MASS SPECTROMETRY TO CHARACTERIZE SIGNIFICANT PROCESSES: FROM CHIRAL ENRICHMENT TO DISEASE METABOLISM

Rong Chen (9702269)

12 October 2022

<p>Mass spectrometry (MS) can provide rapid, sensitive, and specific analysis, making it a valuable tool to characterize biomolecules, especially their dynamic changes when involved in significant processes.  Compared to other analytical techniques, which mostly focus on solution-phase or solid-phase characterization, MS enjoys a more general and efficient detection of gas-phase analytes since it ultimately measures abundances of bare ions in vacuum. This unique detection capability of MS has been demonstrated, in this dissertation, by characterizing the neutral serine octamer, a gas-phase amino acid cluster that has been detected by MS only so far. Besides its existence, the progress of chiral enrichment has also been monitored and quantified by MS during octamer formation. The acquired MS data is crucial to interpreting the mechanism of chiral enrichment achieved by serine octamer and might suggest its involvement in the prebiotic world to eventually achieve biohomochirality. The work also showcases the capability of detecting neutral compounds by MS, which breaks the stereotype that MS is exclusively an ion-based technique. </p> <p><br></p> <p>Besides process monitoring in the open air, MS also monitors the highly complicated metabolism processes inside biosamples, primarily benefiting from its excellent sensitivity, specificity, and throughput of ion detection. Since altered cellular metabolism is being recognized as a hallmark of cancer, MS is suitable for cancer diagnostics, whose performance of diagnosing glioma, a common brain cancer, has been tested.  Desorption electrospray ionization(DESI) has been used as it avoids sample preparation and allows direct characterization of raw tissue, therefore well suited for on-site analysis such as in the operating room. In short, we have applied intraoperative DESI-MS analysis on raw brain biopsies to provide glioma diagnostics within 5 min. Specifically, the molecular features revealed by MS are translated into pathological information of analyzed tissue, like genetic mutations and tumor concentrations, which is highly desired during surgeries to guide tumor resection and improve patient management. </p> <p><br></p> <p>Knowledge of diagnostic biomarkers is essential to the translation from MS data to pathology, which can be obtained by metabolic profiling using MS. Despite the tradeoff between comprehensive characterization and analysis time, we have extensively explored endogenous metabolites by using tandem MS and expedited analysis by avoiding the use of chromatography. After fast profiling, statistical analysis of all MS features has been applied to discover diagnostic markers to distinguish healthy brain tissue from cancerous tissue. DESI-MS methods have been developed to facilitate a simple and rapid characterization of these biomarkers in tissue for a smooth clinical transition. </p> <p><br></p> <p>However, the complete characterization of endogenous metabolites in a complicated biomixture, like tissue, is challenging, especially without the orthogonal separation provided by chromatography. This unmet demand calls for the development of novel MS scans to improve the metabolite coverage. For lipidomics by direct infusion MS, the MS scans used for lipid profiling have not been greatly expanded since its introduction. These conventionalMS scans only target one structural moiety of lipids and leave the rest unresolved, which limits the structure elucidation and biological interpretation of diagnostic lipids. We have introduced additional lipid scans that target both the lipid headgroup and one fatty acyl chain, leaving the other fatty acyl chain flexible. These scans with higher specificity can further alleviate the matrix effect by uncovering fewer ions in each scan and provide more structural information to support lipid identification. As a proof-of-concept, we have used them to profile both common phospholipids and the rarer ether lipids that display significant variations between healthy mice tissue and those with metabolic syndrome. The additional structural information provided by these scans ensures a clear message expressed by the disease metabolism and potentially indicates invention points and therapeutic candidates.</p>

Clinical chemistry (incl. diagnostics)

Cancer diagnosis

Cancer genetics

Analytical spectrometry

serine octamers

chiral enrichment

glioma diagnosis

Isocitrate Dehydrogenase

lipid screening

mass spectrometry metabolomic

Avaliação de parâmetros do metabolismo de carbono e nitrogênio e de respostas ao estresse na associação de trigo com a bactéria Herbaspirillum seropedicae / Evaluation of carbon and nitrogen metabolism parameters and responses to stress in wheat association with bacteria Herbaspirillum seropedicae

