Estudo dos genes e microRNAs relacionados à transição epitélio-mesenquimal no adenocarcinoma de próstata / Study of gene and miRNA expression profiles related to epithelial-mesenchymal transition in prostate adenocarcinoma

Katz, Betina Stifelman

28 May 2014

Introdução: O câncer de próstata (CaP) é o tumor mais comum em homens e a segunda causa de óbito por câncer no Brasil. Com a adoção do rastreamento, a maioria dos pacientes apresenta doença localizada ao diagnóstico, enquanto apenas 4% têm doença metastática. Um dos principais mecanismos responsáveis pela progressão tumoral é a transição epitélio-mesenquimal (TEM). Esse é um programa celular reversível no qual a célula epitelial perde a capacidade de aderência intercelular e assume um fenótipo mesenquimal com potencial invasivo e metastático. A principal característica da TEM é a repressão da E-caderina através de fatores de transcrição que incluem ZEB1, ZEB2, Snail, Slug e Twist1. Os microRNAs também estão envolvidos na regulação do processo, sendo a família do miR-200 uma das mais importantes e uma potente indutora da diferenciação epitelial. Assim sendo, o conhecimento dos fatores envolvidos na TEM no CaP é fundamental para a compreensão do comportamento biológico dessa neoplasia. Objetivos: Analisar a expressão dos genes e microRNAs envolvidos na transição epitélio-mesenquimal em espécimes de câncer de próstata localizado e em linhagens celulares de câncer de próstata metastático. Além disso, correlacionar o perfil de expressão dos genes e microRNAs com parâmetros clínico-patológicos. Material e métodos: O estudo consistiu na análise de espécimes de 51 pacientes com CaP localizado tratados por prostatectomia radical e de linhagens celulares de CaP metastático (LNCaP, DU145 e PC3). O grupo controle foi composto por 10 casos de hiperplasia prostática benigna. A expressão dos genes E-caderina, N-caderina, Vimentina, TGF-beta1, ZEB1, ZEB2, Snail, Slug, Twist1 e PDGF-D e dos microRNAs 200a, 200b, 200c, 429, 141, 203, 205, 183, 373, 21, 9, 1, 495, 29b, 30a, 34a, 155 e 10b foi avaliada através da técnica de PCR em tempo real (qRT-PCR) nos espécimes e nas linhagens. Para correlação com parâmetros clínico-patológicos, os pacientes foram divididos em grupos em relação ao escore de Gleason, estadiamento patológico, PSA pré-operatório, recorrência bioquímica e doença de baixo e alto risco. Para avaliação do tumor metastático, agrupamos as linhagens celulares e comparamo-las com tumores pT3. Resultados: A grande maioria dos casos apresentou superexpressão de E-caderina e Twist1 e subexpressão de N-caderina, Vimentina, TGF-beta1, ZEB1 e Slug. ZEB2, Snail e PDGF-D apresentaram expressão variável. A família do miR-200 e os miRNAs 203, 205, 183, 373 e 21 apresentaram superexpressão, enquanto que os miRNAs 9, 495, 29b e 1 apresentaram subexpressão. Os demais miRNAs apresentaram perfil de expressão variável. Níveis menores de expressão dos miRNAs 200b, 30a e 1 associaram-se significativamente com estadiamento patológico. Os pacientes com expressão reduzida do miR-200b também apresentaram associação com escore de Gleason >= 8 e com menor tempo de sobrevida livre de recorrência bioquímica. Ainda, níveis baixos do miR-30a e níveis elevados de Vimentina e Twist1 associaram-se com grupo de alto risco. As linhagens metastáticas apresentaram níveis de expressão do miR-183 e do Twist1 significativamente maiores quando comparadas ao tumor localizado. Conclusão: O CaP localizado mantém um fenótipo molecular epitelial. Menor expressão dos miRNAs 200b, 30a e 1 está associada com estadiamento mais avançado, sendo que o miR-200b também associou-se com maior escore de Gleason e menor tempo de sobrevida livre de recorrência bioquímica, e o miR-30a, com grupo de alto risco. A maior expressão de Vimentina e Twist1 apresentou associação com o grupo de alto risco. miR-183 e Twist1 apresentam maiores níveis de expressão em linhagens celulares metastáticas em relação ao tumor primário. De acordo com nossos resultados, os miRNAs 200b, 30a, 1 e 183 e os genes Twist1 e Vimentina podem ter um papel importante na progressão do CaP, além de serem potenciais marcadores prognósticos / Introduction: Prostate cancer (PCa) is the most common cancer in men and the second leading cause of cancer-related mortality in Brazil. After the adoption of screening, most patients present with localized disease at the time of diagnosis, while only 4% have metastatic disease. One of the main mechanisms of tumor progression is the epithelial-mesenchymal transition (EMT). This is a reversible cell-biological program in which an epithelial cell loses intercellular adhesion and acquires a mesenchymal phenotype with invasiveness and metastatic potential. The main event in EMT is the repression of E-cadherin by transcriptional factors, including ZEB1, ZEB2, Snail, Slug, and Twist1. microRNAs are also involved in the regulation of this process, and one of the most important ones is the miR-200 family, which is a powerful inducer of epithelial differentiation. Therefore, the knowledge of the factors involved in EMT in PCa is essential to understand the biological behavior of this neoplasia. Objectives: Analysis of gene and miRNA expression involved in epithelial-mesenchymal transition in specimens of localized prostate cancer and metastatic prostate cancer cell lines. Correlation between the gene and miRNA expression profiles and clinicopathological features. Material and Methods: This study consisted in the analysis of specimens from 51 patients with localized PCa treated by radical prostatectomy and of metastatic PCa cell lines (LNCaP, DU145, PC3). The control group was composed by 10 cases of benign prostatic hyperplasia. Gene expression of E-cadherin, N-cadherin, Vimentin, TGF-beta1, ZEB1, ZEB2, Snail, Slug, Twist1, and PDGF-D as well as miRNA expression of 200a, 200b, 200c, 429, 141, 203, 205, 183, 373, 21, 9, 1, 495, 29b, 30a, 34a, 155, and 10b were assessed by Real-Time PCR (qRT-PCR). The patients were divided into groups according to Gleason score, pathological stage, preoperative PSA, biochemical recurrence, and low and high-risk disease. For evaluation of metastatic tumor, the cell lines were grouped and compared to pT3 tumors. Results: The vast majority of the cases showed overexpression of E-cadherin and Twist1 and underexpression of N-cadherin, Vimentin, TGF-beta1, ZEB1, and Slug. ZEB2, Snail, and PDGF-D showed a variable expression pattern. miRNA-200 family and miRNAs 203, 205, 183, 373, and 21 were overexpressed, while miRNAs 9, 495, 29b, and 1 were underexpressed. The remaining miRNAs showed a variable expression pattern. Lower expression levels of miRNAs 200b, 30a, and 1 were significantly associated with pathological stage. Patients with lower expression of miR-200b also showed association with Gleason score >= 8 and biochemical recurrence-free survival (BRFS). Furthermore, low expression levels of miR-30a and high expression levels of Vimentin and Twist1 were associated with high-risk group. The metastatic PCa cell lines showed significantly higher expression levels of miR-183 and Twist1 in comparison to the primary tumor. Conclusion: Localized prostate cancer maintains a molecular epithelial phenotype. Lower expression of miRNAs 200b, 30a, and 1 was associated with higher stage. Low levels of miR-200b were also associated with high Gleason score and shorter BRFS, and miR-30a, with high-risk group. High expression levels of Vimentin and Twist1 were associated with high-risk group. miR-183 and Twist1 levels were higher in metastatic cell lines than in the primary tumor. According to our results, miRNAs 200b, 30a, 1, and 183 and the genes Twist1 and Vimentin might play an important role in the progression of PCa and may turn to be important prognostic markers

