroskopie an THP-1-Makrophagen wurde eine Zellaufnahme des Fluoreszein-markierten S100A12 festgestellt. Weiterhin konnten Kolokalisationen mit Lektinen detektiert werden. Das metabolische Schicksal extrazellulär zirkulierender 18F-S100-Proteine in vivo wurde mit Hilfe dynamischer PET-Untersuchungen bzw. anhand von Bioverteilungs-Untersuchungen in männlichen Wistar-Ratten analysiert. Die Hauptakkumulation der Radioaktivität wurde in der Leber und in den Nieren detektiert. In diesen Organen findet der Metabolismus bzw. die glomeruläre Filtration der 18F-S100-Proteine statt. In den Untersuchungen zur Genexpression mittels Echtzeit-PCR sowie im immunchemischen Proteinnachweis am Western Blot wurde eine hohe Expression und Proteinbiosynthese des RAGE in der Lunge ermittelt. Die Lunge eignet sich daher als „Referenz“-Organ für eine funktionelle in vivo-Charakterisierung von RAGE mit 18FS100-Proteinen. Bei den durchgeführten PET-Untersuchungen konnte eine temporäre 18F-S100-Interaktion mit dem Lungengewebe festgestellt werden. Die Retention des 18FS100A12 in der Lunge wurde in Gegenwart von sRAGE inhibiert. Dies ist ein Hinweis dafür, dass 18F-S100-Proteine auch in vivo an RAGE binden können. Die Radioaktivitäts-Akkumulation in den Organen Leber und Milz, die eine Vielzahl von sessilen Makrophagen aufweisen, wurde durch die Applikation von malBSA inhibiert. Dies ist ein Indiz dafür, dass 18F-S100-Proteine in vivo mit Scavenger-Rezeptoren interagieren können. Die vorliegende Arbeit liefert deutliche Hinweise darauf, dass RAGE nicht der alleinige Rezeptor für 18F-S100-Proteine ist. Der Einsatz von 18F-S100-Proteinen als experimentelles Werkzeug in dynamischen PET-Untersuchungen birgt das Potential einer Charakterisierung von S100-Protein-assoziierten, pathophysiologischen Prozessen. / Members of the S100 family of EF-hand calcium binding proteins play important regulatory roles not only within cells but also exert effects in a cytokine-like manner on definite target cells once released into extracellular space or circulating blood. Accordingly, increased levels of S100 proteins in the circulating blood have been associated with a number of disease states, e.g., diabetes, cancer, and various inflammatory disorders. As the best known target protein of extracellular S100 proteins, the receptor for advanced glycation endproducts (RAGE) is of significant importance. However, the role of extracellular S100 proteins during etiology, progression, and manifestation of inflammatory disorders still is poorly understood. One reason for this is the shortage of sensitive methods for direct assessment of the metabolic fate of circulating S100 proteins and, on the other hand, measurement of functional expression of extracellular targets of S100 proteins, e.g., RAGE in vivo. In this line, small animal PET provides a valuable tool for noninvasive imaging of physiological processes and interactions like plasma or vascular retention, tissue-specific receptor binding, accumulation or elimination in vivo. To address this question, human S100 proteins were cloned in the bacterial expression vector pGEX-6P-1, expressed in E. coli BL21, and purified by affinity chromatography and anion exchange chromatography. Purified S100A1, S100B and S100A12 proteins were then radiolabeled with the positron emitter fluorine-18 (18F) by N-succinimidyl-4-[18F]fluorobenzoate ([18F]SFB). Radiolabeling of S100 proteins resulted in radiochemical yields of 3-10% (corrected for decay) and effective specific radioactivities of 1 GBq/µmol, respectively. For investigations about RAGE binding soluble RAGE (sRAGE) was expressed and purified using pSecTag2B. A radioligand binding assay confirmed specific binding of 18F-S100A12, 18F-S100A1, and 18F-S100B to immobilized sRAGE, also showing an order of affinity with S100A12 &amp;gt; S100A1 &amp;gt; S100B. These results indicate that radioactive labelling of S100 proteins did not affect their overall affinity to RAGE. Cellular association studies in human THP-1 macrophages and human aortic endothelial cells (HAEC) showed specific binding of all 18F-S100 proteins to the non-internalizing RAGE as confirmed by inhibitory effects exerted either by other RAGE ligands, e.g., glycated LDL, or by soluble RAGE. Of interest, 18F-S100 proteins were also shown to interact with other putative binding sites, e.g. scavenger receptors as well as proteoglycans. In this line, uptake of 18F-S100 proteins in THP-1 and HAEC could be inhibited by various scavenger receptor ligands, in particular by maleylated BSA as well as by lectines (e.g. ConA and SBA). Confocal laser scanning microscopy analysis showed a major part of the fluoresceinated S100A12 bound to the surface of THP-1 macrophages. Beyond this, uptake of S100A12 could be determined indicating an interaction of S100A12 with both non-internalizing, e.g., RAGE, and internalizing receptors, e.g. scavenger receptors. By evaluation of the relative contribution of 18F-S100A12 association to RAGE-overexpressed CHO cells (using pIres2-AcGFP1), 18F-S100A12 showed a significantly higher association to CHO-RAGE cells compared with CHO-mock cells. Based on these findings and due to their crucial role in inflammatory disorders the metabolic fate of S100 proteins was further investigated in dynamic small animal Positron emission tomography (PET) studies as well as in biodistribution studies in Wistar rats in vivo. For interpretation of in vivo investigations in rats, expression of RAGE was analyzed by quantitative real time RT-PCR as well as western blotting in various organs. Lung tissue expressed the highest level of RAGE protein compared to the other tissues. PET studies in rats revealed a comparatively long mean residence time of circulating 18F-S100 proteins. A major contributor to this phenomenon seems to be a sustained temporary interaction with tissues overexpressing RAGE, e.g., the lung. On the other hand, renal clearance of 18F-S100 via glomerular filtration is a major elimination pathway. However, scavenger receptor-mediated pathways in the liver, the spleen and, to a minor extent, in the kidneys, also seem to contribute to the overall clearance. The presence of sRAGE revealed a decreased retention of 18F-S100A12 in the lung, indicating in vivo binding to RAGE. In vivo blocking studies using maleylated BSA demonstrated a strong inhibition of putative binding sites in rat tissues enriched in cells expressing scavenger receptors like liver and spleen. In conclusion, 18F-labeling of S100 proteins and the use of small animal PET provide a valuable tool to discriminate the kinetics and the metabolic fate of S100 proteins in vivo. Furthermore, the results strongly suggest an involvement of other putative receptors beside RAGE in distribution, tissue association and elimination of circulating proinflammatory S100 proteins. Moreover, the approach provides novel probes for imaging of functional expression of RAGE and scavenger receptors in peripheral inflammatory compartments.

