Global ETD Search

341	Régulation transcriptionnelle des isoformes de la protéine suppresseur de tumeur p53 tronquée dans leur région amino-terminale : impact des polymorphismes du gène TP53 / Transcriptional regulation of N-truncated isoforms of the p53 tumor suppressor : impact of the TP53 polymorphisms Marcel, Virginie 30 June 2009 (has links) Le gène suppresseur de tumeurs TP53 exprime plusieurs isoformes, dont Δ40p53 (perte du domaine de transactivation) et Δ133p53 (perte du domaine de transactivation et d’une partie du domaine de liaison à l’ADN). Ces isoformes inhibent l’activité suppressive de p53 et seraient sur-exprimées dans les cancers (sein et mélanome). Dans les cancers faiblement associés à une mutation TP53, ces isoformes seraient de bons candidats pour inactiver p53. Il convient de comprendre les mécanismes transcriptionnels qui régulent leurs expressions. Δ133p53 est produite par un promoteur alternatif P3 localisé dans TP53. Nous avons montré que Δ133p53 est un gène cible de p53, qui transactive le promoteur P3 par fixation sur un élément de réponse présent dans l’exon 4. L’expression de Δ133p53 est corrélée à celle d’autres gènes cibles de p53 en réponse à un stress génotoxique. De plus, elle réprime la suppression de la prolifération induite par p53 en inhibant ses capacités de liaison à l’ADN. Δ40p53 est produite par épissage alternatif, dont la rétention de l’intron 2 favorise sa traduction et empêche celle de p53. Nous avons montré que des structures de type G-quadruplexes présentes dans l’intron 3 régulent l’exclusion de l’intron 2. Ces structures comprennent le polymorphisme TP53PIN3 (duplication de 16pb), qui change leur localisation et affecte l’expression des ARNm codant p53 et Δ40p53. De plus, nous avons montré que ce polymorphisme est associé à une accélération de la cancérogenèse dans le syndrome Li-Fraumeni, caractérisé par la présence d’une mutation germinale TP53 (effet modificateur: 19 ans de différence à l’âge moyen du premier diagnostique entre les deux variants). L’expression des isoformes de p53 dépend de mécanismes transcriptionnels différents, indiquant des rôles différents dans la modulation des fonctions suppressives de p53. En plus d’inactiver p53 dans les cancers, ces isoformes pourraient être à l’origine des effets modificateurs des polymorphismes de TP53 sur les mutants p53. / The TP53 tumour suppressor gene expresses several isoforms, of which Δ40p53 (lack of transactivation domain) and Δ133p53 (lack of both transactivation and part of DNA-binding domains). These isoforms inhibit p53 suppressive activity and have been shown to be over-expressed in cancers (breat and melanoma). In cancers associated with low TP53 mutation rate, these isoforms could be great candidates to inactivate p53. It seems important to understand the transcriptional mechanisms that regulate their expression. Δ133p53 is produced by an alternative P3 promoter within TP53. We showed that Δ133p53 is a p53 target gene. p53 transactivates the P3 promoter and interact with a response element within exon 4. Δ133p53 expression is correlated to other p53 target genes in response to genotoxic stress. In addition, Δ133p53 inhibits p53-dependent suppression of proliferation by inhibiting p53 DNA-binding activity. Δ40p53 is produced by alternative splicing: retention of intron 2 favours its translation while it avoid the one of p53. We showed that G-quadruplex structures are formed in intron 3 and regulate retention of intron 2. The TP53PIN3 polymorphism (16 bp duplication) is embedded within these structures and affects their locations leading to variation of mRNA expression of p53 and Δ40p53. In addition, we showed that this polymorphism is associated with acceleration of carcinogenesis in Li-Fraumeni syndrome, characterized by germline TP53 mutation (genetic modifier effect: difference of 19 years in mean age at first diagnosis of cancer between the two variants). The expression of p53 isoforms depends on different transcriptional mechanisms, suggesting different roles in the modulation of p53 suppressive functions. In addition to inactivate p53 in cancers, these isoforms could be the mediators of modifier effects observed for TP53 polymorphisms on mutant p53. Protéine suppresseur de tumeur p53 Isoformes Régulation transcriptionnelle Structures de type G-quadruplexe Effet modificateur Épissage alternatif Syndrome Li-Fraumeni Promoteur interne Tumor suppressor protein p53 Isoforms Transcriptional regulation Structures such as G-quadruplex Modifying effect Alternative splicing Li-Fraumeni Syndrome Internal promoter 572.8