Biologia molecular

Epithelial-mesenchymal transition

Marcadores biológicos de tumor

MicroRNA

MicroRNAs

Molecular biology

Neoplasias da próstata

Prognosis

Prognóstico

Prostate neoplasms

Transição epitelial-mesenquimal

Tumor markers biological

Análise da expressão de miRNAs em carcinoma hepatocelular / Expression analysis of miRNAs in hepatocellular carcinoma

SANTOS, Ian Barroso dos

11 February 2014

Submitted by Cleide Dantas (cleidedantas@ufpa.br) on 2014-07-03T12:10:28Z No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_AnaliseExpressaoMirnas.pdf: 799206 bytes, checksum: 821647540ff3c16937d1738dc7121cf5 (MD5) / Approved for entry into archive by Ana Rosa Silva (arosa@ufpa.br) on 2014-08-01T14:26:13Z (GMT) No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_AnaliseExpressaoMirnas.pdf: 799206 bytes, checksum: 821647540ff3c16937d1738dc7121cf5 (MD5) / Made available in DSpace on 2014-08-01T14:26:13Z (GMT). No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_AnaliseExpressaoMirnas.pdf: 799206 bytes, checksum: 821647540ff3c16937d1738dc7121cf5 (MD5) Previous issue date: 2014 / O carcinoma hepatocelular corresponde à neoplasia maligna primária mais comum do fígado e ao quinto tumor sólido mais frequente no mundo. Altamente letal, permanece como um grave problema de saúde pública em virtude das dificuldades no diagnóstico precoce e na elaboração de medidas terapêuticas efetivas. Estudos recentes no ramo da biologia molecular sugerem que o perfil de miRNAs no carcinoma hepatocelular pode influir consideravelmente na identificação de fatores de riscos associados a oncogenes ou genes supressores. Objetivou-se avaliar a expressão de miRNA 135b, miRNA 181a-5p e miRNA 181a-3p em amostras de Carcinoma Hepatocelular e de Hepatite C Crônica e correlacioná-las de maneira a buscar prováveis biomarcadores relacionados ao mecanismo de carcinogenese. A investigação foi feita em seis pacientes com carcinoma hepatocelular e vinte e quatro casos de Hepatite C Crônica, procedentes do Pará, Norte do Brasil. Todas as amostras de Carcinoma Hepatocelular foram submetidas à microdissecção, para posterior extração do RNA. Para a extração do RNA total e do microRNA foi utilizado o kit AllPrep DNA/RNA FFPE Kit (Qiagen), quantificados pelo equipamento Qubit® 2.0 Fluorometer (Invitrogen) para concentração padrão final de 5ng/μL. Em seguida cDNA foi obtido, utilizando-se TaqMan® MicroRNA Reverse Transcription(AppliedBiosystems). As análises estatísticas foram realizadas nos softwares SPSS 17.0, usando o teste de Mann-Whitney, considerando como significantes valores de p<0,05. Os resultados demonstraram diferenças significativas dos níveis de expressão do miR181a-3p e do miR181a-5p no carcinoma hepatocelular (médias 3,94 e 17,9, respectivamente) em relação à hepatite C crônica (médias de 1,18 e 1,8, respectivamente) com P valor de 0,005 e 0,003. Nesse estudo, observou-se que os miRNAs 181a-3p e 181a-5p, especialmente o 181a-5p, foram significativamente mais expressos nas amostras de carcinoma hepatocelular, quando comparados ao tecido hepático não tumoral com hepatite C crônica. Portanto, os microRNAs possuem características interessantes que os favorecem como possíveis marcadores biológicos no rastreamento de tumores para diagnóstico precoce e terapias alvo selecionadas. / Hepatocellular carcinoma represents the most common primary malignancy of the liver and the fifth most common solid tumor worldwide. Highly lethal, remais a serious public health problem because of difficulties in early diagnosis and the development of effective therapeutic measures. Recent in the field of molecular biology studies suggest that define the profile of miRNAs in hepatocellular carcinoma may considerably influence the identification of risk factors associated with oncogenes and suppressor genes. The objective is to evaluate the expression of miRNA 135b, miRNA 181a-5p and miRNA 181a-3p in samples of Hepatocellular Carcinoma and Chronic Hepatitis C and correlate them so likely to seek biomarkers related to the mechanism of carcinogenesis. The research was done in six patients with hepatocellular carcinoma and twenty four cases of Chronic Hepatitis C, Para, northen Brazil. All samples Hepatocellular carcinoma underwent microdissection for subsequent RNA extraction. For the extraction of total RNA and microRNA All=Prep the DNA / RNA FFPE kit (quiagem), quantified by the Qubit® 2.0 Fluorometer (Invitrogen) for final concentration of 5ng/μL standard equipment was used. The cDNA was obtained using TaqMan® MicroRNA Reverse Transcription (Applied Biosystems). Statistical analyzes were performed in softwares SPSS 17.0, using the Mann-Whitney test, with significat differences in the expression levels of the miR181a-3p and miR 181a-5p in hepatocellular carcinoma (average 3.94 and 17.9, respectively) compared with chronic hepatitis C (average 1.18 to 1.8, respectively) with P-value of 0.005 and 0.003. In this study, it was observed that miRNAs 181a-3p and 181a-5p, especially the 181a-5p way were significantly more highly expressed in hepatocellular carcinoma samples when compared to non-tumor liver tissue with chronic hepatitis C. Therefore, microRNAs have interesting characteristics that favor them as possible in biological screening for early diagnosis of tumors and targeted therapies selected markers.