S100-Proteine

Positronen-Emissions-Tomographie (PET)

Fluor-18

Radiomarkierung

THP-1

HAEC

Scavenger-Rezeptoren

Ratte

Imaging

pGEX-6P-1

N-Succinimidyl-4-[18F]fluorbenzoesäure

Laserscanning Mikro

S100 proteins

inflammation

pGEX-6P-1

positron emission tomography (PET)

Fluorine-18

THP-1 macrophages

human aortic endothelial cells

imaging

label

ddc:540

rvk:WD 5100

Développement et radiosynthèse de ligands du récepteur tyrosine kinase neurotrophique type 2 (TrkB) marqués aux carbone-11 et fluor-18 pour l’imagerie cérébrale par tomographie d’émission de positons

Bernard-Gauthier, Vadim

08 1900

Ce mémoire présente mes travaux ayant menés au développement d’une première génération de radioligands marqués au fluor-18 (t1/2 = 110 min) et au carbone-11 (t1/2 = 20.4 min) destinés à l’imagerie cérébrale in vivo du récepteur tyrosine kinase neurotrophique de type 2 (TrkB) en tomographie par émission de positons (TEP). Ces travaux reposent sur l’identification récente de ligands de TrkB non peptidiques à hautes affinités dérivés du 7,8-dihydroxyflavone. La synthèse d’une série de dérivés du 7,8-dihydroxyflavone non-radioactifs de même que des précuseurs à l’incorporation du fluro-18 et du carbone-11 a d’abord été effectuée. Partant des précurseurs adéquats synthétisés, la radiosynthèse de deux radioligands, l’un marqué au fluor-18 et l’autre au carbone-11, a été développée. Ces radiosynthèses reposent respectivement sur une 18F-radiofluorination nucléophile aromatique nouvelle et hautement efficace et sur une 11C-méthylation N-sélective. Les radiotraceurs de TrkB ainsi obtenus ont ensuite été évalués in vitro en autoradiographie et in vivo en tant que traceurs TEP dans des rats. L’évaluation des propriétés physico-chimique de même que de la stabilité in vitro des radiotraceurs sont présentées. Partant d’une série d’analogues cristallisés de ces flavones synthétiques, une étude de relation structure-activité a été menée. La combinaison de cette étude, de pair avec l’évaluation in vivo de la première génération de radiotraceurs de TrkB a aussi permis d’investiguer les pharmacophores nécessaires à l’affinité de ces ligands de même que d’identifier des fragments structurels associés au métabolisme des radiotraceurs. La radiosynthèse d’un troisième radioligand de TrkB et son évaluation TEP in vivo de même que la mise en lumière des modifications structurelles utiles au développement d’une seconde génération de radioligands de TrkB avec des propriétés optimisées pour fin d’imagerie TEP sont aussi détaillés. / This thesis describes my contribution leading to the development of the first-generation positron emission tomography (PET) radioligands labeled with fluorine-18 (t1/2 = 110 min) or carbon-11 (t1/2 = 20.4 min) for the in vivo brain imaging of tropomyosin-related kinase B (TrkB). This research follows from the recent discovery of non-peptidic, high-affinity TrkB ligands derived from 7,8-dihydroxyflavone. The synthesis of non-radioactive 7,8-dihydroxyflavone derivatives and radiolabeling precursors amenable to fluorine-18 and carbon-11 incorporation was performed. Two synthesized compounds have been brought forward as precursors for radiolabeling with either fluorine-18 or carbon-11. Radiosynthesis involved either a novel nucleophilic aromatic subsitution with [18F]fluoride, or N-methylation with [11C]methyl iodide or [11C] methyl triflate. The resulting radiotracers were assessed in vitro by autoradiography and in vivo by PET scans of rats. The physicochemical properties and serum stability of these tracers were also evaluated. X-ray crystal structures of a series of synthetic flavone analogues were used as basis for structure-activity relationship (SAR) analysis. In combination with the above in vivo PET evaluation of these compounds, certain pharmacophores were shown essential for ligand binding affinity. In addition, some structural fragments were associated with in vivo ligand metabolism. The development and radiosynthesis of a third TrkB radiotracer, along with its in vivo PET evaluation and structural analysis, is also described here. In all, better understanding of these tracers have led to the design of potential second-generation TrkB ligands with more optimal properties as PET radiotracers.

