Fast STED Microscopy / Schnelle STED-Mikroskopie

Lauterbach, Marcel

15 December 2009

No description available.

530 Physik

Mathematics and Computer Science

Schnelle STED-Mikroskopie

Strahlabtastung

Neurotransmittervesikel

Vesikel

Kolloide

Kolloidkristalle

Monolage

in vivo STED-Mikroskopie

Zweifarben-STED-Mikroskopie

Mehrfarbige STED-Mikroskopie

TIMP-1

CD-63

Integrin

Mitochondrien

TOM

Proteinverteilung

Geschichte der Beugungsgrenze

Abbe

Auflösung

Fast STED Microscopy

beam-scanning

beamscanning

neurotransmitter vesicles

neurotransmittervesicles

colloids

colloidal crystals

monolayer

in vivo STED microscopy

two-color STED microscopy

TIMP-1

CD63

Integrin

mitochondria

TOM

protein distribution

history of diffraction

Abbe

resolution

42.12

33.18

42.03

50.37

RPV 280: Mikroskop {Physik: Optik}

RPV 720: Mikroskopie {Physik}

WC 100: Biophysikalische Methoden

MED 272: Biophysik {Medizin}

AHI 470

Modulation de la réponse immunitaire dans le cerveau par la barrière hémato-encéphalique : implication en sclérose en plaques

Ifergan, Igal

10 1900

La sclérose en plaques (SEP) est une maladie inflammatoire du système nerveux central (SNC) caractérisée par une infiltration périvasculaire de cellules mononucléaires, telles que les lymphocytes T CD4+ et CD8+, les lymphocytes B ainsi que les cellules myéloïdes qui comprend les monocytes, les macrophages et les cellules dendritiques (DCs). Ce phénomène d’infiltration est dû à une fragilisation de la barrière hémato-encéphalique (BHE). L’entrée des cellules immunitaires au SNC va mener à la destruction de la gaine de myéline et donc à l’apparition de plaques de démyélinisation. Ainsi, nous avons émis l’hypothèse que la migration des divers sous-types de cellules immunitaires du sang périphérique à travers la BHE est contrôlée par des mécanismes moléculaires distincts et spécifiques à chaque type cellulaire. Afin de répondre à cette hypothèse, quatre différentes études ont été mises sur pieds. En premier lieu, nous démontrons un effet bénéfique des statines sur la BHE en SEP, en diminuant la migration des lymphocytes T et des monocytes, et en diminuant la diffusion de marqueurs moléculaire soluble. Ce phénomène s’opère via la suppression du processus d’isoprenylation, et en empêchant probablement la contraction des cellules endothéliales de la BHE. De plus, nous démontrons que les monocytes qui migrent au SNC en condition inflammé sont en mesures de se différencier en DCs et d’induire une réponse inflammatoire de la part des lymphocytes T CD4+. La migration des monocytes à travers la BHE est contrôlée par une nouvelle molécule d’adhérence nommée Ninjurin-1. Le blocage de Ninjurin-1 conduit à une inhibition spécifique de la migration des monocytes in vitro, ainsi qu’à une amélioration des signes cliniques du modèle animal de la SEP, soit l’encéphalomyélite auto-immune expérimentale (EAE). Finalement, nous démontrons que la migration des lymphocytes T CD8+ au SNC s’effectue via l’intégrine alpha-4. De plus, la majorité des lymphocytes T CD8+ que l’on retrouve dans le liquide céphalo-rachidien de patients SEP, dans le SNC de souris EAE ainsi que dans le SNC de souris infectée au virus de l’hépatite murine portent un phénotype effecteur mémoire. Ces données pourraient expliquer l’émergence de leucoencéphalopathie multifocale progressive observée chez certains patients SEP traités au natalizumab, un anticorps dirigé contre l’intégrine alpha-4. En conclusion, notre étude a permis de démontrer l’importance des monocytes provenant de la périphérie dans le processus inflammatoire prenant part au SNC en SEP. L’inhibition d’entrée de ces cellules pourrait s’avérer bénéfique en SEP tout en permettant l’immuno-surveillance du cerveau, ce que l’anti-alpha-4 intégrine ne permet pas. Les statines pourraient s’avérer une autre option intéressante puisqu’elles agissent sur les processus inflammatoires impliqués dans la SEP. / Multiple sclerosis (MS) is an immune-mediated disorder of the central nervous system (CNS) characterized by multifocal areas of leukocyte infiltration and demyelination associated with a breakdown of the blood-brain barrier (BBB). Typically, demyelination is centered around perivascular accumulation of CD4+ and CD8+ T lymphocytes, monocytes, macrophages and dendritic cells (DCs) that arise from migration of peripheral blood immune cells across the CNS microvascular endothelium. We have thus suggested that the migration across the BBB of immune cells subsets from the blood is controlled by molecular mechanism specific for each cell type. To answer this hypothesize, we have performed four different studies. We first show a beneficial effect of statins on the BBB, restricting the migration of lymphocytes and monocytes as well as the diffusion of soluble molecular tracers. This phenomenon is mediated through abrogation of isoprenylation processes that is probably inhibiting the ability of endothelial cells of the BBB to contract. We also show that CD14+ monocytes migrate across the inflamed human blood BBB and differentiate into DCs in response to BBB-secreted TGF-beta and GM-CSF. These DCs then promote the proliferation and expansion of inflammatory CD4+ T lymphocytes. We demonstrate that the migration of monocytes is controlled by a new adhesion molecule called Ninjurin-1. Ninjurin-1 neutralization specifically abrogated the adhesion and migration of human monocytes across endothelial cells of the BBB, without affecting lymphocyte recruitment. Moreover, Ninjurin-1 blockade reduced clinical disease activity and histopathological indices of experimental allergic encephalomyelitis (EAE). Finally we show that migration of CD8+ T lymphocytes across BBB is dependent on alpha-4 integrin. Also, the majority of CD8+ T lymphocytes found in the cerebrospinal fluid of MS patients, and in the CNS of EAE mice as well as the CNS of mouse infected with hepatitis virus are showing an effector memory phenotype. These data could explain the numerous cases of progressive multifocal leukoencephalopathy seen in natalizumab treated MS patients. In conclusion, our study unveils an important role of peripheral monocytes in MS. The inhibition of migration of these cells to the CNS could be a beneficial therapy since it would allow immune surveillance of the brain. The statins could also be a very interesting option since these molecules would reduce the inflammatory processes involved in MS.