Carcinoma hepatocelular

Hepatite C crônica

MicroRNAs

Epigênese genética

Amazônia oriental

Rôle du microARN miR-124 dans la plasticité homéostatique via le contrôle de l’expression de la synaptopodine et des récepteurs AMPA dans les neurones de l'hippocampe / Role of the microRNA miR-124 in the expression of homeostatic synaptic plasticity by controling the level of synaptopodin and AMPA receptors in hippocampal neurons

Dubes, Sandra

24 June 2019

Le synaptic scaling est une forme de plasticité homéostatique par lequel les synapses ajustent leur efficacité pour compenser des variations normales ou pathologiques de l'activité neuronale notamment lors des maladies neurodégeneratives ou suite à la perte d’afférences sensorielles après une lésion. Dans un modèle expérimental classique, le traitement chronique des neurones primaires avec la tétrodotoxine (TTX) pour bloquer la propagation des potentiels d'action présynaptiques induit une augmentation significative de l'amplitude des courants miniatures excitateurs transmis par les récepteurs du glutamate AMPA postsynaptiques. Plusieurs voies de signalisation ont été proposées, dont celle impliquant les microARNs (miRs), de petits ARN non-codants qui inhibent la traduction des protéines en se liant aux ARN messagers cibles. Dans ce contexte, nous avons exploré l'hypothèse que le microARN, miR-124, fortement exprimé dans le cerveau, pourrait être un régulateur important de l'homéostasie synaptique en contrôlant l'expression de la protéine synaptopodine, une protéine structurante des épines dendritiques et indispensable à l'expression du synaptic scaling.En combinant des approches de RTq-PCR, d'immunocytochimie et d'électrophysiologie in vitro, nous avons montré dans un premier temps que la privation globale de l'activité des neurones primaires d’hippocampe diminuait le niveau d'expression de miR-124 et augmentait celui de la synaptopodine et des récepteurs AMPA dont la sous-unité GluA2 est une autre cible de miR-124. Par ailleurs, en rendant des synapses individuelles inactives via l’expression présynaptique de la toxine tétanique, nous avons observé que le recrutement synaptique des récepteurs AMPA et de la synaptopodine était spécifique de ces synapses, suggérant une régulation homéostatique locale. Dans un deuxième temps, nous avons trouvé que la surexpression de miR-124 ou l’inhibition de son interaction avec l’ARNm de la synaptopodine ou de GluA2 bloquaient la réponse synaptique homéostatique induite par le traitement TTX. Enfin, des expériences de FRAP ont suggéré que la synaptopodine influençait le trafic des récepteurs AMPA à la membrane probablement en les stabilisant à la synapse, ce qui expliquerait ainsi son rôle pendant la plasticité homéostatique. / Synaptic scaling is a form of homeostatic plasticity where synapses adjust their own efficacy to compensate for normal or pathological variations in neuronal activity such as neurodegenerative disorders or sensory deprivation after a lesion. In a well-established paradigm, the chronic application of tetrodotoxin (TTX) in primary neurons, to block presynaptic action potential propagation, induces a significant upscaling of miniature excitatory postsynaptic currents mediated-AMPA receptors. Numerous regulators of this plasticity have been identified including microRNAs (miR), which are small endogenous non-coding RNAs, inhibiting protein translation by binding to mRNA targets. This led us to hypothesize that the most highly expressed microRNA in the brain, miR-124, could be an important regulator of homeostatic scaling by controlling the expression of synaptopodin, a structural protein of dendritic spines playing a crucial role in homeostatic plasticity.By combining qRT-PCR, immunocytochemistry and in vitro electrophysiology approaches, first we showed that a global 48hrs TTX treatment in hippocampal primary neurons led to a decrease in miR-124 level and an increase in the expression of synaptopodin and synaptic AMPA receptors containing the GluA2 subunit which is another miR-124 target. Moreover, we observed that the synaptic accumulation of AMPA receptors and synaptopodin could be synapse-specific by expressing the tetanus toxin to block the activity of individual presynapses, which suggested a local homeostatic regulation. Importantly, we found that overexpressing miR-124 or inhibiting its interaction with synaptopodin or GluA2 mRNAs blocked the synaptic homeostatic response. In addition, FRAP experiments suggested that synaptopodin controlled AMPA receptor trafficking at the membrane by probably retaining them in dendritic spines, which could explain its role during homeostatic plasticity.