342	L’oncogène Src et les protéines de la famille Bcl-2 : une coopération coupable : implication de la protéine Bik dans la résistance à l’apoptose de cellules transformées par l’oncogène Src / The src oncogene and the Bcl-2 family proteins : a guilty cooperation : Implication of the Bik protein in the resistance to apoptosis of Src-transformed cells Lopez, Jonathan 04 May 2010 (has links) La protéine tyrosine kinase c-Src est surexprimée et activée dans de nombreux cancers. De manière remarquable, Src est activé dans plus de 80% des adénocarcinomes coliques où il joue un rôle dans la carcinogenèse et la progression vers un phénotype métastatique. c-Src et son homologue viral v-Src activent un grand nombre de voies cellulaires permettant à la tumeur de proliférer, de résister à la mort cellulaire et d’acquérir des capacités accrues de migration et d’angiogenèse. Au cours de ma thèse nous avons mis en évidence un mécanisme inattendu d’échappement à l’apoptose de fibroblastes murins surexprimant de manière stable v-Src et de plusieurs lignées tumorales humaines (coliques en particulier) présentant une activité c-Src dérégulée. Nous avons montré que Src stimule la dégradation protéasomedépendantede la protéine Bik, un membre pro-apoptotique de la famille Bcl-2, connu pour être un suppresseur de tumeurs. Cette régulation post-traductionnelle du niveau d’expression de Bik est à l’origine d’une forte résistance de la voie mitochondriale de l’apoptose. L’inhibition de l’activité kinase de Src ou le blocage de la dégradation de Bik par le protéasome permettent de restaurer des concentrations normales de la protéine Bik dans les cellules transformées et de les restaurer efficacement l’apoptose. En revanche, l’inhibition des protéines anti-apoptotiques de la famille Bcl-2 par l’ABT-737 semble moins efficace. Par ailleurs, nous avons également contribué à mettre en évidence le rôle anti-migratoire et anti-invasif du lithium sur des cellules transformées par Src. Le mécanisme moléculaire mis en jeu implique l’activation redox des protéines tyrosine phosphatases cellulaires. Enfin, nous avons participé à l’étude de peptides mimant les hélices centrales d’insertion de Bax, Bcl-xL et Bid, représentant les trois sous-groupes de protéines de la famille Bcl-2. Nous avons comparé leur comportement vis-à-vis d’une monocouche lipidique mimant la membrane mitochondriale externe ainsi que leur capacité à perméabiliser des mitochondries isolées. Nos résultats nous ont permis de proposer que les fragments centraux d’insertion membranaire des protéines Bcl-2 seraient directement impliqués dans la divergence fonctionnelle des différents sous groupes qui composent la famille / C-Src tyrosine kinase is overexpressed and activated in a number of cancers. Remarkably, Src is deregulated in more than 80% of colorectal adenocarcinoma, playing a role in carcinogenesis and progression toward a metastatic phenotype. c-Src and v-Src activate a large number of intracellular pathways which allow the tumor to proliferate, to evade the cell death machinery and to acquired enhanced migratory and angiogenic abilities. During my PhD, we discovered an unknown mechanism to evade apoptosis developed by murine fibroblasts stably overexpressing v-Src and by some human tumor cell lines with c-Srcb deregulation. We have shown that Src stimulate the proteasomal degradation of the Bik protein, a proapoptotic member of the Bcl-2 family