Radiochimie du fluor-18

Radiochimie du carbone-11

Flavonoïde

7,8-Dihydroxyflavone

18F-Substitution nucléophile aromatique

11C-Méthylation

Positron emission tomography imaging

Central nervous system radioligand

18F-Radiochemistry

11C-Radiochemistry

Tropomyosin-related kinase B receptor

Brain-derived neurotrophic factor

Flavonoid

7,8-Dihydroxyflavone

Nucleophilic aromatic 18F-substitution

11C-Methylation

Aspectos clínicos e moleculares da hiperplasia adrenal macronodular independente de ACTH em sua forma familial / Clinical and molecular aspects of familial ACTH-independent macronodular adrenal hyperplasia

Guilherme Asmar Alencar

14 October 2013

INTRODUÇÃO: A hiperplasia adrenal macronodular independente de ACTH (AIMAH) é uma doença rara, caracterizada pela presença de macronódulos funcionantes nas adrenais e por uma produção aumentada, autônoma e sustentada de cortisol. Constitui uma causa incomum de síndrome de Cushing (SC). A forma esporádica da doença parece ser a mais frequente, no entanto, se desconhece a real prevalência de sua forma familial. Apesar de ser uma entidade clínica conhecida há quase 50 anos, o processo fisiopatológico que culminaria com a AIMAH, as alterações genéticas predisponentes e aspectos clínicos, laboratoriais e radiológicos relevantes da doença ainda não foram elucidados de forma clara. O diagnóstico recente de uma grande família portadora da doença viabilizou a realização do presente trabalho. OBJETIVOS: 1) Caracterizar a evolução da AIMAH em sua forma familial, correlacionando as manifestações clínicas, os dados laboratoriais e os achados radiológicos; 2) investigar a possível associação entre a AIMAH e a ocorrência de meningiomas intracranianos; 3) avaliar a atividade metabólica das adrenais hiperplasiadas na AIMAH; 4) definir o padrão de herança genética da doença na família estudada; e 5) mapear regiões cromossômicas e loci potencialmente relacionados à etiologia genética da AIMAH familial. MÉTODOS: 96 membros da família estudada foram inicialmente submetidos a uma avaliação clínica e laboratorial pormenorizada. Em seguida, foram realizados exames de tomografia computadorizada para a caracterização radiológica das adrenais. Exames de ressonância magnética e de tomografia por emissão de pósitrons com fluordesoxiglicose marcada, acoplada à tomografia computadorizada (18F-FDGPET/CT) foram realizados em pacientes com as formas familial e esporádica da doença para, respectivamente, investigar a presença de meningiomas intracranianos e caracterizar a atividade metabólica das adrenais hiperplasiadas. Foram também realizados testes in vivo para a pesquisa de receptores hormonais aberrantes nos pacientes com a forma familial da doença. Em uma outra etapa do estudo, diferentes técnicas de biologia molecular foram empregadas para a investigação da etiologia genética da AIMAH familial. Desta forma, realizou-se: o sequenciamento do gene do receptor do ACTH (MC2R), um estudo de ligação genética utilizando microssatélites específicos, um estudo de ligação genética em escala genômica utilizando polimorfismos de nucleotídeo único (SNPs) e o sequenciamento de genes suspeitos. RESULTADOS: A avaliação dos indivíduos pertencentes à genealogia permitiu o diagnóstico de 15 casos da doença (7 mulheres e 8 homens) em três gerações consecutivas. A AIMAH era transmitida para as gerações subsequentes tanto pelo sexo masculino como feminino e acometia cerca de metade dos irmãos em alguns segmentos da família. A idade média ao diagnóstico da doença foi de 52,8 +-11,3 anos (32 a 74 anos) e cerca de 86% (12/14) desses pacientes apresentavam SC subclínica. As dosagens do cortisol salivar à meia-noite e do cortisol em urina de 24 horas demonstraram baixa sensibilidade (21% e 14%, respectivamente) para o diagnóstico da doença em sua forma familial. O valor do ACTH plasmático encontrava-se baixo ( < 10 pg/mL) em 46% (5/11) dos pacientes doentes. Em cerca de 62% (8/13) dos casos, foi demonstrada uma redução do valor sérico do sulfato de desidroepiandrosterona (SDHEA). Por regressão logística simples, foi observado que a probabilidade (odds ratio) de um indivíduo apresentar a doença na família era maior diante da presença de pletora, após o diagnóstico de diabetes ou pré-diabetes ou diante do relato de ganho ponderal progressivo. O