Sclérose en plaques

Barrière hémato-encéphalique

Migration transendothéliales

Monocytes

Cellules Dendritiques

Lymphocytes T

Intégrine alpha-4

Statines

Multiple sclerosis

Experimental allergic encephalomyelitis

Blood-brain barrier

Migration

Monocytes

Dendritic cells

T lymphocytes

Alpha-4 integrin

Statins

Treatment-Naïve HIV-Infected Patients Have Fewer Gut-Homing β7 Memory CD4 T Cells than Healthy Controls

Fadul, Nada, Couturier, Jacob, Yu, Xiaoying, Kozinetz, Claudia A., Arduino, Roberto, Lewis, Dorothy E.

01 November 2017

OBJECTIVES: The integrin α4β7 is the gut-homing receptor for lymphocytes. It also is an important co-receptor for human immunodeficiency virus (HIV) via glycoprotein (gp)120 binding. Depletion of gut cluster of differentiation (CD)4 T cells is linked to chronic inflammation in patients with HIV; however, measuring CD4 cells in the gut is invasive and not routine. As such, establishing a peripheral marker for CD4 depletion of the gut is needed. We hypothesized that α4β7 CD4 T cells are depleted in the peripheral blood of treatment-naïve patients with HIV compared with healthy controls. METHODS: The study groups were treatment-naïve patients with HIV and uninfected controls. Subjects were included if they were 18 years or older with no history of opportunistic infections, active tuberculosis, or cancer. We collected peripheral blood and examined on whole blood using flow cytometry for the following cell surface markers: CD4, CD45RO, chemokine receptor type 5, C-X-C chemokine receptor type 4 (CXCR4), and the integrin β7. We collected demographic information, including age, sex, and ethnicity, as well as viral load (VL) and CD4 count. Two-samplettests and Fisher exact tests were used to compare the differences between the two groups. Spearman correlation coefficients were calculated between CD4 count and log10-VL and percentage of CD4+/CD45RO+/β7+and log10-VL in patients. RESULTS: Twenty-two subjects were enrolled in the study (12 patients with HIV and 10 controls). There were no differences in age or sex between the two groups. There were more Hispanics and fewer Asians in the group comprising patients with HIV compared with the control group (7 vs 2 and 0 vs 4,P= 0.05, respectively). Patients infected with HIV had significantly lower frequencies of CD4+/CD45RO+/β7+cells (median 12%, range 5-18 compared with uninfected controls: median 20%, range 11-26,P= 0.0007). There was a statistically significant difference in the percentage of CD4+/CD45RO+/C-X-C chemokine receptor type 4+cells between patients (72%, range 60%-91%) compared with controls (79%, range 72%-94%,P= 0.04). The percentage of CD4+/CD45RO+/chemokine receptor type 5+did not differ between the group of patients with HIV and the control groups (22%, range 11%-57% vs 27%, range 14%-31%;P= 0.8, respectively). There was no correlation between percentage of CD4+/CD45RO+/β+cells and log10-VL as measured by the Spearman correlation coefficient (r= 0.05,P= 0.88) in patients infected with HIV. CONCLUSIONS: Memory CD4 β7+cells are reduced significantly in the peripheral blood of untreated patients infected with HIV, which could be used as a noninvasive indicator of intestinal CD4 T cell loss and recovery. Further studies are needed to examine whether depletion of these CD4+/CD45RO+/β7+cells in the peripheral blood parallels depletion in the gut of treatment-naïve patients with HIV and whether levels return to control levels after treatment.