Ortolan, Sarah Romani

28 July 2015

Made available in DSpace on 2017-07-10T17:37:10Z (GMT). No. of bitstreams: 1 Sarah_Romano_Ortolan.pdf: 975526 bytes, checksum: d72ab61fc7bdc88b6ddbab0eb3a86e42 (MD5) Previous issue date: 2015-07-28 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Wheat is considered the main cereal diet of the world population, but in recent years has achieved some gain in productivity of this culture despite having increased the use of nitrogen fertilizer. The use of plant growth promoting bacteria such as Herbaspirillum seropedicae SmR1 among others has been studied to obtain development of plants with less use of nitrogen fertilizers. However there is little information relating the effects of this interaction in plant development and grain yield. Objective of this study was to evaluate the carbon and nitrogen metabolism by certain enzymes, metabolites and indices related to the response to infectious stress on the wheat cultivars CD 104 and CD 120 in association with Herbaspirillum seropedicae bacteria. Two experiments were conducted. The experimental design was completely randomized with four replications in a 4x2. The first factor relates to the conditions inoculation with bacteria and/or nitrogen source in coverage are: control without inoculation with bacteria or added nitrogen fertilizer (C); application of nitrogen fertilizer (50 kg.ha-1) 30 days after sowing (N); inoculation with 106 cells of the bacterium H. seropedicae/seed at planting (Hs) and inoculation with bacteria combined with the application of nitrogen fertilizer (Hs + N) and the second factor refers to the phenological stages (tillering and booting). The results indicated that inoculation with H. seropedicae in wheat seeds of cv.s CD 104 and CD 120 in the two growth stages answered in relation to the indices related to stress with the involvement of enzymes of carbon and nitrogen metabolism. However prominent effect was not noticed to promote plant growth of wheat in late development, nor a deleterious effect of the bacterium for inoculation cv. CD 104 under the experimental conditions. For cv. CD 120 the differential effects indicate lower levels of stress and some level of association to positive effect on productivity when combined inoculation of bacteria to nitrogen fertilization. It was concluded that as well as pathogenic and stressors, H. seropedicae able to beneficially associate with wheat also provides similar interference pattern of carbon and nitrogen metabolism and stress levels / O trigo é considerado o principal cereal da dieta da população mundial, entretanto nos últimos anos tem se obtido pouco ganho de produtividade desta cultura apesar de se ter aumentado o uso de fertilizante nitrogenado. O uso de bactérias promotoras do crescimento vegetal, como Herbaspirillum seropedicae SmR1 entre outras, tem sido estudado para se obter desenvolvimento de plantas com menor uso de fertilizantes nitrogenados. Entretanto existem poucas informações que relacionam os efeitos desta interação no desenvolvimento da planta e de produtividade de grãos. Objetivo deste trabalho foi avaliar o metabolismo de carbono e nitrogênio através de algumas enzimas, metabólitos e índices relacionados à resposta ao estresse infeccioso em trigo das cultivares CD 104 e CD 120 em associação com a bactéria Herbaspirillum seropedicae em dois estádios fenológicos. Foram realizados dois experimentos. O delineamento experimental utilizado foi o inteiramente ao acaso, com 4 repetições, em esquema fatorial 4x2. O primeiro fator refere-se às condições de inoculação com bactéria e/ou fertilização nitrogenada em cobertura, sendo: controle, sem inoculação com bactéria ou adição de fertilizante nitrogenado (C); aplicação de fertilizante nitrogenado (50 kg.ha-1) após 30 dias da semeadura (N); inoculação de 106 células da bactéria H. seropedicae/semente na semeadura (Hs) e inoculação com a bactéria combinada com a aplicação de fertilizante nitrogenado (Hs + N) e o segundo fator refere-se aos estádios fenológicos (perfilhamento e emborrachamento). Os resultados indicaram que a inoculação com H. seropedicae em sementes de trigo das cv.s CD 104 e CD 120 nos dois estádios fenológicos responderam em relação aos índices relacionados ao estresse com envolvimento das enzimas do metabolismo de carbono e nitrogênio. Entretanto não foi percebido efeito proeminente de promoção do crescimento vegetal no final do desenvolvimento do trigo, tampouco efeito deletério da inoculação de bactéria para a cv. CD 104, nas condições experimentais. Para a cv. CD 120 os efeitos diferenciais indicam menor nível de estresse e algum nível de associação para efeito positivo na produtividade quando combinada a inoculação da bactéria com a fertilização nitrogenada. Foi possível concluir que assim como para agentes patogênicos e estressantes, a H. seropedicae, capaz de associar beneficamente com trigo também apresenta padrão semelhante de interferência do metabolismo de carbono e nitrogênio e índices de estresse

Glutamina sintetase

Glutamato desidrogenase

Isocitrato desidrogenase

Prolina

Fenilalanina amônia liase

Plant growth promoting bacteria

Glutamine synthetase

Glutamate dehydrogenase

Isocitrate dehydrogenase

Proline

Phenylalanine ammonia lyase

CIÊNCIAS AGRÁRIAS:AGRONOMIA

PATTERNS OF NUCLEOTIDE VARIATION AND GENE-ASSOCIATED SNP ANALYSIS IN A QUERCUS spp. FOREST AT ISOCITRATE DEHYDROGENASE GENES / Muster der Nukleotid-Variation und Gen-assoziierte SNP-Analyse in einem Eichenbestand (Quercus spp.) an Isocitrat-Dehydrogenase Gene

Vidalis, Amaryllis

16 September 2010

No description available.

570 Biowissenschaften

Biologie

Forest Sciences and Forest Ecology

Nukleotiddiveristät

Single Nucleotide Polymorphisms (SNP)

Isocitrat-Dehydrogenase

Quercus spp.

Nucleotide diversity

Single Nucleotide Polymorphisms (SNP)

isocitrate dehydrogenase

Quercus spp.

42.13

YQH 000: Genetik

Fortpflanzung

Züchtung {Forstbotanik}

Influ?ncia do sistema anteoxidante da catalase no ciclo do glioxilato durante o estabelecimento p?s-germinativo de c?rtamo (Carthamus tinctorius L.) e de girassol (Helianthus annuus L.)