espessamento de ambas as adrenais associado à presença de nódulos bilaterais foi o achado radiológico mais frequente na forma familial da doença. No entanto, em um terço dos pacientes (5/15) foram encontradas alterações radiológicas em somente uma das adrenais. Durante os testes in vivo para pesquisa de receptores hormonais aberrantes, foram observadas, com frequência, respostas distintas entre os indivíduos doentes pertencentes à família. Nos pacientes submetidos ao exame de ressonância magnética, foram demonstradas imagens típicas de meningiomas intracranianos em um terço (5/15) dos casos. No exame 18F-FDG-PET/CT, foi observado um aumento da atividade metabólica das adrenais hiperplasiadas, tanto nos pacientes com SC manifesta como naqueles com a forma subclínica da doença. O estudo molecular permitiu delimitar nos cromossomos 16 e 11 algumas regiões genômicas potencialmente relacionadas à etiologia genética da AIMAH familial. O sequenciamento de alguns genes suspeitos (GPR56, GPR97 e GPR114), localizados nessas regiões, não demonstrou a presença de mutações. CONCLUSÕES: Na genealogia estudada, o padrão de transmissão da AIMAH foi autossômico dominante, e a SC subclínica foi a forma mais frequente de manifestação da doença. O teste de supressão com 1 mg de dexametasona via oral à meia-noite demonstrou ser o exame laboratorial de escolha para a avaliação inicial dos pacientes suspeitos de apresentarem AIMAH familial, em função, sobretudo, da baixa sensibilidade do cortisol salivar à meia-noite e do cortisol urinário para o diagnóstico da doença. Valores normais do ACTH plasmático foram um achado laboratorial frequente na AIMAH familial e valores baixos do SDHEA sérico demonstraram ser um indício relativamente precoce da SC subclínica associada à doença. Diferentes padrões radiológicos foram demonstrados nas tomografias das adrenais dos pacientes com AIMAH familial, não sendo infrequente a presença de assimetria entre as duas glândulas. Os resultados dos testes in vivo para a pesquisa de receptores hormonais aberrantes foram mais condizentes com a hipótese de que a expressão desses receptores seria um epifenômeno do processo fisiopatológico, resultante da proliferação e desdiferenciação celular. Uma alta prevalência de meningiomas intracranianos foi observada nos pacientes com AIMAH, tanto na forma familial da doença como na forma esporádica. Demonstrou-se também, pela primeira vez, que as adrenais na AIMAH podem exibir uma captação aumentada de 18F-FDG no exame de PET/CT, de forma semelhante às metástases e aos carcinomas da glândula. Por fim, foram delimitadas no cromossomo 16 (16p12.1, 16p11.2, 16q12.1, 16q13 e 16q21) e no cromossomo 11 (11q23.1) as principais regiões do genoma suspeitas de estarem ligadas à etiologia genética da AIMAH familial (genoma de referência: NCBI36/hg18) / INTRODUCTION: ACTH-independent macronodular adrenal hyperplasia (AIMAH) is a rare disease characterized by functioning adrenal macronodules and increased, autonomous and sustained cortisol production. This condition is an uncommon cause of Cushing\'s syndrome (CS). While the sporadic form of the disease appears to be the most frequent, the true prevalence of its familial form is unknown. Despite being a known clinical entity for almost 50 years, the pathophysiological process that leads to AIMAH, the predisposing genetic alterations and important clinical, laboratory and radiological aspects of the disease have not been fully clarified. The recent identification of a large group of relatives with familial AIMAH allowed the accomplishment of the present study. OBJECTIVES: The following were the aims of this study: 1) characterize the development of familial AIMAH through correlations between clinical manifestations, laboratory data and radiological findings; 2) investigate the possible association between AIMAH and the occurrence of intracranial meningioma; 3) characterize the metabolic activity of the adrenal glands in this disease; 4) define the inheritance pattern of the disease in the family studied; and 5) map chromosomal regions and loci potentially related to the genetic etiology of familial AIMAH. METHODS: 96 members of the family studied were initially subjected to a detailed clinical and laboratory evaluation. Computed tomography (CT) scans were performed for the