adult

case-control studies

CD4 antigens

CD4 lymphocyte count

CD4-positive t-lymphocytes

female

flow cytometry

HIV infections

humans

integrin beta chains

leukocyte common antigens

lymphocyte count

male

middle aged

receptors

CXCR4

receptors

lymphocyte homing

viral load

young adult

Biostatistics and Epidemiology

Maternal Child Health

Epidemiology

Virus Diseases

Modulation de la réponse immunitaire dans le cerveau par la barrière hémato-encéphalique : implication en sclérose en plaques

Ifergan, Igal

10 1900

La sclérose en plaques (SEP) est une maladie inflammatoire du système nerveux central (SNC) caractérisée par une infiltration périvasculaire de cellules mononucléaires, telles que les lymphocytes T CD4+ et CD8+, les lymphocytes B ainsi que les cellules myéloïdes qui comprend les monocytes, les macrophages et les cellules dendritiques (DCs). Ce phénomène d’infiltration est dû à une fragilisation de la barrière hémato-encéphalique (BHE). L’entrée des cellules immunitaires au SNC va mener à la destruction de la gaine de myéline et donc à l’apparition de plaques de démyélinisation. Ainsi, nous avons émis l’hypothèse que la migration des divers sous-types de cellules immunitaires du sang périphérique à travers la BHE est contrôlée par des mécanismes moléculaires distincts et spécifiques à chaque type cellulaire. Afin de répondre à cette hypothèse, quatre différentes études ont été mises sur pieds. En premier lieu, nous démontrons un effet bénéfique des statines sur la BHE en SEP, en diminuant la migration des lymphocytes T et des monocytes, et en diminuant la diffusion de marqueurs moléculaire soluble. Ce phénomène s’opère via la suppression du processus d’isoprenylation, et en empêchant probablement la contraction des cellules endothéliales de la BHE. De plus, nous démontrons que les monocytes qui migrent au SNC en condition inflammé sont en mesures de se différencier en DCs et d’induire une réponse inflammatoire de la part des lymphocytes T CD4+. La migration des monocytes à travers la BHE est contrôlée par une nouvelle molécule d’adhérence nommée Ninjurin-1. Le blocage de Ninjurin-1 conduit à une inhibition spécifique de la migration des monocytes in vitro, ainsi qu’à une amélioration des signes cliniques du modèle animal de la SEP, soit l’encéphalomyélite auto-immune expérimentale (EAE). Finalement, nous démontrons que la migration des lymphocytes T CD8+ au SNC s’effectue via l’intégrine alpha-4. De plus, la majorité des lymphocytes T CD8+ que l’on retrouve dans le liquide céphalo-rachidien de patients SEP, dans le SNC de souris EAE ainsi que dans le SNC de souris infectée au virus de l’hépatite murine portent un phénotype effecteur mémoire. Ces données pourraient expliquer l’émergence de leucoencéphalopathie multifocale progressive observée chez certains patients SEP traités au natalizumab, un anticorps dirigé contre l’intégrine alpha-4. En conclusion, notre étude a permis de démontrer l’importance des monocytes provenant de la périphérie dans le processus inflammatoire prenant part au SNC en SEP. L’inhibition d’entrée de ces cellules pourrait s’avérer bénéfique en SEP tout en permettant l’immuno-surveillance du cerveau, ce que l’anti-alpha-4 intégrine ne permet pas. Les statines pourraient s’avérer une autre option intéressante puisqu’elles agissent sur les processus inflammatoires impliqués dans la SEP. / Multiple sclerosis (MS) is an immune-mediated disorder of the central nervous system (CNS) characterized by multifocal areas of leukocyte infiltration and demyelination associated with a breakdown of the blood-brain barrier (BBB). Typically, demyelination is centered around perivascular accumulation of CD4+ and CD8+ T lymphocytes, monocytes, macrophages and dendritic cells (DCs) that arise from migration of peripheral blood immune cells across the CNS microvascular endothelium. We have thus suggested that the migration across the BBB of immune cells subsets from the blood is controlled by molecular mechanism specific for each cell type. To answer this hypothesize, we have performed four different studies. We first show a beneficial effect of statins on the BBB, restricting the migration of lymphocytes and monocytes as well as the diffusion of soluble molecular tracers. This phenomenon is mediated through abrogation of isoprenylation processes that is probably inhibiting the ability of endothelial cells of the BBB to contract. We also show that CD14+ monocytes migrate across the inflamed human blood BBB and differentiate into DCs in response to BBB-secreted TGF-beta and GM-CSF. These DCs then promote the proliferation and expansion of inflammatory CD4+ T lymphocytes. We demonstrate that the migration of monocytes is controlled by a new adhesion molecule called Ninjurin-1. Ninjurin-1 neutralization specifically abrogated the adhesion and migration of human monocytes across endothelial cells of the BBB, without affecting lymphocyte recruitment. Moreover, Ninjurin-1 blockade reduced clinical disease activity and histopathological indices of experimental allergic encephalomyelitis (EAE). Finally we show that migration of CD8+ T lymphocytes across BBB is dependent on alpha-4 integrin. Also, the majority of CD8+ T lymphocytes found in the cerebrospinal fluid of MS patients, and in the CNS of EAE mice as well as the CNS of mouse infected with hepatitis virus are showing an effector memory phenotype. These data could explain the numerous cases of progressive multifocal leukoencephalopathy seen in natalizumab treated MS patients. In conclusion, our study unveils an important role of peripheral monocytes in MS. The inhibition of migration of these cells to the CNS could be a beneficial therapy since it would allow immune surveillance of the brain. The statins could also be a very interesting option since these molecules would reduce the inflammatory processes involved in MS.