Torres, Taffarel Melo

09 April 2013

Made available in DSpace on 2014-12-17T14:03:41Z (GMT). No. of bitstreams: 1 TaffarelMT_DISSERT.pdf: 2213102 bytes, checksum: 779f70cd3a9747e4f3a386630bd3d1cc (MD5) Previous issue date: 2013-04-09 / Funda??o de Apoio ? Pesquisa do Estado do Rio Grande do Norte / Oilseeds are a high-value natural resource, due to its use as a substitute for petroleum. However, the storage time can reduce seed viability and oil quality. Therefore, scientific efforts have been made to provide a increment of storage time, germination rates and plant establishment of high-value oilseeds. The seedling establishment depends of the plant pass over the functional transition stage, characterized by a metabolic change from heterotrophic condition to autotrophic one. The storage oil mobilization is performed by &#946;-oxidation process and the glyoxylate cycle. Also, the functional transition involves acclimation to photosynthetic condition, which generally includes the participation of antioxidant system and the reactive oxygen species, the latter are produced in various reactions of primary and secondary metabolism. In the present study, Catalase was inhibited during the functional transition of sunflower and safflower, after were performed many analyzes to elucidate the effects caused on the SOD and APX antioxidant systems. Also, were checked the changes in expression pattern of the glyoxylate cycle enzymes markers, ICL and MLS. It was observed that after CAT inhibition, the SOD and APX antioxidant systems allow the seedling establishment. Besides, was verified that both oilseeds can be accelerate the reverse mobilization and the photosynthetic establishment when Catalase activity has dramatically decreased / As sementes oleaginosas armazenam ?leos, um recurso natural de alto valor econ?mico devido a sua aplicabilidade como substituto aos derivados do petr?leo. Por?m, o tempo de armazenamento pode inviabilizar a semente provocando a redu??o da qualidade do ?leo e perda da viabilidade da semente. Por este motivo, esfor?os cient?ficos t?m sido realizados para proporcionar um maior tempo de armazenamento e incrementar taxas de germina??o e estabelecimento destas plantas com alto valor econ?mico. O estabelecimento da pl?ntula depende da capacidade do vegetal transpassar a etapa de transi??o funcional, caracterizada pela mudan?a do estado heterotr?fico para o autotr?fico. O consumo das reservas de ?leo depende das vias de &#946;-oxida??o e do ciclo do glioxilato. No entanto, o processo de transi??o envolve a aclimata??o do vegetal ? condi??o de organismo fotossintetizante, que em geral conta com a participa??o fundamental do sistema antioxidante do vegetal devido ? produ??o de esp?cies reativas de oxig?nio em v?rias rea??es do metabolismo prim?rio e secund?rio. Neste estudo, a Catalase foi inibida durante a transi??o funcional de girassol e c?rtamo para analisar os efeitos provocados nos sistemas antioxidantes de APX e da SOD e verificar as modifica??es no padr?o de express?o das enzimas marcadoras do ciclo do glioxilato, ICL e MLS. Constatou-se que diante da inibi??o da Catalase o sistema antioxidante da APX e da SOD permitem o estabelecimento da pl?ntula. Verificou-se tamb?m que as duas oleaginoasas parecem acelerar a mobiliza??o de reservas e o estabelecimento fotossint?tico quando a Catalase tem a atividade drasticamente reduzida

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Inibição da isocitrato liase de Paracoccidioides brasiliensis pelo produto natural argentilactona / Inhibition of isocitrate lyase by Paracoccidioides brasiliensis natural product argentilactone