proteins known to act as a tumor suppressor. This post-translationnal regulation of the Bik protein expression level leads to a strong resistance of the mitochondrial pathway of apoptosis. Inhibition of the Src kinase activity or of the Bik proteasome-dependent degradation restore normal levels of the Bik protein and efficiently resensitize these cells to apoptosis. Inhibition of the antiapoptotic Bcl-2 proteins by ABT737 seems to be less efficient in these cells. We also contribute to show that lithium suppresses motility and invasivity of v-Src transformed cells. The molecular mechanism involve a redox activation of the protein tyrosine phosphatases. Finally, we compared the membrane behavior and the ability to permeabilize mitochondria of synthetic peptides derived from the central helical hairpin of Bax,Bcl-xL and Bid. We showed that these structurally analogous domains have distinct membrane behavior which could account for the functional divergence between the Bcl-2 family members Syndrome de rubéole congénitale(Src) Oncogène Tyrosine kinase Tranformation Protéasome Progression tumorale Suppresseur de tumeurs Bik/Nbk Apoptose Famille Bcl-2 Mitochondrie Lithium Rubella syndrome, congenital(Src) Oncogene Tyrosine kinases Transformation Proteasome Tumor progression Tumor suppressor Bik/Nbk Apoptosis Bcl-2 family Mitochondria Lithium 571.6 572 616.994
343	Expressão imuno-histoquímica das proteínas p16, ciclina D1, CDK4, pRb, p53 e p21 em melanomas cutâneos de cabeça, pescoço e tronco e sua relação com prognóstico / Prognostic impact of p16, cyclin D1, CDK4, pRb, p53 and p21 expression in head, neck and trunk melanomas Santos, André Bandiera de Oliveira 11 May 2010 (has links) O melanoma cutâneo é a neoplasia de pele de maior mortalidade. A imprevisibilidade de sua evolução é uma de suas características principais, o tratamento do tumor primário é, atualmente, de pouca morbidade e, na doença disseminada, as opções terapêuticas são pouco eficazes. É fundamental a pesquisa de marcadores tumorais que permitam a previsão da evolução, melhor compreensão da patogênese do melanoma e possibilitem a descoberta de alvos moleculares. Nesse contexto, estudos genéticos mostraram a importância da regulação do ciclo celular, especialmente a passagem da fase G1-S. Importantes fatores envolvidos compõem a cascata da proteína Rb (p16, ciclina D1, CDK4 e pRb) e da proteína p53 (p53 e p21). Objetivo: verificar a frequência da expressão de p16, ciclina D1,CDK4, pRb, p53 e p21 em melanomas cutâneos de cabeça, pescoço e tronco e sua relação com prognóstico. Métodos: Estudo retrospectivo envolvendo 46 pacientes (sendo 67,3% homens, idade média 57,7 ± 15,8 anos) com melanoma cutâneo de cabeça, pescoço e tronco que foram tratados pela mesma equipe com seguimento mínimo de dois anos. Foram estudados fatores clínicos (topografia do tumor primário, tempo de seguimento, ocorrência de metástases e óbito relacionado), histopatológicos (tipo histológico, índice de Clark, índice de Breslow) e análise imuno-histoquímica pela técnica de micro-array para as proteínas reguladoras do ciclo celular p16, ciclina D1, CDK4, pRb, p53 e p21. Resultados: Houve proporção igualitária entre as topografias (23 casos em tronco, 23 em cabeça e pescoço). Treze pacientes com Clark I (29,5%), cinco com II (11,3%), 16 com III (36,5%), 10 com IV (22,7%) e nenhum com Clark V. A média das medidas de Breslow foi 0,96 (DP=1,01). O seguimento médio foi de 77 meses (DP=47). Oito dos 46 pacientes (17,3%) tiveram evolução desfavorável, com seis óbitos relacionados. A idade foi mais elevada no grupo com evolução desfavorável (p=0,04). Houve expressão de p16 em 80%, ciclina D1 em 58,9%, CDK4 em 43,5%, pRb em 58,5%, p53 em 53,6% e p21 em 52,3% dos melanomas. Em análise univariada, a expressão do p21 foi relacionada com evolução desfavorável (p=0,04), o que não foi observado com a expressão dos outros marcadores (p>0,05). Conclusão: A expressão da proteína p21 nos melanomas cutâneos de cabeça, pescoço e tronco foi