Sclérose en plaques

Barrière hémato-encéphalique

Migration transendothéliales

Monocytes

Cellules Dendritiques

Lymphocytes T

Intégrine alpha-4

Statines

Multiple sclerosis

Experimental allergic encephalomyelitis

Blood-brain barrier

Migration

Monocytes

Dendritic cells

T lymphocytes

Alpha-4 integrin

Statins

Mathematical Modelling of the Role of Haptotaxis in Tumour Growth and Invasion

Mallet, Daniel Gordon

January 2004

In this thesis, a number of mathematical models of haptotactic cell migration are developed. The modelling of haptotaxis is presented in two distinct parts - the first comprises an investigation of haptotaxis in pre-necrotic avascular tumours, while the second consists of the modelling of adhesion-mediated haptotactic cell migration within tissue, with particular attention paid to the biological appropriateness of the description of cell-extracellular matrix adhesion. A model is developed that describes the effects of passive and haptotactic migration on the cellular dynamics and growth of pre-necrotic avascular tumours. The model includes a description of the extracellular matrix and its effect on cell migration. Questions are posed as to which cell types act as a source of the extracellular matrix, and the model is used to simulate the possible effects of different matrix sources. Simulations in one-dimensional and spherically symmetric geometry are presented, displaying familiar results such as three-phase tumour growth and tumours comprising a rim of proliferating cells surrounding a non-proliferating region. Novel effects are also described such as cell population splitting and tumour shrinkage due to haptotaxis and appropriate extracellular matrix construction. The avascular tumour model is then extended to describe the internalisation of labelled cells and inert microspheres within multicell tumour spheroids. A novel model of adhesion-receptor mediated haptotactic cell migration is presented and specific applications of the model to tumour invasion processes are discussed. This model includes a more biologically realistic description of cell adhesion than has been considered in previous models of cell population haptotaxis. Through assumptions of fast kinetics, the model is simplified with the identification of relationships between the simplified model and previous models of haptotaxis. Further simpli.cations to the model are made and travelling wave solutions of the original model are then investigated. It is noted that the generic numerical solution routine NAG D03PCF is not always appropriate for the solution of the model, and can produce oscillatory and inaccurate solutions. For this reason, a control volume numerical solver with .ux limiting is developed to provide a better method of solving the cell migration models.

Adhesion Receptors

Anoikis

Cancer

Cell Migration

Chemotaxis

Control Volume Method

Extracellular Matrix

flux Limiting

Haptotactic Boundary Layer

Haptotaxis

Integrin Blocking

Integrins

Internalisation

Invasion

Lamellipod

Landau Transformation

Ligand

Metastasis

Multicell Spheroid

Newton’s Method

Phase Plane

Protease

Taxis

Travelling Wave

Tumor

Tumour

Wall Of Singularities

Des lapins watanabe au syndrome hyper IgE humain : caractérisation précoce de l'athérosclérose utilisant une probe optique ciblant l'integrin aVb3 / From Watanabe Rabbits to Human Hyper IgE Syndrome : Characterization of Early Atherosclerosis Using a High Affinity αvβ3 Integrin Targeted Optical Probe