PRADO, Renata Silva do

20 November 2010

Made available in DSpace on 2014-07-29T15:16:29Z (GMT). No. of bitstreams: 1 Renata Silva do Prado.pdf: 1314483 bytes, checksum: 0832c7a22af0d5f60e10293a7d47b2d0 (MD5) Previous issue date: 2010-11-20 / The fungus Paracoccidioides brasiliensis is the causative agent of paracoccidioidomicosys (PCM), the most prevalent human systemic mycosis in Latin America. The toxicity of drugs and the appearance of resistant strains have imposition the search for new therapeutic approaches. Plants with reputed antimicrobial uses represent a rich source for the screening of potential antifungal compounds. In this work, we investigated the inhibitory action of argentilactone, extracted from the essential oil of Hyptis ovalifolia, and its analogues on P. brasiliensis yeast cells, during the differentiation from mycelium to yeast, on native and recombinant PbICL. Sensitivity tests on plates, which assessed the activity of argentilactone on yeast cells of P. brasiliensis showed both argentilactone as reduced argentilactone interfered in fungus growth, affecting the cells in a dose-dependent way. The experiments evaluating the minimum inhibitory concentration (MIC), which evaluated the influence of the compounds during the transition from mycelium to yeast in P. brasiliensis showed that argentilactone and reduced argentilactone interferes in this process, also in a dose-dependent way. A specific activity of isocitrate lyase of the fungus, both recombinant as native, as measured by tests of enzyme activity was also affected by the compounds. The type of inhibition promoted by argentilactone and reduced argentilactone was defined as inhibition of mixed type through tests of enzyme kinetics. Different carbon sources (acetate and glucose) have directly influence on the processs of inhibition. The analogues epoxy argentilactone and diol argentilactone not inhibit the growth and differentiation of P. brasiliensis. In addition, it not inhibited the enzyme isocitrate lyase native or recombinant. / O fungo Paracoccidioides brasiliensis é o agente etiológico da paracoccidioidomicose (PCM), micose humana sistêmica de maior prevalência na América Latina. Devido à toxicidade dos antifúngicos existentes, e ao aparecimento de isolados resistentes, estudos em busca de novas terapias tem adquirido relevância. Plantas com propriedades terapêuticas representam uma fonte em potencial para descoberta de novos antifúngicos. Neste trabalho, foi investigada a influência de argentilactona, extraída do óleo essencial de Hyptis ovalifolia, e seus análogos obtidos sinteticamente sobre células leveduriformes de P. brasiliensis, durante o processo de diferenciação de micélio para levedura e sobre a enzima isocitrato liase recombinate (PbICLr) e nativa. Os testes de sensibilidade em placas, que avaliaram a atividade de argentilactona sobre células leveduriformes de P. brasiliensis, mostraram que tanto argentilactona como argentilactona reduzida interferiram no crescimento do fungo, afetando as células de modo dose-dependente. Os experimentos de avaliação de concentração inibitória mínima (CIM), que avaliaram a influência dos compostos durante a transição de micélio para levedura em P. brasiliensis mostraram que argentilactona e argentilactona reduzida interferem nesse processo, também de modo dose-dependente. A atividade específica da isocitrato liase do fungo, tanto recombinante como nativa, mensurada por testes de atividade enzimática, também foi afetada pelos compostos. O tipo de inibição promovida pela argentilactona e argentilactona reduzida foi definido como inibição do tipo mista, através de testes de cinética enzimática. Diferentes fontes de carbono (acetato e glicose) influenciaram diretamente o processo de inibição. Os análogos epoxi argentilactona e diol argentilactona não inibiram o crescimento de células leveduriformes e o processo de diferenciação de P. brasiliensis. Em adição, também não inibiram a atividade da enzima isocitrato liase recombinante e nativa.

Isocitrato liase

Paracoccidioides brasiliensis

inibição

Hyptis ovalifolia

Isocitrate lyase

Paracoccidioides brasiliensis

Inhibitory activity

Hyptis ovalifolia

Investigación de la Leucemia Mieloide Aguda mediante el desarrollo de modelos in vitro e in vivo