Plasticité homéostatique

MicroARNs

Récepteurs AMPA

Sous-Unité GluA2

Synaptopodine

Privation d'activité

Synaptic scaling

MicroRNAs

AMPA receptors

GluA2 subunit

Synaptopodin

Activity deprivation

Implication des effecteurs épigénétiques et apoptotiques dans l'hypospermatogenèse induite par les perturbateurs endocriniens

Meunier, Léo

22 June 2010

Un certain nombre d'études épidémiologiques ont montré au cours des cinquante dernières années une augmentation des infertilités, des malformations de l'appareil reproducteur masculin et des cancers testiculaires. Une des hypothèses est que, l'exposition durant la vie foetale ou néonatale à des composés présents dans l'environnement capables d'interférer avec le système hormonal (perturbateurs endocriniens), serait responsable de l'augmentation de l'incidence de ces pathologies. Les molécules qui sont suspectées d'avoir des effets néfastes à long terme sur le tractus génital mâle possèdent des activités de type estrogénique ou antiandrogénique. Parmi les mécanismes impliqués dans l'effet à long terme, un certain nombre d'auteurs mettent en avant l'intervention de mécanismes de type épigénétiques. Dans ce contexte, nous avons utilisé deux types de modèles expérimentaux reposant sur l'exposition développementale de rats à ces composés : un modèle d'exposition néonatale à un estrogène (estradiol benzoate) et un modèle d'exposition foetale à un antiandrogène (flutamide). Les deux modèles expérimentaux induisent chez le rongeur un phénotype d'hypospermatogenèse. Dans le cas de l'exposition néonatale à l'estradiol benzoate nous montrons que l'hypospermatogenèse observée chez les animaux à l'âge adulte est due à l'activation chronique de l'apoptose des cellules germinales testiculaires. Cette apoptose mettrait en jeu, par un mécanisme post-transcriptionnel, la diminution à long terme de l'expression de protéines clés de la machinerie épigénétique de méthylation de l'ADN, les ADN méthyltransférases (DNMT 3A, 3B et 1), et du facteur antiapoptotique, MCL-1. D'un point de vue fonctionnel, la chute d'expression des DNMTs se traduit notamment par l'augmentation d'expression des éléments transposables LINE-1 et du gène Ibtk normalement contrôlés par méthylation de l'ADN. En amont, la chute d'expression des DNMTs et de MCL-1 serait dépendante de l'augmentation d'expression d'autres effecteurs épigénétiques, les microRNAs de la famille miR-29. Dans le cas de l'exposition in utero au flutamide, notre travail indique que l'apoptose chronique des cellules germinales serait liée à la diminution à long terme de l'expression des inhibiteurs d'apoptose cIAP1 et cIAP2, et une augmentation d'expression de leur inhibiteur SMAC/DIABLO. En revanche, l'absence de mort des cellules somatiques testiculaires (Sertoli et Leydig) dans ce modèle serait due à l'augmentation d'expression spécifiquement dans ces cellules des inhibiteurs d'apoptose XIAP et SURVIVIN. Par ailleurs, le phénotype d'apoptose observé à l'âge adulte impliquerait également une altération précoce de l'expression des DNMTs. En conclusion, nous apportons une réponse mécanistique au phénotype de programmation foetale/néonatale d'apoptose des cellules germinales testiculaires adultes. En effet, l'augmentation des miR-29s provoquerait : (1) une chute d'expression des DNMTs altérant ainsi le profil de méthylation des gènes, et (2) une chute d'expression de facteurs protégeant les cellules germinales contre l'apoptose comme le facteur MCL-1.

Perturbateurs endocriniens

Infertilité

Cancer

Testicule

Épigénétique

Apoptose

ADN méthyltransférases

MicroRNAs

Programmation développementale

Cellules germinales

Hormones

Reproduction

Consequences of miRNA misregulation on embryonic development and aging

Franzosa, Jill A.

05 December 2013

microRNAs (miRNAs), ~21-24 nucleotide-long RNAs that post-transcriptionally regulate gene expression, have rapidly become one of the most extensively studied mechanisms of the past decade. Since their discovery as temporal regulators of post-embryonic development in C. elegans, miRNAs have been functionally implicated in almost every cellular process investigated to date. miRNAs are integral to the complex biological processes of embryonic development and aging. In this research, we sought to determine whether misregulation of miRNAs could be responsible for eliciting adverse effects during these two distinct developmental stages. First, to uncover the potential role of miRNAs in teratogenicity, we investigated whether miRNAs were involved in regulation of retinoic acid (RA) induced vertebrate axis defects. Global miRNA expression profiling revealed that RA exposure suppressed the expression of miR-19 family members during zebrafish somitogenesis. Bioinformatics analyses predict that miR-19 targets cyp26a1, a key RA detoxifying enzyme, and a physiological reporter assay confirmed that cyp26a1 is a bona fide target of miR-19. Transient knockdown of miR-19 phenocopied RA-induced body axis defects. In gain-of-function studies, exogenous miR-19 rescued the axis defects caused by RA exposure. Our findings indicate that the teratogenic effects of RA exposure result, in part, from repression of miR-19 and the subsequent misregulation of cyp26a1. This highlights a previously unidentified role of miR-19 in facilitating vertebrate axis development. Next, to explore whether age-related changes in miRNAs trigger deficits in regeneration capacity, we performed mRNA and small RNA sequencing on regenerating and non-regenerating caudal fin tissue from aged, adult and juvenile zebrafish. An unbiased approach identified cbx7 as the most abundant transcript with significantly increased expression in regenerative-competent adult and juvenile tissue and decreased expression in regenerative-compromised aged tissue. While cbx7 is a known regulator of aging, this is the first report of its role in tissue regeneration. A computational approach was used to discover mRNAs expressed during regeneration, which are potential targets of the significantly expressed miRNAs in regenerating tissue. miR-21 was one of the most abundant and significantly increased miRNAs in regenerating tissue and exhibited an aberrant age-dependent expression profile. Bioinformatics predicts miR-21 to target the 3' UTR of cbx7 and a reporter assay confirmed that miR-21 targets cbx7 in vivo. Transient knockdown of miR-21 inhibited tissue regeneration, suggesting a role for miRNA mediated regulation of cbx7 during regeneration. These findings reveal a novel, age-dependent regenerative function of cbx7 and emphasize the importance of miR-21 as a master regulator of vertebrate regenerative responses. This research, when combined, underscores the negative consequences misregulation of miRNAs has on embryonic development and aging. / Graduation date: 2013 / Access restricted to the OSU Community at author's request from Dec. 5, 2012 - Dec. 5, 2013

zebrafish

microRNAs

teratogenicity

retinoic acid

somitogenesis

aging

regeneration

Tretinoin -- Toxicology

Zebra danio -- Development

Developmental toxicology

RNA

Genetic regulation

Teratogenesis

Spine -- Abnormalities

Gene expression

Regeneration (Biology)