relacionada com evolução desfavorável, o que não ocorreu com outros fatores envolvidos na regulação do ciclo celular / Melanoma is the most lethal skin cancer. The outcome of melanoma is not predictable in most cases. Although the treatment for the primary tumor is well tolerated, there are no effective therapeutic options in disseminated disease. Efforts are being made in the search for tumoral markers that may predict outcome, increase the comprehension of melanoma pathogenesis, and may also help the search for molecular targets. In this issue, genetic studies concerning the regulation of cell cycle, including the G1-S checkpoint, are important. The retinoblastoma protein (pRb) pathway (p16, cyclin D1, CDK4 and pRb) and the p53 pathway (p53 and p21) are part of this regulation. Objectives: to verify the expression of p16, cyclin D1, CDK4, pRb, p53 and p21 in head, neck and trunk melanomas, and its correlation with prognosis. Method: Retrospective study approved by institution ethics committee. Fourtysix head, neck and trunk melanoma patients (67.3% men, mean age 57.7±15.8) treated by a single surgeon with minimum 2-years follow-up were enrolled. Clinical factors (primary tumor location, follow-up period, metastasis or related deaths), pathologic (histological subtype, Clark and Breslow index) and microarray immunohystochemical analysis of the cell cycle proteins p16, cyclin D1, CDK4, pRb, p53 and p21. Results: Location of the primary tumor was equal for head/neck and trunk (50% each). Thirteen patients were classified as Clark I (29.5%), five as Clark II (11.3%), 16 as Clark III (36.5%), 10 as IV (22.7%), none as Clark V. Mean Breslow measure was 0.96±1.01. Mean follow-up was 77±47 months. Eight patients (17.3%) had bad outcome, with six related deaths. Patients with worse outcome had a higher mean age at diagnosis (p=0,04). Expression of p16 was positive in 80%. Cyclin D1 was positive in 58.9%. CDK4 was positive in 43.5%. pRb was positive in 58.5%. p53 was positive in 53.6%. p21 was positive in 52.3%. Univariated analysis showed that p21 expression was related to worse outcome (p=0,04), while the other markers were not (p>0,05). Conclusion: p21 expression in head, neck and trunk melanomas was related to worse outcome. Expression of the other cell cycle regulators proteins was not Ciclina D1 Cyclin D1 Cyclin-dependent kinase 4 Cyclin-dependent kinase inhibitor p16 Cyclin-dependent kinase inhibitor p21 Immunohistochemistry Imunoistoquímica Melanoma Melanoma Micro-array Micro-array analysis Prognosis Prognóstico Proteína do retinoblastoma Proteína supressora de tumor p53 Quinase 4 dependente de ciclina Retinoblastoma protein Tumor suppressor protein p53
344	Modificadores de penetrância de mutações germinativas no gene TP53 em famílias brasileiras com diagnóstico clínico da síndrome de Li-Fraumeni e Li-Fraumeni like: impacto dos polimorfismos intragênicos do TP53 e de genes / Genetic modifiers of germline TP53 mutation in Brazilian families with Li-Fraumeni and Li-Fraumeni Like syndromes: impact of TP53 intragenic polymorphisms and p53 regulatory genes Achatz, Maria Isabel Alves de Souza Waddington 08 December 2008 (has links) A síndrome de Li-Fraumeni (LFS) e sua variante like (LFL) são associadas a mutações germinativas no gene TP53 e predispõe ao alto risco para múltiplos tumores em idade jovem. Analisamos 91 famílias LFS/LFL do sul/sudeste do Brasil para mutações germinativas e haplótipos de TP53 (PIN2, PIN3 e PEX4) e MDM2 (309T-G). A mutação R337H ocorreu em 44,4% das famílias avaliadas. Em 750 controles da região a freqüência populacional da mutação foi 0,3%. A genotipagem de oito indivíduos não relacionados R337H-positivos para 29 TAG SNPs intragênicos demonstrou o mesmo haplótipo raro estabelecendo efeito fundador para R337H. O alelo duplicado no PIN3 apresenta impacto modificador e retardo de 17,1 anos na ocorrência de tumores em famílias com mutação no TP53, enquanto o SNP309 MDM2 modula a idade dos sarcomas de partes moles. / Li-Fraumeni syndrome (LFS) and its variant like (LFL) are associated with germline mutations in the TP53 gene and predispose to a variety of cancers at an earlier age. We analyzed 91 LFS/LFL families from southern Brazil for germline mutations in TP53 and polymorphisms in TP53 (PIN2, PIN3, PEX4) and MDM2 (309T-G). The germline TP53 mutation R337H was found in 44.4% of all families included. In 750 controls from the same region, mutation prevalence was 0.3%. Genotyping of eight unrelated R337H-positive individuals for 29 intragenic TAG SNPs showed that they all shared the same rare haplotype confirming the founder effect for the mutation. Duplication of PIN3 had a modifier effect on the age of tumor onset (delay of 17.1 years) in TP53 mutation carriers whereas MDM2 SNP309 modulated age of onset for soft-tissue sarcomas. Adrenocortical carcinoma Carcinoma adrenocortical Deleção de genes Gene deletion Genetic polymorphism Genetic predisposition to disease Germline mutation Li-Fraumeni syndrome Mutação em linhagem germinativa Polimorfismo genético Predisposição genética para doença Proteína supressora de tumor p53 Proteínas proto-oncogênicas c-mdm2 Proto-oncogene proteins c-mdm2 Síndrome de Li-Fraumeni Tumor suppressor protein p53
345	Caracterização da expressão de microRNAs em carcinoma de mama receptores hormonais positivos e HER-2 negativo / Caracterização da expressão de microRNAs em carcinoma de mama receptores hormonais positivo e HER-2 negativo Mendes, Daniele Carvalho Calvano 27 January 2015 (has links) Introdução: O câncer de mama é, em sua essência, uma doença genética. O acúmulo de alterações moleculares no genoma das células somáticas é a base para a progressão do câncer. Além de ter biologia natural mais favorável, os tumores com alta expressão de receptores de estrogênio têm terapia-alvo bem estabelecida. Apesar disso, as pacientes podem apresentar resistência medicamentosa, recidiva e óbito. Os microRNAs (miRNAs) são uma classe de pequenas moléculas não codificadoras de proteínas que regulam a expressão gênica durante a etapa de tradução. Esta regulação é feita pelo pareamento de bases com o mRNA-alvo (RNA mensageiro), resultando na supressão da tradução ou na clivagem do mRNA. Se os miRNAs têm como alvo genes supressores de tumor ou oncogenes, podem atuar como supressores tumorais ou oncogenes. OBJETIVO: avaliar a expressão de microRNAs, por PCR em tempo real, no carcinoma mamário ductal invasivo (CDI) com receptores hormonais positivos e HER-2 negativo (luminal A). MÉTODOS: Foram avaliados materiais em parafina de 33 pacientes com tumores luminal A, bem como tecido mamário histologicamente normal. Foram utilizados kit para extração de RNA de amostras fixadas e parafinadas - miRNeasy FFPE; kit para síntese de cDNA - miScript II RT; kit miScript SYBR Green PCR e miScript miRNA PCR Arrays para análise de 84 sequências de miRNA de câncer humano. Analisaram-se dados clínicos, como idade, paridade, amamentação, estado menopausal; variáveis histológicas, como tamanho do tumor, estado linfonodal, invasão linfática; características imunoistoquímicas, como expressão de Ki-67. Para a análise estatística utilizou-se o software miScript miRNA PCR Array Data Analysis, que emprega o método de quantificação relativa ??Ct. RESULTADOS: A análise comparativa dos 33 casos de CDI luminal A com os 15 casos de parênquima mamário normal revelou haver microRNAs hiperexpressos, sendo eles: miR-96-5p (fold-regulation = 9,245, p = 0,000192), miR-182-5p (fold-regulation = 6,4813, p = 0,00024), miR-21-5p (fold-regulation = 6,3129, p = 0,000001), miR- 210-3p (fold-regulation =4,3584, p =0,001002) e. miR-7-5p (fold-regulation = 4,0166, p = 0,036407). Apontou, ainda, microRNAs com hipoexpressão, a saber: miR-204-5p (Fold-regulation = -8,2104, p = 0,000000), miR-125b-5p (Fold-regulation = --6,332, p=0,000000), let-7c-5p (Fold-regulation: -4,5142, p=0,000000) e let-7e-5p (Fold-regulation = -4,059, p = 0,011625): CONCLUSÕES: CDI luminal A apresentou hiperexpressão de miR-96-5p, miR-182-5p, miR-21-5p, miR-210-3p