González Romero, Elisa

07 April 2022

[ES] La leucemia mieloide aguda (LMA) se trata de un grupo heterogéneo de desórdenes hematológicos producidos por alteraciones genéticas en las células precursoras mieloides. Las mutaciones en la enzima Isocitrato deshidrogenasa 2 (IDH2) son unas de estas alteraciones. Las mutaciones más frecuentes en esta proteína afectan a las posiciones R140 y R172, provocando una ganancia de función con la producción del oncometabolito D-2-hidroxiglutarato (2-HG). A pesar de que ambas inducen la producción de 2-HG, la mutación R172 produce mayor cantidad de oncometabolito, presenta menos concurrencias con otras alteraciones genéticas y se asocia a una peor respuesta a la quimioterapia y un mayor riesgo de recaída. Los modelos de investigación han permitido conocer el papel de las mutaciones genéticas en el desarrollo de la enfermedad. A pesar de ello, es necesario desarrollar nuevos modelos que expresen de forma endógena estas mutaciones para estudiar en profundidad las vías moleculares afectadas. Por todo ello, en esta Tesis se han desarrollado nuevas estrategias de edición génica mediante el sistema CRISPR/Cas9 con el objetivo de desarrollar nuevos modelos in vitro e in vivo de mutaciones implicadas en LMA. Debido a la baja eficiencia de transfección de los plásmidos CRISPR en las líneas celulares leucémicas, el método más empleado para introducir los elementos CRISPR han sido principalmente vectores lentivirales. Para evitar los inconvenientes de este tipo de vectores, en esta Tesis se ha desarrollado una estrategia alternativa para la introducción de la nucleasa Cas9 y los guías CRISPR. El gen codificante de la Cas9 se introdujo en el genoma de células NB4 mediante transducción con lentivirus, generando una línea celular con expresión constitutiva de la nucleasa. Por otro lado, se desarrolló un sistema sencillo de producción de los guías CRISPR mediante PCR con los elementos esenciales para su expresión y la expresión del reportero GFP de forma opcional. Con el objetivo de optimizar la técnica y probar su eficiencia en distintas dianas se modificaron dos genes implicados en LMA. Estos fueron el gen IDH2, en el cuál se buscó introducir la mutación R172, y el gen MYBL2. Finalmente, las eficiencias de edición obtenidas se compararon con el uso de complejos de ribonucleoproteínas CRISPR, muy utilizados por su alta eficiencia. Mientras que los complejos de ribonucleoproteínas presentaron una mayor eficiencia de corte, la eficiencia de edición de la mutación R172 fue similar en ambas estrategias. Mediante secuenciación masiva se confirmó y caracterizó esta edición y se comprobó que la maquinaria de edición no había producido cortes inespecíficos en regiones similares del genoma. Por tanto, la nueva metodología desarrollada permitió editar de forma precisa líneas celulares leucémicas con eficiencias similares a otras técnicas CRISPR más extendidas y sin producir efectos inespecíficos no deseados. Por otro lado, gracias a la gran conservación evolutiva del gen IDH2, los residuos R140 y R172 se encuentran conservados en la proteína idh-2 de Caenorhabditis elegans. Se empleó la estrategia co-CRISPR para desarrollar y seleccionar cepas mutantes con las mutaciones ortólogas a R140 y R172, y una cepa con ambas mutaciones. A pesar de la conservación, no se observó el aumento del oncometabolito 2-HG esperado en las cepas mutantes en comparación con la cepa salvaje control N2. Un estudio exhaustivo de las vías implicadas nos serviría para desarrollar modelos de investigación con las alteraciones moleculares observadas en los pacientes. Para concluir, la estrategia desarrollada de introducción de elementos CRISPR en líneas celulares, junto a los modelos producidos en C. elegans, permitirán en futuros estudios investigar en detalle los efectos moleculares de mutaciones detectadas en pacientes de LMA, su implicación en el desarrollo y pronóstico de la LMA y comprender su papel en la estratificación de los pacientes. / [CA] La leucèmia mieloide aguda (LMA) es tracta d'un grup heterogeni de desordres hematològics produïts per alteracions genètiques en les cèl·lules precursores mieloides. Les mutacions en l'enzim Isocitrato deshidrogenasa 2 (IDH2) son d'aquestes alteracions. Les mutacions més freqüents en aquesta proteïna afecten a les posicions R1240 i R172, produint un guany de funció amb la producció de l'oncometabolit D-2-hidroxiglutarat (2-HG). A pesar que ambdues indueixen la producció de 2-HG, la mutació R172 produeix mes quantitat de oncometabolit, presenta menys co ocurrències con altres alteracions genètiques i s'associa a una pitjor resposta a la quimioteràpia i un major risc de recaiguda. Els models d'investigació han permés conéixer el paper de les mutacions genètiques en el desenvolupament de la malaltia. Malgrat això, és necessari desenvolupar nous models que expressen de manera endògena aquestes mutacions per a estudiar en profunditat les vies moleculars afectades. Per tot això, en aquesta Tesis s'han desenvolupat noves estratègies d'edició gènica mitjançant el sistema CRISPR/Cas9 amb l'objectiu de desenvolupar nous models in vitro i in vivo de les mutacions implicades en la LMA. Degut a la baixa eficiència de transfecció dels plasmids CRISPR en les línies cel·lulars leucèmiques, el mètode més emprat per a introduir els elements CRISPR han sigut principalment vectors lentivirals. Per a evitar els inconvenients d'aquesta mena de vectors, en aquesta Tesis s'ha desenvolupat una estratègia alternativa per a la introducció de la nucleasa Cas9 i els guies CRISPR. El gen codificant de la Cas9 es va introduir al genoma de cèl·lules NB4 mitjançant transducció amb lentivirus, generant una línia cel·lular amb expressió constitutiva de la nucleasa. D'altra banda, es va desenvolupar un sistema fàcil de producció dels guies CRISPR mitjançant PCR amb els elements essencials d'expressió i amb l'expressió del reporter GFP de manera opcional. Amb l'objectiu d'optimitzar la tècnica i provar la seua eficiència en diferents dianes es van modificar dos gens implicats en LMA. Aquests van ser el gen IDH2, en el qual es va buscar introduir la mutació R172, i el gen MYBL2. Finalment, les eficiències d'edició obtingudes amb la nova estratègia es van comparar amb l'ús de complexos ribonucleotproteïnes CRISPR, molt utilitzats per la seua alta eficiència. Mentre que els complexos de ribonucleoproteïnes van presentar una major eficiència de tall, l'eficiència d'edició de la mutació R172 va ser similar en les dues estratègies. Mitjançant seqüenciació massiva es va confirmar i caracteritzar aquesta edició i es va comprovar que la maquinària d'edició no havia produït talls inespecífics en regions similars del genoma. D'aquesta manera, la nova metodologia desenvolupada permet editar de manera precisa línies cel·lulars leucèmiques amb eficiències similars a altres tècniques CRISPR més esteses i sense produir efectes inespecífics no desitjats. D'altra banda, gràcies a la gran conservació evolutiva del gen IDH2, els residus R140 i R172 es troben conservats en la proteïna idh-2 de Caenorhabditis elegans. Es va utilitzar l'estratègia co-CRISPR per a desenvolupar i seleccionar ceps mutants amb les mutacions ortòlogues a R140 i R172, i un cep amb dues mutacions. Malgrat l'alta conservació, no es va observar l'augment del oncometabolit 2-HG esperat en els ceps mutants en comparació amb el cep salvatge control N2. Un estudi exhaustiu de les vies implicades ens serviria per a desenvolupar models d'investigació amb les alteracions moleculars observades en els pacients. Per a concloure, l'estratègia desenvolupada d'introducció d'elements CRISPR en línies cel·lulars, al costat dels models produïts en C. elegans permetran en estudis futurs investigar detalladament els efectes moleculars de mutacions detectades en pacients, la seua implicació en el desenvolupament i prognosi de la LMA i comprendre el seu paper en l'estratificació dels pacients. / [EN] Acute Myeloid Leukaemia (AML) is a heterogeneous group of haematological disorders caused by genetic alterations in myeloid precursors. Mutations in the Isocitrate dehydrogenase enzyme are among these alterations. The most frequent mutations in this protein affect R140 and R172 positions, leading to a gain of function with the production of the oncometabolite D-2-hydroxyglutarate (2-HG). Although both induce the 2-HG production, the R172 mutation generates greater amount of oncometabolite, has fewer co-occurrences with other genetic alterations and is associated with worse chemotherapy response and higher relapse risk. Research models have made possible to study the role of genetic mutations in disease development. Despite this progress, new models with endogenous expression of these mutations are needed to study in depth the molecular pathways involved. Therefore, in this Thesis we have developed new gene editing strategies using the CRISPR/Cas9 system with the aim of developing new in vitro and in vivo models of mutations involved in AML. Regarding in vitro model, due to the low transfection efficiency of CRISPR plasmids in leukemic cell lines, the most commonly method used for introducing CRISPR elements have been mainly lentiviral vectors. To avoid the disadvantages of this type of vectors, in this Thesis we have developed an alternative strategy for introducing Cas9 nuclease and CRISPR guides. The gene encoding the Cas9 was introduced into NB4 genome by lentiviral transduction producing a stable cell line that constitutively express the nuclease. On the other hand, a simple system for the production of CRISPR guides by PCR with essential elements of expression was developed and with GFP reporter expression optionally. In order to optimise the technique and test its efficiency in different targets, two genes involved in AML were modified. These were IDH2 gene, in which R172 mutation was introduced, and MYBL2 gene. Finally, editing efficiencies obtained with the new strategy were compared with CRISPR ribonucleoproteins methodology, widely used for its high efficiency. Whereas ribonucleoprotein complexes showed higher cut efficiencies, the efficiency of edition of R172 mutation efficiency was similar in both strategies. These results were validated and characterized by means of next generation sequencing, and no off-target effects were found. Therefore, the new developed methodology allows precise gene editing in leukemic cell lines with similar efficiencies with other popular CRISPR techniques and without off-target effects. On the other hand, thanks to the high evolutive conservation of IDH2 gene R140 and R172 residues are conserved in Caenorhabditis elegans idh-2 protein. The co-CRISPR strategy was used to produce and select mutant strains with ortholog mutations to R140, R172 and one strain with both mutations. Despite the high conservation, the expected increase in oncometabolite 2-HG concentration was not detected in mutant strains compared to the N2 wild type strain. A comprehensive study of the pathways involved would help us to develop a research model with molecular alterations noticed in patients. In conclusion, the new developed strategy for CRISPR elements introduction in cell lines, together with C. elegans models, will allow an in-depth research of molecular effect of mutations detected in patients, its implication in AML progression and prognosis and understand their role in patient stratification. / González Romero, E. (2022). Investigación de la Leucemia Mieloide Aguda mediante el desarrollo de modelos in vitro e in vivo [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/181891 / TESIS