radiological characterization of the adrenal glands. Magnetic resonance imaging scans and 18F-fluorodeoxyglucose positron emission tomography/computed tomography (18F-FDG-PET/CT) scans were performed on patients with both forms of the disease (familial and sporadic) to investigate the presence of intracranial meningioma and characterize the metabolic activity of the adrenal glands, respectively. In vivo studies for aberrant hormone receptors were also conducted on those patients with familial AIMAH. In another phase of the study, different molecular biology techniques were employed to investigate the genetic etiology of familial AIMAH. For such, sequencing of the ACTH receptor gene (MC2R), a linkage study using specific microsatellite markers, a single nucleotide polymorphism (SNP)-based genome-wide linkage study and the sequencing of suspect genes were performed. RESULTS: The evaluation of the family revealed the diagnosis of 15 cases of the disease (7 women and 8 men) in three consecutive generations. AIMAH was transmitted to subsequent generations by both genders and half of the siblings were affected in some segments of the family. Mean age at diagnosis was 52.8 +-11.3 years (range: 32 to 74 years) and about 86% (12/14) of the patients exhibited subclinical CS. Both midnight salivary cortisol and 24-hour urinary cortisol demonstrated low sensitivity (21% and 14%, respectively) for the diagnosis of familial AIMAH. Plasma ACTH levels were low ( < 10 pg/ml) in 46% (5/11) of patients with the disease. In about 62% (8/13) of cases, serum dehydroepiandrosterone sulphate (DHEAS) levels were below the normal range. Simple logistic regression models revealed that the probability (odds ratio) of an individual having the disease in the family was greater in the presence of plethora, progressive weight gain or after the diagnosis of diabetes or prediabetes. Adrenal thickening associated with the presence of bilateral nodules was the most common radiological finding in familial AIMAH. However, radiological abnormalities were found in only one of the adrenal glands in one third of the patients (5/15). Throughout the in vivo studies for aberrant hormone receptors, distinct responses were frequently observed among the individuals with familial AIMAH. One third (5/15) of the patients who underwent magnetic resonance imaging scans had typical images of intracranial meningiomas. The 18F-FDG-PET/CT scan revealed increased metabolic activity of the hyperplastic adrenals in patients with both overt and subclinical CS. The molecular studies delimited genomic regions on chromosomes 16 and 11 potentially related to the genetic cause of familial AIMAH. Some suspected genes (GPR56, GPR97 and GPR114), located in these genomic regions, were sequenced, but no mutations were found. CONCLUSIONS: In the extended family studied, AIMAH followed an autosomal dominant pattern of inheritance and subclinical CS was the most common presentation of the disease. The 1 mg overnight dexamethasone suppression test proved to be the screening test of choice for the initial evaluation of patients suspected to have familial AIMAH, due mainly to the low sensitivity of midnight salivary cortisol and 24-hour urinary cortisol as screening tests. A normal level of plasma ACTH was a common laboratory finding in familial AIMAH. Low serum levels of DHEAS proved to be a relatively early finding associated with the subclinical CS determined by the disease. Adrenal CT scans revealed different radiological patterns among patients with familial AIMAH, with a fairly frequent rate of asymmetry between glands. The distinct responses observed throughout the in vivo studies for aberrant hormone receptors, among family members, favor the hypothesis that these receptors may be an epiphenomenon resulting from cell proliferation and dedifferentiation. An increased prevalence of intracranial meningioma was demonstrated in both the familial and sporadic forms of AIMAH. For the first time, it was shown that AIMAH may exhibit increased 18FFDG uptake on the PET/CT scan, similarly to adrenal carcinoma and metastasis. The main genomic regions potentially associated with familial AIMAH were delimited on chromosome 16 (16p12.1, 16p11.2, 16q12.1, 16q13 and 16q21) and chromosome 11 (11q23.1) (reference genome: NCBI36/hg18)