e miR-7-5p. Apontou, ainda, hipoexpressão do miR-204-5p, miR-125b-5p, let-7c-5p e let-7e-5p, permitindo diferenciá-lo do tecido normal / INTRODUCTION: Breast cancer is a genetic disease and the accumulation of molecular alterations in the genome of somatic cells is the basis for cancer progression. Besides having a more favorable natural biology, tumors with high expression of estrogen receptor have a well established targeted therapy. Nevertheless, patients may present with resistance and eventually relapse and death. MicroRNAs (miRNAs) are a class of small non-coding protein molecules that regulate gene expression during the translation stage. This adjustment is made by base pairing with the mRNA (messenger RNA) target resulting in suppression of translation or cleavage of the mRNA. Depending on whether miRNAs target tumor suppressor genes or oncogenes, they can act as tumor suppressors or oncogenes. OBJECTIVE: evaluate the expression of microRNAs by RT-PCR in positive hormonal receptors, negative HER 2 (luminal A) invasive ductal carcinoma (IDC). METHODS: Paraffin embedded tumor material from 33 patients with luminal A IDC, and histologically normal breast tissue. Were used: Kit for RNA extraction from fixed and paraffin embedded samples - miRNeasy FFPE; cDNA synthesis kit - miScript II RT; miScript SYBR Green PCR Kit and miScript miRNA PCR Arrays for analysis of 84 miRNA sequences of human cancer. Clinical data such as age, parity, breastfeeding, menopausal status; histological variables such as tumor size, lymph node status, lymphatic invasion; immunohistochemical characteristics, such as expression of Ki-67, were evaluated. For statistical analysis the miScript miRNA PCR Array Data Analysis software, which uses the method of relative quantification ??Ct, was used. RESULTS: A comparative analysis of 33 cases of luminal A IDC with 15 cases of normal breast parenchyma defined microRNAs overexpressed, as follows: miR-96-5p (fold-regulation = 9,245, p = 0,000192), miR-182-5p (fold-regulation = 6,4813, p = 0,00024), miR-21-5p (fold-regulation = 6,3129, p = 0,000001), miR- 210-3p (fold-regulation =4,3584, p =0,001002) and miR-7-5p (fold-regulation = 4,0166, p = 0,036407). Furthermore, microRNAs with reduced expression, as follows:. miR-204-5p (Fold-regulation = -8,2104, p = 0,000000), miR-125b-5p (Fold-regulation = -6,332, p=0,000000), let-7c-5p (Fold-regulation: -4,5142, p=0,000000) and let-7e-5p (Fold-regulation = -4,059, p = 0,011625): CONCLUSION: Luminal A CDI breast cancer has shown overexpression of miR-96-5p, miR-182-5p, miR-21-5p, miR-210-3p and miR-7-5p. Also has shown,downregulation of miR-204-5p, miR-125b-5p, let-7c-5p e let-7e-5p, allowing differentiating it from normal tissue Breast neoplasms/pathology Carcinoma ductal breast/genetics Carcinoma ductal breast/pathology Carcinoma ductal de mama/genética Carcinoma ductal de mama/patologia Expressão gênica Gene expression Genes supressores de tumor Genes tumor suppressor Immunohistochemistry Imuno-histoquímica Marcadores biológicos de tumor/análise MicroRNAs MicroRNAs Neoplasias da mama/patologia Prognosis Prognóstico Real-time polymerase chain reaction Tumor markers biological/analysis
346	Caractérisation structurale et biophysique de l’impact de l’acétylation de SUMO1 sur son interaction dépendante de la phosphorylation avec PML Gagnon, Christina 07 1900 (has links) No description available. SUMO PML SUMOylation X-ray crystallography ITC PML-NBs SIM suppresseur de tumeur tumor suppressor phospho-sérines phosphoserines X-ray crystallography Isothermal Titration Calorimetry (ITC) PML-Nuclear Bodies (PML-NBs) SUMO-Interacting Motif (SIM) Tumour suppressor Phosphoserines