Paper del miRNA en la diferenciació de les cèl.lules mare

Ventayol Espinazo, Marina

22 February 2013

Tesi realitzada a l'Institut d'Investigacions Biomèdiques de Barcelona (IIBB-CSIC IDIBAPS) / Les patologies renals s’han convertit en una problemàtica a nivell mundial, en l’actualitat poden afectar a una de cada 9 persones al llarg de la seva vida i porten associats elevats costos econòmics. Malgrat els últims avenços científics i millores en el tractament d’aquestes patologies, el transplantament renal i la diàlisi continuen sent les dues úniques opcions terapèutiques efectives en el tractament de la insuficiencia renal. La regeneració de l’epiteli renal és determinant en la recuperació del pacient ja que determina que es pugui restablir la funcionalitat d’aquest òrgan. L’obtenció de precursors renals a partir de cèl•lules mare que puguin integrar-se i regenerar el ronyó lesionat s’ha convertit en una àrea de recerca biomèdica molt important. L’objecte d’estudi d’aquesta tesi va ser conèixer els mecanismes involucrats en la diferenciació de les cèl•lules mare embrionàries (ESCs) i les cèl•lules mare adiposes (ASCS) cap al llinatge epitelial renal ja que aquestes cèl•lules poden ser una potencial font d’aquests precursors renals amb capacitat regenerativa. Recentment s’ha descobert que els miRNAs, que tenen la funció de regular l’expressió gènica en l’etapa post-transcripcional, són essencials en la diferenciació de les cèl•lules mare i s’han trobat miRNAs específics que regulen la diferenciació a un llinatge cel•lular en concret. En aquest sentit, el nostre objectiu general en aquest treball va ser estudiar el paper dels miRNAs en la diferenciació de cèl•lules mare a progenitors epitelials renals. Per això, primer de tot es van realitzar experiments de diferenciació en que els cossos embrionaris (EBs) induïts a partir de les cèl•lules mare embrionàries (ESCs) es van cultivar amb un medi de cultiu suplementat amb all-trans-retinoic acid (ATRA) i activina A, i les cèl•lules mare adiposes (ASCs) amb un medi amb una concentració fisiológica de glucosa suplementat amb ATRA. Amb aquests protocols de diferenciació, es van obtenir cèl•lules amb característiques de progenitors renals. Els EBs cultivats amb el protocol de diferenciació expressaven els marcadors de l’organogènesi renal inicial (Pax2, WT1, Wnt4, Notch2 i Wnt9b). Les ASCs cultivades amb ATRA varen canviar la seva morfologia a una morfologia epitelial i van expressar marcadors tant de l’organogènesi renal inicial (Pax2, WT1, Wnt4, Six2 i Megalina) com els marcadors epitelials (Citoqueratina 18, E-caderina). Un anàlisis de miRNAs va demostrar que la família de miRNAs let-7 es sobreexpressava durant la diferenciació dels EBs i que el miRNA let-7e més concretament era essencial en l’expressió dels marcadors Pax2, Wt1i Wnt4 ja que la seva silenciació disminuïa l’expressió d’aquests gens. En les ASCs, en canvi, es va demostrar que el miRNA let-7e també augmentava en la diferenciació i que a més tenia característiques d’inductor de la diferenciació, essent essencial en l’expressió tant dels marcadors de l’organogènesi renal (Pax2, Wt1, Wnt4, Megalina) com del marcador epitelial CK18. Profunditzant en el paper del miRNA let-7e en la diferenciació, es va demostrar amb experiments de Western blot, que el miRNA let-7e modula els nivells de β-catenina a través d’un mecanisme que implica la inhibició de la PKCβ i la conseqüent disminució en la fosforilació de la GSK3β (Ser-9) i que això és imprescindible per la correcta diferenciació de les ESCs. Per altra banda, en les ASCs es va demostrar utilitzant l’assaig del gen reporter de la luciderasa, que el miRNA let-7e inhibeix directament l’expressió de la metal•loproteinasa 9 i que d’aquesta manera modula la diferenciació de les ASCs al llinatge epitelial renal. / Role of miRNA in stem cell differentiation Renal diseases have become a worldwide problem that can affect one in nine people throughout their life. Despite recent scientific advances, kidney transplantation and dialysis are still the only two effective therapeutic options in renal failure. The regeneration of the epithelium is critical for patient recovery as it determines the restoration of the kidney functionality. Cell precursors obtained from renal stem cells that can regenerate and integrate the injured kidney have become an important research area. The aim of our study was to determine the mechanisms involved in the differentiation of embryonic stem cells (ESCs) and adipose stem cells (ASCs) to renal epithelial lineage as these cells can be a source of these renal precursors with regenerative potential. It was recently discovered that miRNAs, which have the function of regulating gene expression in the post-transcriptional level, are essential in the differentiation of stem cells. In this sense, our main objective was to study the role of miRNAs in stem cells differentiation to renal epithelial progenitors. For this purpose, We have carried out experiments of stem cells differentiation. Embryoid bodies (EBs) from ESCs were cultured with activin A and ATRA and ASCs where cultured in a medium with physiological concentration of glucose supplemented with ATRA, obtaining progenitor cells with renal epithelial characteristics. EBs expressed the early kidney organogenesis markers (Pax2, WT1, Wnt4, Notch2 Wnt9b) and ASCs changed their morphology to a more epithelial one and expressed both markers of kidney organogenesis (Pax2, WT1, Wnt4, SIX2 i Megalin) and epithelial markers (cytokeratin-18 and E-cadherin). Furthermore, miRNA analysis and the subsequent overexpression and silencing of the miRNA let-7e in stem cells, demonstrates that this miRNA has characteristics of differentiation inductor and that is essential in the expression of both kidney organogenesis markers and epithelial markers. Furthermore, the ESCs, let-7e miRNA modulates β-catenin levels through a mechanism involving inhibition of PKCβ and the consequent decrease in the phosphorylation of GSK3 (Ser-9). Moreover, it was demonstrated using the luciferase assay, that the miRNA let-7e directly inhibits expression of gelatinase B (MMP9) in ASCs and thereby modulates its renal epithelial differentiation.