Ligação genética

Meningioma

Polimorfismo de nucleotídeo único

Receptores de superfície celular

Sinais e sintomas

Síndrome de Cushing/diagnóstico

Síndrome de Cushing/etiologia

Síndrome de Cushing/genética

Técnicas de genotipagem

Tomografia

Cushing's syndrome /genetics

Cushing's syndrome/diagnosis

Cushing's syndrome/etiology

Genetic linkage

Genotyping techniques

Meningioma

Polymorphism single nucleotide

Receptors cell surface

Signs and symptoms

Tomography

18F-markierte S100-Proteine als potentielle Radioliganden für die funktionelle Charakterisierung des Rezeptors für advanced glycation endproducts (RAGE) in vitro und in vivo

Hoppmann, Susan

11 September 2009

Die Interaktion von S100-Proteinen mit dem Rezeptor für advanced glycation endproducts (RAGE) wird als hoch relevant bei der Entstehung, Manifestation und Progression verschiedener entzündlicher Erkrankungen sowie bei der Tumorigenese gewertet. Das tiefergehende Verständnis der Interaktion von S100-Proteinen mit RAGE in vivo stellt eine wissenschaftliche Herausforderung dar und ist ein Ansatz für therapeutische Interventionen. Darüber hinaus stellen Untersuchungen zum Metabolismus von extrazellulär zirkulierenden S100-Proteinen in vivo einen vielversprechenden Forschungsansatz zur Analyse von S100-Protein-assoziierten Erkrankungen dar. Die einzigartigen Eigenschaften der Positronen-Emissions-Tomographie (PET) als nicht-invasives bildgebendes Verfahren erlauben die Darstellung und quantitative Erfassung biochemischer Prozesse mit der Möglichkeit zelluläre und molekulare Reaktionswege aufzuzeigen sowie in vivo-Mechanismen von Krankheiten im Kontext eines physiologischen Umfeldes darzulegen. Ziel der vorliegenden Arbeit war es, Fluor-18-markierte S100-Proteine (18F-S100) herzustellen, diese biochemisch, radiochemisch und radiopharmakologisch zu charakterisieren und deren Metabolismus und Interaktion mit RAGE in vivo mittels Kleintier-PET am Tiermodell zu untersuchen. Es wurden die mit RAGE interagierenden S100-Proteine S100A1, S100A12 und S100B in biologisch funktioneller Form hergestellt. Dazu wurden die entsprechenden S100-Gene in den prokaryotischen Expressionsvektor pGEX-6P-1 kloniert. Mit diesen Konstrukten wurden E. coli-Zellen transformiert, aus denen nachfolgend die S100-Proteine isoliert und gereinigt werden konnten. Es konnte eine Reinigung unter nativen, milden Bedingungen etabliert werden, die es ermöglichte, S100A1, S100A12 und S100B in biologisch aktiver Form und in hohen Reinheitsgraden (&amp;gt; 95%) für die nachfolgenden Experimente bereitzustellen. Diese S100-Proteine wurden über den 18F-tragenden Aktivester N-Succinimidyl-4-[18F]fluorbenzoesäure ([18F]SFB) radioaktiv markiert und charakterisiert. Dabei konnte sichergestellt werden, dass die 18F-S100-Proteine in vitro und in vivo stabil sind. Weiterhin konnte nachgewiesen werden, dass die radioaktive Markierung keine Beeinträchtigung auf die biologische Funktionalität der S100-Proteine hat. Dies wurde anhand von sRAGE-Bindungsuntersuchungen sowie Zell-Interaktionsuntersuchungen an konfluenten Endothelzellen (HAEC) und an zu Makrophagen differenzierten THP-1-Zellen (THP-1-Makrophagen) verifiziert. Für die Untersuchung der RAGE-Bindung war die Produktion des löslichen sRAGE bzw. die Generation von flRAGE-berexprimierenden Zellen erforderlich. Beide Konstrukte wurden in geeigneten Zellsystemen exprimiert und das sRAGE-Protein wurde in biologisch aktiver Form synthetisiert und gereinigt (Reinheitsgrad &amp;gt; 97%). Die 18F-S100-Bindung an THP-1-Makrophagen und HAEC wurde in Gegenwart von glykierten LDL (glykLDL) sowie sRAGE signifikant inhibiert, was auf eine RAGE-Interaktion hinweist. Weiterhin konnten durch den Einsatz von Scavenger-Rezeptor-Liganden, wie z. B. Maleinanhydrid-modifiziertes BSA (malBSA) bzw. von Lektinen inhibierende Effekte erzielt werden. Dies ist ein Indiz für die 18F-S100-Interaktion mit Scavenger-Rezeptoren und Glykokonjugaten an der Zelloberfläche. Durch die Untersuchungen mittels konfokaler Laserscanning-Mikroskopie an THP-1-Makrophagen wurde eine Zellaufnahme des Fluoreszein-markierten S100A12 festgestellt. Weiterhin konnten Kolokalisationen mit Lektinen detektiert werden. Das metabolische Schicksal extrazellulär zirkulierender 18F-S100-Proteine in vivo wurde mit Hilfe dynamischer PET-Untersuchungen bzw. anhand von Bioverteilungs-Untersuchungen in männlichen Wistar-Ratten analysiert. Die Hauptakkumulation der Radioaktivität wurde in der Leber und in den Nieren detektiert. In diesen Organen findet der Metabolismus bzw. die glomeruläre Filtration der 18F-S100-Proteine statt. In den Untersuchungen zur Genexpression mittels Echtzeit-PCR sowie im immunchemischen Proteinnachweis am Western Blot wurde eine hohe Expression und Proteinbiosynthese des RAGE in der Lunge ermittelt. Die Lunge eignet sich daher als „Referenz“-Organ für eine funktionelle in vivo-Charakterisierung von RAGE mit 18FS100-Proteinen. Bei den durchgeführten PET-Untersuchungen konnte eine temporäre 18F-S100-Interaktion mit dem Lungengewebe festgestellt werden. Die Retention des 18FS100A12 in der Lunge wurde in Gegenwart von sRAGE inhibiert. Dies ist ein Hinweis dafür, dass 18F-S100-Proteine auch in vivo an RAGE binden können. Die Radioaktivitäts-Akkumulation in den Organen Leber und Milz, die eine Vielzahl von sessilen Makrophagen aufweisen, wurde durch die Applikation von malBSA inhibiert. Dies ist ein Indiz dafür, dass 18F-S100-Proteine in vivo mit Scavenger-Rezeptoren interagieren können. Die vorliegende