Secuenciación masiva

Ribonucleoproteínas

Isocitrato deshidrogenasa 2 (IDH2)

Edición génica

CRISPR/Cas9

Leucemia mieloide aguda

Caenorhabditis elegans

Acute Myeloid Leukaemia (AML)

Gene editing

Isocitrate dehydrogenase 2 (IDH2)

Ribonucleoproteins

Massive sequencing

Vliv stresu na NADP-dependentní enzymy ve vyšších rostlinách. / The influence of stress on NADP-dependent enzymes in higher plants.

Kovaľová, Terézia

January 2012

Biotic stress in the form of viral infection, as well as abiotic salt stress, cause leaves injuries, stomata closure and decreased rate of photosynthesis. These factors lead to the limitation of plant growth and to reduced amount of coenzyme NADPH. However NADPH is an important coenzyme for many metabolic pathways such as synthesis of fatty acids, amino acids and secondary metabolites involved in stress responses. NADPH is also a coenzyme for key enzymes of antioxidant system and for many regulatory enzymes. NADP-dependent enzymes are alternative source of NADPH in plants under stress conditions. In this work, activities of four NADP-dependent enzymes: Glucose-6-phosphate dehydrogenase (G6PDH, EC 1.1.1.49), NADP-isocitrate dehydrogenase (NADP-ICDH, EC 1.1.1.42), NADP-malic enzyme (decarboxylating) (NADP-ME, EC 1.1.1.40) and Shikimate dehydrogenase (SDH, EC 1.1.1.25) were studied. Activities of all these enzymes but SDH increased in leaves of tobacco plants (Nicotiana tabacum L.) infected by PVYNTN , The most sensitive enzymes to viral infection were NADP-ICDH and NADP-ME, whose activity was increased in comparison with control plants 3-fold and 2,4-fold, respectively. Changes in activity of studied enzymes were also determined in plants exposed to viral infection in combination with heat-shock...