Micro RNAs

MicroRNAs

Cèl·lules mare

Células madre

Stem cells

Diferenciació cel·lular

Diferenciación celular

Cell diferentiation

Epiteli

Epitelio

Epithelium

Ciències Experimentals i Matemàtiques

612

Delineating the <em>C. elegans</em> MicroRNA Regulatory Network: A Dissertation

Martinez, Natalia Julia

10 April 2009

Metazoan genomes contain thousands of protein-coding and non-coding RNA genes, most of which are differentially expressed, i.e., at different locations, at different times during development, or in response to environmental signals. Differential gene expression is achieved through complex regulatory networks that are controlled in part by two types of trans-regulators: transcription factors (TFs) and microRNAs (miRNAs). TFs bind to cis-regulatory DNA elements that are often located in or near their target genes, while microRNAs hybridize to cis-regulatory RNA elements mostly located in the 3’ untranslated region (3’UTR) of their target mRNAs. My work in the Walhout lab has centered on understanding how these trans-regulators interact with each other in the context of gene regulatory networks to coordinate gene expression at the genome-scale level. Our model organism is the free-living nematode Caenorahbditis elegans, which possess approximately 950 predicted TFs and more than 100 miRNAs Whereas much attention has focused on finding the protein-coding target genes of both miRNAs and TFs, the transcriptional networks that regulate miRNA expression remain largely unexplored. To this end, we have embarked in the task of mapping the first genome-scale miRNA regulatory network. This network contains experimentally mapped transcriptional TF=>miRNA interactions, as well as computationally predicted post-transcriptional miRNA=>TF interactions. The work presented here, along with data reported by other groups, have revealed the existence of reciprocal regulation between these two types of regulators, as well as extensive coordination in the regulation of shared target genes. Our studies have also identified common mechanisms by which miRNAs and TFs function to control gene expression and have suggested an inherent difference in the network properties of both types of regulators. Reverse genetic approaches have been extensively used to delineate the biological function of protein-coding genes. For instance, genome-wide RNAi screens have revealed critical roles for TFs in C. elegans development and physiology. However, reverse genetic approaches have not been very insightful in the case of non-coding genes: A single null mutation does not result in an easily detectable phenotype for most C. elegans miRNA genes. To help delineate the biological function of miRNAs we sought to determine when and where they are expressed. Specifically, we generated a collection of transgenic C. elegans strains, each containing a miRNA promoter::gfp (Pmir::gfp) fusion construct. The particular pattern of expression of each miRNA gene should help to identify potential genetic interactors that exhibit similar expression patterns, and to design experiments to test the phenotypes of miRNA mutants.

Transcription Factors

MicroRNAs

Gene Expression Regulation

Caenorhabditis elegans

Genes

Helminth

Transcription

Genetic

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Genetic Phenomena

Differentially Expressed MicroRNAs Act As Inhibitors of BDNF in Prefrontal Cortex - Implications for Schizophrenia: A Dissertation

Mellios, Nikolaos

13 March 2009

During my thesis work I studied the expression and potential function of brain expressed microRNAs (miRNAs) in human prefrontal cortex (PFC). Initially, I used combinatorial computational analysis and microarray data to identify miRNAs that are predicted with high probability to target the human Brain Derived Neurotrophic Factor (BDNF) 3’ Untranslated Region (3’UTR) and are expressed in moderate to high levels in adult human prefrontal cortex. A subset of 10 miRNAs segregating into 5 different miRNA families (miR-30a-d, miR-103/107, miR-16/195, miR-191 and miR-495) met the above criteria. I then designed a protocol to detect these miRNAs with Locked Nucleic Acid (LNA) in situ hybridization in human prefrontal cortex and determine their layer and cellular expression patterns. LNA in situ revealed differential lamina and cellular enrichment of BDNF-related miRNAs. As an example, miR-30a-5p was found to be enriched in large pyramidal neurons of layer 3, which was verified using laser capture microdissection of layer 3 pyramidal neurons and quantitative Real Time Polymerase Chain Reaction (qRT-PCR) following dissection of upper and deeper layers of human PFC. Parallel to this, I used miRNA qRT-PCR to determine the developmental expression of miRNAs using postmortem PFC tissues ranging from embryonic age to old adulthood and compared miRNA to BDNF protein levels. My results revealed a robust inverse correlation between BDNF-related miRNAs and BDNF protein during late maturation and aging of human prefrontal cortex. In vitro luciferase assays and/or lentivirus mediated neuronal miRNA overexpression experiments validated that at least two miRNAs, miR-30a-5p and miR-195, target human BDNF 3’UTR and mediate its translational repression. In the second part of my thesis work I measured levels of miR-30a and miR-195 in the prefrontal cortex of patients with schizophrenia and compared them with levels of BDNF protein and BDNF-related GABAergic mRNAs. According to my results differences in miR-195 levels in a subset of subjects diagnosed with schizophrenia were found to be associated with disease related changes in BDNF protein levels and deficits in BDNF dependent GABAergic gene expression. In the last part of my work I focused on miR-30b, another member of the miR-30 family, which I found to be reduced in the prefrontal cortex of female but not male subjects with schizophrenia. More importantly, disease related changes in miR-30b levels were strongly associated with the age of onset of the disease. Additional experiments in mouse cortex and hippocampus revealed a gender dimorphic expression pattern of this miRNA with higher expression in female brain. Collectively, my results suggest that miRNAs could participate in novel molecular pathways that play an important role during cortical development and maturation and are potentially linked to the pathophysiology of neuropsychiatric disease.