Arbeit liefert deutliche Hinweise darauf, dass RAGE nicht der alleinige Rezeptor für 18F-S100-Proteine ist. Der Einsatz von 18F-S100-Proteinen als experimentelles Werkzeug in dynamischen PET-Untersuchungen birgt das Potential einer Charakterisierung von S100-Protein-assoziierten, pathophysiologischen Prozessen. / Members of the S100 family of EF-hand calcium binding proteins play important regulatory roles not only within cells but also exert effects in a cytokine-like manner on definite target cells once released into extracellular space or circulating blood. Accordingly, increased levels of S100 proteins in the circulating blood have been associated with a number of disease states, e.g., diabetes, cancer, and various inflammatory disorders. As the best known target protein of extracellular S100 proteins, the receptor for advanced glycation endproducts (RAGE) is of significant importance. However, the role of extracellular S100 proteins during etiology, progression, and manifestation of inflammatory disorders still is poorly understood. One reason for this is the shortage of sensitive methods for direct assessment of the metabolic fate of circulating S100 proteins and, on the other hand, measurement of functional expression of extracellular targets of S100 proteins, e.g., RAGE in vivo. In this line, small animal PET provides a valuable tool for noninvasive imaging of physiological processes and interactions like plasma or vascular retention, tissue-specific receptor binding, accumulation or elimination in vivo. To address this question, human S100 proteins were cloned in the bacterial expression vector pGEX-6P-1, expressed in E. coli BL21, and purified by affinity chromatography and anion exchange chromatography. Purified S100A1, S100B and S100A12 proteins were then radiolabeled with the positron emitter fluorine-18 (18F) by N-succinimidyl-4-[18F]fluorobenzoate ([18F]SFB). Radiolabeling of S100 proteins resulted in radiochemical yields of 3-10% (corrected for decay) and effective specific radioactivities of 1 GBq/µmol, respectively. For investigations about RAGE binding soluble RAGE (sRAGE) was expressed and purified using pSecTag2B. A radioligand binding assay confirmed specific binding of 18F-S100A12, 18F-S100A1, and 18F-S100B to immobilized sRAGE, also showing an order of affinity with S100A12 &amp;gt; S100A1 &amp;gt; S100B. These results indicate that radioactive labelling of S100 proteins did not affect their overall affinity to RAGE. Cellular association studies in human THP-1 macrophages and human aortic endothelial cells (HAEC) showed specific binding of all 18F-S100 proteins to the non-internalizing RAGE as confirmed by inhibitory effects exerted either by other RAGE ligands, e.g., glycated LDL, or by soluble RAGE. Of interest, 18F-S100 proteins were also shown to interact with other putative binding sites, e.g. scavenger receptors as well as proteoglycans. In this line, uptake of 18F-S100 proteins in THP-1 and HAEC could be inhibited by various scavenger receptor ligands, in particular by maleylated BSA as well as by lectines (e.g. ConA and SBA). Confocal laser scanning microscopy analysis showed a major part of the fluoresceinated S100A12 bound to the surface of THP-1 macrophages. Beyond this, uptake of S100A12 could be determined indicating an interaction of S100A12 with both non-internalizing, e.g., RAGE, and internalizing receptors, e.g. scavenger receptors. By evaluation of the relative contribution of 18F-S100A12 association to RAGE-overexpressed CHO cells (using pIres2-AcGFP1), 18F-S100A12 showed a significantly higher association to CHO-RAGE cells compared with CHO-mock cells. Based on these findings and due to their crucial role in inflammatory disorders the metabolic fate of S100 proteins was further investigated in dynamic small animal Positron emission tomography (PET) studies as well as in biodistribution studies in Wistar rats in vivo. For interpretation of in vivo investigations in rats, expression of RAGE was analyzed by quantitative real time RT-PCR as well as western blotting in various organs. Lung tissue expressed the highest level of RAGE protein compared to the other tissues. PET studies in rats revealed a comparatively long mean residence time of circulating 18F-S100 proteins. A major contributor to this phenomenon seems to be a sustained temporary interaction with tissues overexpressing RAGE, e.g., the lung. On the other hand, renal clearance of 18F-S100 via glomerular filtration is a major elimination pathway. However, scavenger receptor-mediated pathways in the liver, the spleen and, to a minor extent, in the kidneys, also seem to contribute to the overall clearance. The presence of sRAGE revealed a decreased retention of 18F-S100A12 in the lung, indicating in vivo binding to RAGE. In vivo blocking studies using maleylated BSA demonstrated a strong inhibition of putative binding sites in rat tissues enriched in cells expressing scavenger receptors like liver and spleen. In conclusion, 18F-labeling of S100 proteins and the use of small animal PET provide a valuable tool to discriminate the kinetics and the metabolic fate of S100 proteins in vivo. Furthermore, the results strongly suggest an involvement of other putative receptors beside RAGE in distribution, tissue association and elimination of circulating proinflammatory S100 proteins. Moreover, the approach provides novel probes for imaging of functional expression of RAGE and scavenger receptors in peripheral inflammatory compartments.