DEVELOPMENT OF AMBIENT IONIZATION MASS SPECTROMETRY FOR INTRAOPERATIVE CANCER DIAGNOSTICS AND SURGICAL MARGIN ASSESSMENT

Clint M Alfaro (6597242)

15 May 2019

<div> Advancements in cancer treatments have increased rapidly in recent years, but cures remain elusive. Surgical tumor resection is a central treatment for many solid malignancies. Residual tumor at surgical margins leads to tumor recurrence. Novel tools for assessing residual tumor at surgical margins could improve surgical outcomes by helping to maximize the extent of resection. Ambient ionization-mass spectrometry (MS) methods generate and analyze ions from minimally prepared samples in near-real-time (e.g. seconds to minutes). These methods leverage the high sensitivity and specificity of mass spectrometry for analyzing gas phase ions and generating those ions quickly and with minimal sample preparation. Recent work has shown that differential profiles of ions, corresponding to phospholipids and small metabolites, are detected from cancerous and their respective normal tissue with ambient ionization-MS methods. When properly implemented, ambient ionization-MS could be used to assess for tumor at surgical margins and provide a molecular diagnosis during surgery. </div><div><br></div><div>The research herein reports efforts in developing rapid intraoperative ambient ionization-MS methods for the molecular assessment of cancerous tissues. Touch spray (TS) ionization and desorption electrospray ionization (DESI) were utilized to analyze kidney cancer and brain cancer.</div><div><br></div><div> As a demonstration of the applicability of TS-MS to provide diagnostic information from fresh surgical tissues, TS-MS was used to rapidly analyze renal cell carcinoma and healthy renal tissue biopsies obtained from human subjects undergoing nephrectomy surgery. Differential phospholipid profiles were identified using principal component analysis (PCA), and the significant ions were characterized using multiple stages of mass spectrometry and high resolution/exact mass MS. The same TS-MS analyzed renal tissues were subsequently analyzed with DESI-MS imaging to corroborate the TS-MS results, and the significant DESI-MS ions were also characterized with MS.</div><div><br></div><div>Significant efforts were made in developing and evaluating a standalone intraoperative DESI-MS system for analyzing brain tissue biopsies during brain tumor surgery. The intraoperative DESI-MS system consists of a linear trap quadrupole mass spectrometer placed on a custom-machined cart that contains all hardware for operating the mass spectrometer. This instrument was operated in the neurosurgical suites at Indiana University School of Medicine to rapidly analyze brain tissue biopsies obtained from glioma resection surgeries. A DESI-MS library of normal brain tissue and glioma was used to statistically classify the brain tissue biopsies collected in the operating room. Multivariate statistical methodologies were employed to predict the disease state and tumor cell percentage of the samples. A DESI-MS assay for detecting 2-hydroxyglutarate (2HG), the oncometabolic product of the isocitrate dehydrogenase (IDH) mutation (a key glioma prognostic marker), was developed and applied to determine the IDH mutation status during the surgical resection. The strengths, weaknesses, and areas of future work in this field are discussed. </div><div><br></div>

Cancer

Biomarkers

Medical Biochemistry: Lipids

Clinical Chemistry (diagnostics)

Cancer Diagnosis

Analytical Biochemistry

Ambient ionization mass spectrometry

Molecular cancer diagnostics

Tumor infiltration

Isocitrate dehydrogenase mutation

2-hydroxyglutarate

Lipid biomarkers

Molecular pathology

DESI-MSI imaging

N-acetylaspartate

Surgical margin assessment

Intraoperative cancer tissue diagnostics

Glioma markers

Neurological smears

Renal cell carcinoma

Multivariate statistics

Glioblastoma multiforme presenting as postpartum depression: a case report

Petzold, Johannes, Severus, Emanuel, Meyer, Shirin, Bauer, Michael, Daubner, Dirk, Krex, Dietmar, Juratli, Tareq A.

25 February 2019

Background Alterations of mental status are characteristic of psychiatric disorders but may also result from a multitude of organic causes. Generally, physical examination and blood analysis are a part of basic psychiatric differential diagnostics, whereas more sophisticated procedures (for example, brain imaging) are applied only in cases with pathologic diagnostic findings. Our report challenges this approach by describing a case of glioblastoma multiforme presenting as postpartum depression without abnormalities in basic differential diagnostics. Case presentation A 28-year-old white woman who had been in outpatient treatment for postpartum depression was taken to the psychiatric emergency room. The psychopathological assessment, however, showed mild disorientation and severe deficits of long-term memory. Moreover, she complained of stabbing, bilateral headaches, but results of her physical examination and blood analysis were unremarkable. Magnetic resonance imaging of the brain was performed, which showed a contrast-enhanced mass lesion in the left frontal lobe. The patient underwent urgent tumor resection, and histologic results revealed an IDH-mutant glioblastoma multiforme. The patient was discharged with a substantially improved psychopathology and without neurological deficits. Conclusions This report adds to the evidence that postpartum depression may have organic causes in some cases, a fact that needs to be considered in the clinical setting. Atypical neurocognitive findings in a psychiatric interview may alone justify brain imaging, despite normal physical examination and blood analysis results.

info:eu-repo/classification/ddc/610

ddc:610

Ambient Ionization Mass Spectrometry for Intraoperative and High-Throughput Brain Cancer Diagnostics

Hannah Marie Brown (12476919)