Schizophrenia

Brain-Derived Neurotrophic Factor

MicroRNAs

Female

In Situ Hybridization

Gene Expression Regulation

Animal Experimentation and Research

Genetic Phenomena

Mental Disorders

Nervous System

Pathology

Efeitos do γ-orizanol e extrato hidroalcólico de Thuya occidentalis sobre linhagens de câncer de próstata responsivas e não-responsivas a andrógenos / Efeitos do gama-orizanol e extrato hidroalcólico de Thuya occidentalis sobre linhagens de câncer de próstata responsivas e não-responsivas a andrógenos

Hirsch, Gabriela Elisa

January 2015

O câncer de próstata é a segunda causa de morte entre homens no Brasil. É tipo um câncer de crescimento lento, podendo levar anos para o tumor atingir 1 cm3, porém, em alguns casos ele pode se espalhar pelo corpo, sendo o osso o principal sítio de metástase. No estágio de desenvolvimento do câncer conhecido como metástase, o principal tratamento consiste em terapia de restrição andrógena, levando as células prostáticas a pararem de proliferar, uma vez que elas crescem em resposta a presença de hormônios andrógenos, como a diidrotestosterona e testosterona. Porém, em alguns casos, as células proliferam mesmo na ausência de andrógenos e isto se deve a diversos fatores que, em geral, estão associados a mutações no receptor andrógeno e/ou alterações no metabolismo andrógeno. Quando isto acontece, os tratamentos disponíveis são menos efetivos e costumam falhar. Porém, estudos sugerem que o γ-orizanol, um fitoesterol extraído do óleo do farelo do arroz; e extratos amplamente utilizados na medicina popular, como o extrato hidroalcólico de Thuya occidentalis, poderiam atuar inibindo o desenvolvimento e progressão do câncer de próstata. Neste estudo, com o uso de abordagens bioquímicas e de biologia molecular, foi demonstrado que o tratamento com γ-orizanol diminui a viabilidade e biomassa celular em cultura, associado ao aumento da morte celular por apoptose e/ou necrose, em linhagens celulares responsivas (LNCaP) e não-responsivas a andrógenos (PC3 e DU145), além de aumentar a pERK1/2 em células LNCaP e DU145. O γ-orizanol também foi capaz de bloquear o ciclo celular em G2/M nas células PC3 e LNCaP e em G0/G1 nas células DU145. Estes efeitos foram ainda acompanhados por uma redução da expressão do gene e proteína caveolina-1- uma importante molécula envolvida no aumento da agressividade do câncer de próstata, e também, na progressão da doença para o fenótipo andrógeno resistente - nas células não-responsivas a andrógenos, e do gene PCGEM1 - gene específico da próstata regulado por andrógeno - nas células LNCaP e DU145. Ainda, γ-orizanol também mostrou capacidade de regular vários miRNAs - pequenas moléculas de RNA não codificantes de proteínas - envolvidos no controle de funções associadas ao desenvolvimento, progressão e invasão no câncer de próstata, como o miR16-1, miR19b-2, miR24b-1, miR24b-2, miR99a, miR133a-5p, miR182-5p, miR198 e miR222. O extrato hidroalcólico de Thuya occidentalis reduziu a viabilidade e biomassa celular nas linhagens responsiva (LNCaP) e não-responsivas (DU145 e PC3) a andrógenos, além de induzir parada do ciclo celular na fase G0/G1 nas células DU145 e aumentar a morte celular por apoptose e/ou necrose em todas as linhagens. Da mesma forma que o γ-orizanol, este extrato reduziu a expressão da caveolina-1 nas linhagens não-responsivas a andrógenos. Trabalhos anteriores mostram que o monoterpeno α-tujona é o principal composto ativo do extrato de Thuya occidentalis. Por cromatografia gasosa acoplada a detector de massas foi mostrada a existência de 0,0016 μg de α-tujona na dose de extrato usada neste estudo. No entanto, o tratamento com 0,0016μg de α-tujona foi efetivo somente sobre linhagem LNCaP, não tendo efeito sobre as outras linhagens estudadas, reforçando a hipótese da diferença de sensibilidade entre as linhagens responsivas e não responsivas a andrógeno e mostrando a contribuição de outros componentes do extrato nos efeitos observados neste estudo. Concluindo, estes resultados demonstram que tanto γ-orizanol como o extrato de Thuya occidentalis podem vir a ser agentes terapêuticos promissores no tratamento de câncer de próstata, não só por inibirem o crescimento celular, mas também e principalmente pela possibilidade de induzirem a recuperação da sensibilidade a andrógenos, aumentando as possibilidades de tratamento da doença. / Prostate cancer is the second cause of death among men in Brazil. It is a slowgrowing cancer and it may take years for tumor to reach 1 cm3, but in some cases it can spread throughout the body and the bone is the main site of metastasis. At this cancer stage known as metastasis, the principal treatment involves antiandrogen therapy, leading to prostate cells stop proliferating, because they grow in response to presence of androgens such as testosterone and dihydrotestosterone. However, in some cases, the cells can proliferate even in the absence of androgens and this fact occurs due to many factors and they are generally associated with mutations in the androgen receptor and/or alterations in androgen metabolism. In this stage, the treatments available are less effective and usually fail. However, studies suggest that γ-oryzanol, a phytosterol extracted of rice bran oil; and extracts widely used in folk medicine, as Thuya occidentalis hidroalcolic extract, could act inhibiting the development and progression of prostate cancer. In this study, using molecular biology and biochemical approaches we showed that γ- oryzanol treatment was able to decrease cell viability and biomass in culture, and this fact was linked to increased cell death by apoptosis and/or necrosis in androgen responsive (LNCaP) and unresponsive (DU145 and PC3) prostate cancer cell lines, besides increasing pERK1/2 in LNCaP and DU145 cells. γ- oryzanol was also able to cause cell cycle arrest at G2/M phase in LNCaP and PC3 cells and at G0/G1 phase in DU145 cells. These effects were also accompanied by a reduction in caveolin-1 gene and protein expression - an important molecule related to high aggressiveness in prostate cancer and also in the progression of the disease to androgen resistant phenotype - in androgen unresponsive cells, and also PCGEM1 gene - a prostate specific gene regulated by androgens - in LNCaP and DU145 cells. γ-oryzanol also showed ability to regulate several miRNAs - small non-coding RNA molecules - involved in the control of many functions associated with the development, progression and invasion of prostate cancer, such as miR16-1, miR19b-2, miR24b-1, miR24b-2, miR99a, miR133a-5p, miR182-5p, miR198 and miR222. Thuya occidentalis hidroalcolic extract also reduce cell viability and biomass in androgen responsive (LNCaP) and unresponsive (DU145 and PC3) cells, in addition to inducing cell cycle arrest at G0/G1 phase in DU145 cells and to increase apoptosis and/or necrosis cell death in all cell lines. The same way that γ-oryzanol, this extract reduced the caveolin-1 expression in androgen unresponsive prostate cancer cells. Prior studies showed that the monoterpene α-thujone is the main active compound in the T. occidentalis extract. By gas chromatography coupled to mass detector it was showed the existence of 0.0016 μg of α-thujone in extract dose used in this study. However, the treatment with 0.0016 μg of α-thujone was effective only on LNCaP cell line, having no effect on the other studied lines, supporting the hypothesis of difference in sensitivity between responsive and unresponsive cell lines and showing the contribution of other components in the effects caused by the extract, observed it this study. In conclusion, these results demonstrate that both γ-oryzanol as T. occidentalis extract may become promising therapeutic agents in treatment of prostate cancer, not only inhibit cell growth but also and manly by the possibility of inducing the recovery of androgen sensitivity, increasing the treatment chances of treatment this disease.