Héroux, Julie

20 December 2012

La détection précoce de l’athérosclérose, avant le développement de ses séquellespathologiques, comme l’infarctus du myocarde, l’angine ou l’accident cérébrauxvasculaire(ACV), représente un important défi au niveau de la médecine diagnostiqueactuelle. Malgré les récentes avances technologiques, les maladies cardiovasculairesdemeurent la principale cause de décès dans les pays occidentaux et la détection à unstage plus précoce s’avère nécessaire pour permettre une intervention thérapeutiqueadéquate. Notre étude se concentre sur la détection de l’athérosclérose, plusspécifiquement la vulnérabilité de la plaque, grâce à l’imagerie moléculaire combinée àl’observation pathologique. Afin de prédire la rupture de la plaque, l’imageriemoléculaire a émergé comme outil diagnostique puissant suite au développementcroissant de sondes ayant de l’affinité pour les molécules cibles du processusd’athérosclérose. Comme résultantes, ces molécules sélectives possédant une forteaffinité pour des cibles surexprimées durant le processus de formation de la plaque,comme l’αvβ3 par exemple, devrait représentées des sondes prometteuses pour ladétection de l’athérosclérose.Objectif L’objectif global de notre étude était d’évaluer et de prédire lavulnérabilité de la plaque d’athérome à l’aide de différents marqueurs moléculaires. Leprincipal objectif de notre recherche était d’évaluer la possibilité de détecter précocementla plaque en utilisant une ITOP (integrin targeted optical probe). Cette sonde synthétiquenouvellement développée et ciblant l’intégrine αvβ3 avait déjà démontré une affinité etspécificité particulièrement élevée pour le récepteur de l’αvβ3 dans le cancer. Nousavons également exploré la relation entre cette sonde et l’observation pathologique desplaques d’athéromes sur le modèle animale WHHL et sur des plaques humainesprovenant de différents patients.Procédure et Résultats Les expériences ont été réalisées sur un total de 12 lapinsWatanabe hyperlipidémiques de souche WHHL (Watanabe heritable hyperlipidemic) et 1lapin contrôle NZW (New Zealand White). Premièrement, notre ITOP, marquée avec lafluorescéine isothiocyanate (FITC), a été utilisée pour détecter in vitro et ex vivo laprésence du récepteur de l’αvβ3. La microscopie à fluorescence a révélé un importantmarquage de la plaque d’athérome, lequel était absent dans les tissus provenant des lapinscontrôles NZW. Le marquage a été détecté au niveau de segments de plaques provenantde deux régions distinctes de l’aorte ascendante et descendante dans chaque lapin. Lesignal a été détecté principalement au niveau de l’adventitia et de l’intima proximale desvaisseaux aortiques, correspondant directement à l’expression de l’intégrine αvβ3,déterminée par essai immunochimique avec un anticorps contre l’αvβ3. De plus, uneforte association s’est révélée entre le niveau de marquage de la sonde ciblant l’αvβ3 etl’épaisseur de l’adventitia. Deuxièmement, nous avons évalué notre sonde sur deséchantillons humains affectés par l’athérosclérose et comparé les résultats avec uneévaluation morphologique. Nous avons remarqué la même tendance que chez le lapin, soiun marquage plus important lorsque l’adventitia s’épaissi. Finalement, nous avons testé lasonde sur des artères coronaires provenant d’une autopsie d’un patient affecté par le ADHIESet comparé les résultats avec l’évaluation morphologique de leurs artèrescoronaires. Nous avons trouvé un lien entre la morphologie de la plaque et la prévalenced’anévrysmes coronaires chez ces patients.Conclusion L’expression de l’αvβ3 est reliée à la foi aux processus inflammatoires età la sténose. Notre ITOP à marqué efficacement in vitro le premier type de plaqued’athérome classé comme avancé (type IV) et pouvant produire des manifestationscliniques. En combinaison avec l’imagerie noninvasive détectant la sténose, il pourraits’avéré utile dans la détection de la plaque vulnérable. / Purpose The detection of early atherosclerosis, before the development of its later sequelae of myocardial infarction, angina or stroke, constitutes an important challenge in current diagnostic medicine. Despite all the recent technological advances, cardiovascular disease remains the leading cause of death in the Western World and needs to be detected at an earlier stage to allow for more timely therapeutic intervention. This study is focusing on the detection of atherosclerosis or more specifically plaque vulnerability with the help of molecular imaging and pathological observation. Effectively, to predict plaque rupture, molecular imaging has emerged as a powerful diagnostic tool, consequent to the development of a growing number of new probes with affinity for key molecular targets. As a result, such selective molecule with high affinity for overexpressed target in plaque formation, as αvβ3 integrin, should have promise as a probe for imaging atherosclerosis. With the help of molecular imaging combined with pathological observations, we can better comprehend, predict, and detect plaque vulnerability and rupture. Objectives The overall objective of this study is to evaluate different molecular tools to predict the vulnerability of the atheromatous plaque. The major objective of the research was to investigate the possibility of detecting atherosclerotic plaque by using a newly developed synthetic αvβ3 integrin targeted optical probe (ITOP) showing particularly high affinity and specificity for the αvβ3 receptor. We also investigate the relation between this probe and pathological observation of atherosclerotic plaques from WHHL animal model and different human samples. Procedures and Results For this study, experiments were performed on 12 Watanabe heritable hyperlipidemic (WHHL) rabbits and 1 New Zealand White (NZW) rabbits for control. First, our ITOP labeled with fluorescein isothiocyanate was used for detecting the presence of αvβ3 receptors in vitro and ex vivo on a Watanabe rabbit model. Fluorescence microscopy demonstrated a strong labeling of atherosclerotic plaques, which was absent in tissue from normal NZW rabbits. Segments of plaque accumulation from two distinct regions of ascending and descending aortas were labeled in each rabbit. The signal was found principally in the adventitia and proximal intima of the aortic vessel, corresponding directly to the expression of integrin αvβ3 as determined by antibody assay. Moreover, there was a close association between the level of labeling with the αvβ3 targeted probe and the thickness of the adventitia. Secondly, the ITOP was evaluated on human atherosclerotic samples, and was found to efficiently labeled atherosclerotic plaques. Moreover, we observed the same tendency as in the Watanabe rabbit: the ITOP intensity correlated with the degree of adventitial thickening. Finally, we tested the ITOP on Job's Syndrome coronary arteries, and have been able to detect a plaque corresponding to the first type of advanced atherosclerosis (type IV). We also found a relationship between plaque morphology and predisposition to aneurysms in Job's syndrome. Conclusions αvβ3 expression is related to inflammatory and stenotic processes. Our ITOP can efficiently label in vitro the first type of advanced atherosclerotic plaque. In combination with noninvasive imaging techniques that evaluate stenosis, it has great potential for the detection of vulnerable plaque.