29 April 2022

<p>My research has focused on the development and translation of ambient ionization mass spectrometry (MS)-based platforms in clinical and surgical settings, specifically in the area of brain cancer diagnostics and surgical decision making. Ambient ionization MS methods, such as those described herein, generate and analyze gas phase ions with high sensitivity and specificity from minimally prepared samples in near-real-time, on the order of seconds to minutes, rendering them well suited to point-of-care applications. We used ambient ionization MS methods, specifically desorption electrospray ionization mass spectrometry (DESI-MS) and extraction nanoelectrospray ionization mass spectrometry (nESI-MS) to molecularly characterize brain cancer biopsies. The characterization was made using diagnostic compounds identified as markers of disease state, tissue composition, tumor type, and genotype in human brain tissue. Methods were developed and validated offline in the laboratory and translated to clinical and surgical settings, thereby generating chemical information on prognostic features intraoperatively and providing valuable information that would be otherwise unavailable. We believe that, with approval, the methodologies described can assist physicians and improve patient outcomes by providing analytical tools and molecular information that can inform surgical decision making and adjuvant treatment strategies, complementing and not interfering with standard of care protocols.</p> <p><br></p> <p>We have successfully demonstrated the use of desorption electrospray ionization mass spectrometry (DESI-MS) for the expedient molecular assessment of human glioma tissue biopsies based on lipid profiles and prognostic metabolites, both at the tumor core and near surgical margins, in two small-scale, clinical studies. Maximal surgical resection of gliomas that avoids non-infiltrated tissue is associated with survival benefit in patients with glioma. The infiltrative nature of gliomas, as well as their morphological and genetic diversity, renders treatment difficult and demands an integrated imaging and diagnostic approach during surgery to guide clinicians in achieving maximal tumor resection. Further, the estimation of tumor cell percentage (TCP), a measure of tumor infiltration at surgical margins, is not routinely assessed intraoperatively. </p> <p>We have previously shown that rapid, offline molecular assessment of tumor infiltration in tissue biopsies is possible and believe that the same assessment performed intraoperatively in biopsied tissue near surgical margins could improve resection and better inform patient management strategies, including postoperative radiotherapy. Using a DESI-MS spectral library of normal brain tissue and glioma biopsies to generate a statistical model to classify brain tissue biopsies intraoperatively, multivariate statistical approaches were used to predict the disease state and tumor cell percentage (TCP) of each biopsy, thereby providing an measure of tumor infiltration at surgical margins via molecular indicators. In addition to assessment of tumor infiltration, we have developed DESI-MS assays for detecting the oncometabolite 2-Hydroxyglutarate (2HG) to detect isocitrate dehydrogenase (IDH) mutations in gliomas intraoperatively. Knowledge of IDH genotypes at the time of surgical resection could improve patient outcomes, as more aggressive tumor resection of IDH-mutated gliomas is associated with increased survival. While assessments of IDH genotype are typically not available until days after surgery, we have demonstrated the ability to provide this information is less than five minutes. An intraoperative DESI-MS system has successfully been used in a proof-of-concept clinical study and intraoperative performance validation of this platform is ongoing. The findings of these two studies as well as strengths, weaknesses, and areas of improvement for upcoming future iterations of the research are discussed.</p> <p><br></p> <p>Point-of-care applications necessitate the adaptation of MS methodologies to smaller devices. Miniature mass spectrometers (Mini MS) boast small footprints, simple operation, and low power consumption, noise levels, and cost, making them attractive candidates for point-of-care use. In a small-scale clinical study, we demonstrated the first application of a Mini MS for determination of IDH mutation status in gliomas intraoperatively. This study paves a path forward for the application of Mini MS in the OR. With its small footprint and low power consumption and noise level, this application of miniature mass spectrometers represents a simple and cost-effective platform for an important intraoperative measurement. </p> <p><br></p> <p>While MS-based methods of tissue analysis can detect molecular features of interest and rapidly produce large quantities of data, their inherent speed is rarely utilized because they are traditionally coupled with time-consuming separation techniques (e.g., chromatography). Ambient ionization MS, specifically DESI-MS, is well suited for high-throughput applications due to its lack of sample preparation and purification techniques. In an attempt to rapidly characterize microarrays of tissue biopsies, we developed a high-throughput DESI-MS (HT-DESI-MS) method for the rapid characterization of disease state, human brain tumor type, glioma classification, and detection of IDH mutations in tissue microarrays (TMA) of banked and fresh human brain tissue biopsies. We anticipate that HT-DESI-MS analysis of TMAs could become a standard tool for the generation of spectral libraries for sample classification, the identification of biomarkers through large-scale studies, the correlation of molecular features with anatomical features when coupled to digital pathology, and the assessment of drug efficacy. </p>

Cancer

Biomarkers

Medical Biochemistry: Lipids

Clinical Chemistry (diagnostics)

Cancer Diagnosis

Analytical Biochemistry

Intraoperative cancer diagnostics

Molecular pathology

Point-of-care diagnostics

Ambient ionization mass spectrometry

High-throughput mass spectrometry

Desorption electropray ionization

Nanoelectrospray ionization

Brain cancer

Glioma tumors

Meningioma tumors

Pituitary tumors

Isocitrate dehydrogenase mutation

2-Hydroxyglutarate

Tumor infiltration

Surgical margin delineation

Lipid biomarkers