info:eu-repo/classification/ddc/540

ddc:540

Patient-Derived Tumour Growth Modelling from Multi-Parametric Analysis of Combined Dynamic PET/MR Data

Martens, Corentin

03 March 2021

Gliomas are the most common primary brain tumours and are associated with poor prognosis. Among them, diffuse gliomas – which include their most aggressive form glioblastoma (GBM) – are known to be highly infiltrative. The diagnosis and follow-up of gliomas rely on positron emission tomography (PET) and magnetic resonance imaging (MRI). However, these imaging techniques do not currently allow to assess the whole extent of such infiltrative tumours nor to anticipate their preferred invasion patterns, leading to sub-optimal treatment planning. Mathematical tumour growth modelling has been proposed to address this problem. Reaction-diffusion tumour growth models, which are probably the most commonly used for diffuse gliomas growth modelling, propose to capture the proliferation and migration of glioma cells by means of a partial differential equation. Although the potential of such models has been shown in many works for patient follow-up and therapy planning, only few limited clinical applications have seemed to emerge from these works. This thesis aims at revisiting reaction-diffusion tumour growth models using state-of-the-art medical imaging and data processing technologies, with the objective of integrating multi-parametric PET/MRI data to further personalise the model. Brain tissue segmentation on MR images is first addressed with the aim of defining a patient-specific domain to solve the model. A previously proposed method to derive a tumour cell diffusion tensor from the water diffusion tensor assessed by diffusion-tensor imaging (DTI) is then implemented to guide the anisotropic migration of tumour cells along white matter tracts. The use of dynamic [S-methyl-11C]methionine ([11C]MET) PET is also investigated to derive patient-specific proliferation potential maps for the model. These investigations lead to the development of a microscopic compartmental model for amino acid PET tracer transport in gliomas. Based on the compartmental model results, a novel methodology is proposed to extract parametric maps from dynamic [11C]MET PET data using principal component analysis (PCA). The problem of estimating the initial conditions of the model from MR images is then addressed by means of a translational MRI/histology study in a case of non-operated GBM. Numerical solving strategies based on the widely used finite difference and finite element methods are finally implemented and compared. All these developments are embedded within a common framework allowing to study glioma growth in silico and providing a solid basis for further research in this field. However, commonly accepted hypothesis relating the outlines of abnormalities visible on MRI to tumour cell density iso-contours have been invalidated by the translational study carried out, leaving opened the questions of the initialisation and the validation of the model. Furthermore, the analysis of the temporal evolution of real multi-treated glioma patients demonstrates the limitations of the formulated model. These latter statements highlight current obstacles to the clinical application of reaction-diffusion tumour growth models and pave the way to further improvements. / Les gliomes sont les tumeurs cérébrales primitives les plus communes et sont associés à un mauvais pronostic. Parmi ces derniers, les gliomes diffus – qui incluent la forme la plus agressive, le glioblastome (GBM) – sont connus pour être hautement infiltrants. Le diagnostic et le suivi des gliomes s'appuient sur la tomographie par émission de positons (TEP) ainsi que l'imagerie par résonance magnétique (IRM). Cependant, ces techniques d'imagerie ne permettent actuellement pas d'évaluer l'étendue totale de tumeurs aussi infiltrantes ni d'anticiper leurs schémas d'invasion préférentiels, conduisant à une planification sous-optimale du traitement. La modélisation mathématique de la croissance tumorale a été proposée pour répondre à ce problème. Les modèles de croissance tumorale de type réaction-diffusion, qui sont probablement les plus communément utilisés pour la modélisation de la croissance des gliomes diffus, proposent de capturer la prolifération et la migration des cellules tumorales au moyen d'une équation aux dérivées partielles. Bien que le potentiel de tels modèles ait été démontré dans de nombreux travaux pour le suivi des patients et la planification de thérapies, seules quelques applications cliniques restreintes semblent avoir émergé de ces derniers. Ce travail de thèse a pour but de revisiter les modèles de croissance tumorale de type réaction-diffusion en utilisant des technologies de pointe en imagerie médicale et traitement de données, avec pour objectif d'y intégrer des données TEP/IRM multi-paramétriques pour personnaliser davantage le modèle. Le problème de la segmentation des tissus cérébraux dans les images IRM est d'abord adressé, avec pour but de définir un domaine propre au patient pour la résolution du modèle. Une méthode proposée précédemment permettant de dériver un tenseur de diffusion tumoral à partir du tenseur de diffusion de l'eau évalué par imagerie DTI a ensuite été implémentée afin de guider la migration anisotrope des cellules tumorales le long des fibres de matière blanche. L'utilisation de l'imagerie TEP dynamique à la [S-méthyl-11C]méthionine ([11C]MET) est également investiguée pour la génération de cartes de potentiel prolifératif propre au patient afin de nourrir le modèle. Ces investigations ont mené au développement d'un modèle compartimental pour le transport des traceurs TEP dérivés des acides aminés dans les gliomes. Sur base des résultats du modèle compartimental, une nouvelle méthodologie est proposée utilisant l'analyse en composantes principales pour extraire des cartes paramétriques à partir de données TEP dynamiques à la [11C]MET. Le problème de l'estimation des conditions initiales du modèle à partir d'images IRM est ensuite adressé par le biais d'une étude translationelle combinant IRM et histologie menée sur un cas de GBM non-opéré. Différentes stratégies de résolution numérique basées sur les méthodes des différences et éléments finis sont finalement implémentées et comparées. Tous ces développements sont embarqués dans un framework commun permettant d'étudier in silico la croissance des gliomes et fournissant une base solide pour de futures recherches dans le domaine. Cependant, certaines hypothèses communément admises reliant les délimitations des anormalités visibles en IRM à des iso-contours de densité de cellules tumorales ont été invalidée par l'étude translationelle menée, laissant ouverte les questions de l'initialisation et de la validation du modèle. Par ailleurs, l'analyse de l'évolution temporelle de cas réels de gliomes multi-traités démontre les limitations du modèle. Ces dernières affirmations mettent en évidence les obstacles actuels à l'application clinique de tels modèles et ouvrent la voie à de nouvelles possibilités d'amélioration. / Doctorat en Sciences de l'ingénieur et technologie / info:eu-repo/semantics/nonPublished

Ingénierie biomédicale

Cancérologie

Analyse numérique

Intelligence artificielle

Programmation du calcul numérique

Statistique appliquée

Amino Acid Transport

Deep Learning

Finite Difference Method

Finite Element Method

Glioma

Histology

Magnetic Resonance Imaging

Positron Emission Tomography

Pharmacokinetic Modelling

Reaction-Diffusion Equation

Tumour Growth Modelling

Transport des acides aminés

Apprentissage profond

Méthode des différences finies

Méthode des éléments finis

Gliome

Histologie

Imagerie par résonance magnétique

Tomographie par émission de positons

Modélisation pharmacocinétique