Athérosclérose

Plaque Vulnérable

Imagerie Moléculaire

Sonde Ciblant l’Intégrine αvβ3

Pathologie

Immunohistologie

Atherosclerosis

Vulnerable Plaque

Molecular Imaging

Pathology

Immunohistology

Coronary aneurysms

Développement de sondes polymères fluorescentes à propriétés de ciblage améliorées pour des applications en imagerie cellulaire et en oncologie / Development of fluorescent polymer probes with improved targeting for applications in cell imaging and oncology

Duret, Damien

21 June 2016

Ce travail est axé sur l’amélioration des propriétés de biospécificité de sondes polymères fluorescentes, d’architectures contrôlées synthétisées par polymérisation RAFT, pour deux applications principales : le ciblage de tumeurs cancéreuses in vivo et le marquage de protéines pour des études in cellulo. Pour une imagerie ciblée de l’angiogénèse tumorale in vivo, des systèmes de ciblage multivalents à deux niveaux ont été élaborés en combinant à la fois i) des polymères bien contrôlés synthétisés par polymérisation RAFT et par le procédé PISA, ii) des clusters peptidiques tétravalents présentant une forte affinité pour les intégrines αvβ3 et iii) des fluorophores émettant dans le rouge lointain/proche-infrarouge pour un suivi in vitro et in vivo par microscopie optique. Deux types de sondes ont été synthétisés, des conjugués linéaires et des nanoparticules chevelues. La présentation multivalente du cluster peptidique permet d’augmenter considérablement l’affinité pour les intégrines αvβ3. Les premières évaluations biologiques indiquent une internalisation cellulaire des sondes polymères médiée par les clusters peptidiques ainsi qu’un marquage sélectif des cellules sur-exprimant les intégrines αVβ3. Pour le marquage de protéines, deux stratégies ont été explorées : le marquage de protéines natives par couplage covalent de sondes ω-fonctionnelles et le marquage de protéines recombinantes par des sondes porteuses d’un ligand spécifique. Pour la première stratégie, une fonction ester activé a été introduite en extrémité ω de sondes polymères par chimie thiol-ène pour marquer les résidus lysines des protéines natives. Cette approche a abouti à un poly-marquage difficile à contrôler mais offrant une brillance élevée. Pour la seconde stratégie, un groupement acide nitrilotriacétique (NTA) a été introduit en extrémité α des sondes polymères afin de marquer spécifiquement les protéines taguées Histidines. Cette approche a permis un marquage efficace de différentes protéines et permet de contrôler précisément le nombre de sondes par protéine ainsi que leur site de fixation sur la protéine. Finalement, suite à ces travaux, une nouvelle stratégie de synthèse de polymères séquencés par addition successive de monomères hétéro-bifonctionnels en utilisant des réactions chimiques très efficaces, sélectives et orthogonales a été proposée et validée. / This work is focused on improving the biospecificity properties of fluorescent polymer probes, with controlled architectures, for two main applications: the in vivo targeting of cancer tumors and the labeling of proteins for in cellulo studies. For a targeted imaging of tumor angiogenesis in vivo, targeting systems presenting two levels of multivalency were developed by combining both i) well-controlled polymers synthesized by RAFT polymerization and the PISA process, ii) peptide tetravalent clusters exhibiting a high affinity for the αvβ3 integrins and iii) fluorophores emitting in the far red / near-infrared for a monitoring in vitro and in vivo by optical microscopy. Two types of probes were synthesized, linear conjugates and hairy nanoparticles. Multivalent presentation of the peptide cluster induced a significant increase of the affinity for αvβ3 integrins. The first biological evaluations also indicated an efficient cellular internalization of polymer probes mediated by the peptide clusters and a selective labeling of cells over-expressing αvβ3 integrins. For protein labeling, two strategies were explored: the labeling of native proteins by covalent coupling of ω-functional polymer probes and the labeling of recombinant proteins by probes bearing a specific ligand at one chain-end. For the first strategy, an activated ester function was introduced at the ω-end of polymer probes by thiol-ene chemistry to label the lysine residues of native proteins. This approach resulted in a poly-labeling, difficult to control but providing highly bright bioconjugates. For the second strategy, a nitrilotriacetic acid group (NTA) was introduced at the α-end of polymers probes to specifically label Histidine tagged proteins. This approach enabled an efficient labeling of different proteins with a more precise control of the number of probes per protein and of the binding site. Finally, following this work, a new synthetic strategy of sequenced polymers by successive addition of hetero-bifunctional monomers using highly efficient, selective and orthogonal chemical reactions was proposed and validated.