Neoplasias da próstata

Androgênios

Óleos vegetais

Fitosteróis

Thuya occidentalis

Caveolina 1

MicroRNAs

γ-orizanol

Thuya occidentalis

Prostate cancer

PCGEM1

Caveolin-1

miRNA

Influência da exposição solar sobre o perfil de metilação e hidroximetilação global de DNA e em sítios específicos no promotor dos genes miR-9-1, miR-9-3 e MTHFR em amostras de pele humana

Silva, Mikaelly Batista da

17 March 2016

Submitted by Vasti Diniz (vastijpa@hotmail.com) on 2017-09-08T11:33:23Z No. of bitstreams: 1 arquivototal.pdf: 1921817 bytes, checksum: 7ba035d7ef40f1aafd9f93476aabedd6 (MD5) / Made available in DSpace on 2017-09-08T11:33:23Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 1921817 bytes, checksum: 7ba035d7ef40f1aafd9f93476aabedd6 (MD5) Previous issue date: 2016-03-17 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Epigenetics is the study heritable changes of in gene expression without modifications in the primary sequence of DNA. In our study we investigated the influence of sun exposure on global DNA methylation and hydroxymethylation status and at specific sites of the miR-9-1, miR9-3 and MTHFR genes in skin samples of subjects with no history of skin diseases. Skin biopsies were obtained by punch on sun-exposed and sun-protected arm areas from 24 corpses aged 16-89 years old from the Brazilian Service of Death Investigation. Genomic DNA was extracted from skin samples that were ranked according to Fitzpatrick’s criteria as light, moderate and dark brown. Global DNA methylation and hydroxymethylation and DNA methylation at specific sites analyses were performed using an ELISA and MSP, respectively. No significant differences in global DNA methylation and hydroxymethylation levels were found between the skin areas, skin type or age. However, gender-related differences were detected, where women showed higher methylation levels in comparison to those in men. Global DNA methylation levels were higher than hydroxymethylation levels, and the levels of these DNA modifications correlated in skin tissue. For specific sites, it was detected no differences among areas. Additional analyses showed no differences in the methylation status when age, gender and skin type were considered. We conclude that sun exposure does not induce changes in the global DNA methylation and hydroxymethylation status or at specific sites in the miR-9-1, miR-9-3 and MTHFR genes for skin types studied. / A epigenética é o estudo das alterações hereditárias na expressão gênica sem mudanças na sequência primária do DNA. No nosso estudo investigamos a influência da exposição solar sobre o perfil de metilação e hidroximetilação global de DNA e em sítios específicos nos genes miR-9-1, miR-9-3 e MTHFR em amostras de pele humana. Para isso, biópsias foram obtidas por punch circular de área exposta e não exposta ao sol do braço de 24 cadáveres de ambos os sexos, com idade entre 16-89 anos sem histórico de doenças de pele oriundos do Serviço de Verificação de Óbitos da Paraíba (SVO). O DNA foi extraído e a análise de metilação e hidroximetilação global do DNA foi realizada através de Elisa indireto. A análise de metilação nos sítios específicos dos genes miR-9-1, miR-9-3 e MTHFR foi realizada por meio de PCR específica para metilação (MSP) seguida de eletroforese. As análises estatísticas foram realizadas pelo software BioEstat 5.0 ao nível de significância de 5%. Não encontramos diferenças significativas nos níveis de metilação e hidroximetilação global de DNA entre as áreas exposta e não exposta da pele, tipo de pele ou idade. No entanto, foram detectadas diferenças em relação ao gênero, onde as mulheres apresentaram nível de metilação global mais alto em comparação aos homens. O nível de metilação global de DNA foi maior do que o nível de hidroximetilação, sendo estes, correlacionados no tecido da pele. Para sítios específicos, não foi detectada nenhuma diferença entre as áreas. Análises adicionais mostraram não haver diferenças significativas no perfil de metilação quando consideradas a idade, gênero e o tipo de pele. Conclui-se que a exposição ao sol não induz mudanças no perfil de metilação e hidroximetilação global do DNA ou em sítios específicos dos genes miR-9-1, miR-9-3 e MTHFR para os tipos de pele estudado.

Epigenética

Metilação

Hidroximetilação

Radiação solar

MicroRNAs

Pele

Epigenetic

Methylation

Hydroxymethylation

Sun exposure

MicroRNA

Skin

CIENCIAS BIOLOGICAS::BIOLOGIA GERAL