Imagerie médicale

Fluorescence

In vivo

In cellulo

Ciblage

Bio-Spécificité

Angiogénèse tumorale

Intégrine

Polymérisation radicalaire contrôlée

Procédé RAFT

Auto

Nanoparticule chevelue

Agent de Transfert de Chaîne

Polymère alpha-Fonctionnel

Polymère omega-Fonctionnel

Copolymère à bloc

Medical Imaging

Fluorescence

In vivo

In cellulo

Targeting

Bio-Specificity

Tumor angiogenesis

Integrin

Controlled Radical Polymerization

RAFT Process

Self assembly

Hairy nanoparticle

Chain Transfer Agent

Alpha-Functional polymer

Omega-Functional polymer

Block copolymer

547.707 2

Mecanismes de regulació en l'activitat biològica del factor de transcripció Snail

Domínguez Solà, David

03 April 2003

Els factors de transcripció de la família Snail són fonamentals en la "transició epiteli-mesènquima", procés morfogènic essencial en el desenvolupament embrionari i en els fenòmens metastàsics tumorals.En els mamífers l'activitat d'Snail és modulada per dos mecanismes. (i) En el promotor humà es troben regions definides de resposta a factors repressors, predominants en les cèl·lules epitelials, i elements diferenciats de resposta a inductors de la "transició epiteli-mesènquima". (ii) L'activitat d'Snail és condicionada també per la seva localització subcel·lular, modulada per mecanismes no transcripcionals: la fosforilació d'Snail determina si és o no exclós del nucli. Al citosol no pot actuar com a repressor transcripcional però pot interaccionar amb la xarxa microtubular, que estabilitza i en condiciona el dinamisme. Això coincideix amb l'activació de la GTPasa RhoA i la reorientació dels filaments de vimentina, fets associats a l'adquisició de capacitat migratòria. L'efecte com a repressor transcripcional i la modulació del dinamisme microtubular són possiblement esdeveniments coordinats necessaris per al rol biològic d'Snail en mamífers. / Snail family of transcription factors is fundamental to the "epithelial-mesenchymal transition", morphogenic process essential to embryonic development and metastatic phenomena in tumors.Snail's activity is modulated in two ways in mammals. (i) The human promoter harbors definite regions that respond to repressor factors, which prevail in epithelial cells; and differentiated elements that respond to known inducers of the "epithelial-mesenchymal transition". (ii) Snail's activity is also conditioned by its subcellular localization, mechanism not dependent on its transcriptional control: Snail phosphorylation determines whether Snail is excluded or not from the nucleus. When in the cytosol, Snail is unable to act as a transcriptional repressor, but however binds to the microtubular meshwork, which becomes stabilized and whose dynamism is conditioned as a result. This fact coincides with the activation of the RhoA GTPase and reorientation of vimentin filaments, both phenomena being related to the acquisition of cell motility. The transcriptional repressor and the microtubule dynamics effects are probably two coordinated events necessary to Snail's biological role in mammals.

Polimerització in vitro

PKCzeta

PKC atípica (Protein Kinase C)

P65

Promotor

Nocodazol

NF-kB/Dorsal (Nuclear Factor Kappa-B)

NES (seqüència d'export nuclear)

Microtúbuls detirosinats

Microtúbuls

Metàstasi

Invasió

Adenocarcinoma

ARNm

Beta-catenina

Centrosoma

CLIP-170

Cancer

Cresta neural

CRM1 (Chromosome Region Maintenance 1)

Despolimerització microtúbuls

Dit de Zenc atípic

Dit de Zenc

Domini ric en Serines

Ebox

E-cadherina

Espais intercromatínics

Estabilització microtúbuls

Export nuclear

Filaments intermediaris

Fosforilació

Gastrulació

GFP (Green Fluorescent Protein)

Heterocarions

ILK (Integrin Linked Kinase)

Promotor

Reconstrucció fronts invasius

Regulació

Retrogen

RhoA

GTPasa

SC35

Slug

SNAG (domini)

SNAI1L

Snail

Speckles nuclears

Time-lapse

Èster de forbol

Transició Epiteli-Mesènquima

Transcripció / Transcripcional

U2AF65

Vimentina

57

TARGETED DELIVERY OF BONE ANABOLICS TO BONE FRACTURES FOR ACCELERATED HEALING

Jeffery J H Nielsen (8787002)

21 June 2022

<div>Delayed fracture healing is a major health issue involved with aging. Therefore, strategies to improve the pace of repair and prevent non-union are needed in order to improve patient outcomes and lower healthcare costs. In order to accelerate bone fracture healing noninvasively, we sought to develop a drug delivery system that could safely and effectively be used to deliver therapeutics to the site of a bone fracture. We elected to pursue the promising strategy of using small-molecule drug conjugates that deliver therapeutics to bone in an attempt to increase the efficacy and safety of drugs for treating bone-related diseases.</div><div>This strategy also opened the door for new methods of administering drugs. Traditionally, administering bone anabolic agents to treat bone fractures has relied entirely on local surgical application. However, because it is so invasive, this method’s use and development has been limited. By conjugating bone anabolic agents to bone-homing molecules, bone fracture treatment can be performed through minimally invasive subcutaneous administration. The exposure of raw hydroxyapatite that occurs with a bone fracture allows these high-affinity molecules to chelate the calcium component of hydroxyapatite and localize primarily to the fracture site.</div><div>Many bone-homing molecules (such as bisphosphonates and tetracycline targeting) have been developed to treat osteoporosis. However, many of these molecules have toxicity associated with them. We have found that short oligopeptides of acidic amino acids can localize to bone fractures with high selectivity and with very low toxicity compared to bisphosphonates and tetracyclines.</div><div>We have also demonstrated that these molecules can be used to target peptides of all chemical classes: hydrophobic, neutral, cationic, anionic, short, and long. This ability is particularly useful because many bone anabolics are peptidic in nature. We have found that acidic oligopeptides have better persistence at the site of the fracture than bisphosphonate-targeted therapeutics. This method allows for a systemic administration of bone anabolics to treat bone fractures, which it achieves by accumulating the bone anabolic at the fracture site. It also opens the door for a new way of treating the prevalent afflictions of broken bones and the deaths associated with them.</div><div>We further developed this technology by using it to deliver anabolic peptides derived from growth factors, angiogenic agents, neuropeptides, and extracellular matrix fragments. We found several promising therapeutics that accelerated the healing of bone fractures by improving the mineralization of the callus and improving the overall strength. We optimized the performance of these molecules by improving their stability, targeting ligands, linkers, dose, and dosing frequency.</div><div>We also found that these therapeutics could be used to accelerate bone fracture repair even in the presence of severe comorbidities (such as diabetes and osteoporosis) that typically slow the repair process. We found that, unlike the currently approved therapeutic for fracture healing (BMP2), our therapeutics improved functionality and reduced pain in addition to strengthening the bone. These optimized targeted bone anabolics were not only effective at healing bone fractures but they also demonstrated that they could be used to speed up spinal fusion. Additionally, we demonstrated that acidic oligopeptides have potential to be used to treat other bone diseases with damaged bone.</div><div>With these targeted therapeutics, we no longer have to limit bone fracture healing to casts or invasive surgeries. Rather, we can apply these promising therapeutics that can be administered non-invasively to augment existing orthopedic practices. As these therapeutics move into clinical development, we anticipate that they will be able to reduce the immobilization time that is the source of so many of the deadly complications associated with bone fracture healing, particularly in the elderly.</div>

Genetics not elsewhere classified

Nanobiotechnology

Animal behaviour

Clinical microbiology

Endocrinology

Nanomedicine

Regenerative medicine (incl. stem cells)

Solid state chemistry

Molecular medicine

Proteins and peptides

Solution chemistry

Radiation and matter

Biomaterials

Biomechanical engineering

bone fracture healing

Anabolic Agents/pharmacology

Targeted Drug DeliveryDesign

Bone fracture targeted drugs

Bone theapeutics

targeted therapies

Growth factors

Neuropepetides

Extracellular matrix

Extracellular matrix fragments

spinal fusion

Angiogensis

Acidic oligopeptides

osteoporosic fractures

diabetic bone fractures

Integrin alpha 5

Acelerated Bone fracture healing

Hydroxyapatite

Hydroxyapatite targeting

Targeting peptides

Peptide drugs

osteomyelitis (OM)

Rheumatoid arthritis

Bone fractures

osteogenic therapies

osteotropic

osteotropic nanomedicines

osteoinductive capacity

Molecular Medicine

Organic Chemistry

Proteins and Peptides

Radiochemistry

Solid State Chemistry

Solution Chemistry

Biochemistry

Animal Behaviour

Biological Engineering

Biotechnology

Genetics

Medicine

Pharmacology

Biomaterials

Biomechanical Engineering

Biomechanics

Endocrinology

Nanobiotechnology

Nanomedicine