347	Modificadores de penetrância de mutações germinativas no gene TP53 em famílias brasileiras com diagnóstico clínico da síndrome de Li-Fraumeni e Li-Fraumeni like: impacto dos polimorfismos intragênicos do TP53 e de genes / Genetic modifiers of germline TP53 mutation in Brazilian families with Li-Fraumeni and Li-Fraumeni Like syndromes: impact of TP53 intragenic polymorphisms and p53 regulatory genes Maria Isabel Alves de Souza Waddington Achatz 08 December 2008 (has links) A síndrome de Li-Fraumeni (LFS) e sua variante like (LFL) são associadas a mutações germinativas no gene TP53 e predispõe ao alto risco para múltiplos tumores em idade jovem. Analisamos 91 famílias LFS/LFL do sul/sudeste do Brasil para mutações germinativas e haplótipos de TP53 (PIN2, PIN3 e PEX4) e MDM2 (309T-G). A mutação R337H ocorreu em 44,4% das famílias avaliadas. Em 750 controles da região a freqüência populacional da mutação foi 0,3%. A genotipagem de oito indivíduos não relacionados R337H-positivos para 29 TAG SNPs intragênicos demonstrou o mesmo haplótipo raro estabelecendo efeito fundador para R337H. O alelo duplicado no PIN3 apresenta impacto modificador e retardo de 17,1 anos na ocorrência de tumores em famílias com mutação no TP53, enquanto o SNP309 MDM2 modula a idade dos sarcomas de partes moles. / Li-Fraumeni syndrome (LFS) and its variant like (LFL) are associated with germline mutations in the TP53 gene and predispose to a variety of cancers at an earlier age. We analyzed 91 LFS/LFL families from southern Brazil for germline mutations in TP53 and polymorphisms in TP53 (PIN2, PIN3, PEX4) and MDM2 (309T-G). The germline TP53 mutation R337H was found in 44.4% of all families included. In 750 controls from the same region, mutation prevalence was 0.3%. Genotyping of eight unrelated R337H-positive individuals for 29 intragenic TAG SNPs showed that they all shared the same rare haplotype confirming the founder effect for the mutation. Duplication of PIN3 had a modifier effect on the age of tumor onset (delay of 17.1 years) in TP53 mutation carriers whereas MDM2 SNP309 modulated age of onset for soft-tissue sarcomas. Carcinoma adrenocortical Deleção de genes Mutação em linhagem germinativa Polimorfismo genético Predisposição genética para doença Proteína supressora de tumor p53 Proteínas proto-oncogênicas c-mdm2 Síndrome de Li-Fraumeni Adrenocortical carcinoma Gene deletion Genetic polymorphism Genetic predisposition to disease Germline mutation Li-Fraumeni syndrome Proto-oncogene proteins c-mdm2 Tumor suppressor protein p53
348	Expressão imuno-histoquímica das proteínas p16, ciclina D1, CDK4, pRb, p53 e p21 em melanomas cutâneos de cabeça, pescoço e tronco e sua relação com prognóstico / Prognostic impact of p16, cyclin D1, CDK4, pRb, p53 and p21 expression in head, neck and trunk melanomas André Bandiera de Oliveira Santos 11 May 2010 (has links) O melanoma cutâneo é a neoplasia de pele de maior mortalidade. A imprevisibilidade de sua evolução é uma de suas características principais, o tratamento do tumor primário é, atualmente, de pouca morbidade e, na doença disseminada, as opções terapêuticas são pouco eficazes. É fundamental a pesquisa de marcadores tumorais que permitam a previsão da evolução, melhor compreensão da patogênese do melanoma e possibilitem a descoberta de alvos moleculares. Nesse contexto, estudos genéticos mostraram a importância da regulação do ciclo celular, especialmente a passagem da fase G1-S. Importantes fatores envolvidos compõem a cascata da proteína Rb (p16, ciclina D1, CDK4 e pRb) e da proteína p53 (p53 e p21). Objetivo: verificar a frequência da expressão de p16, ciclina D1,CDK4, pRb, p53 e p21 em melanomas cutâneos de cabeça, pescoço e tronco e sua relação com prognóstico. Métodos: Estudo retrospectivo envolvendo 46 pacientes (sendo 67,3% homens, idade média 57,7 ± 15,8 anos) com melanoma cutâneo de cabeça, pescoço e tronco que foram tratados pela mesma equipe com seguimento mínimo de dois anos. Foram estudados fatores clínicos (topografia do tumor primário, tempo de seguimento, ocorrência de metástases e óbito relacionado), histopatológicos (tipo histológico, índice de Clark, índice de Breslow) e análise imuno-histoquímica pela técnica de micro-array para as proteínas reguladoras do ciclo celular p16, ciclina D1, CDK4, pRb, p53 e p21. Resultados: Houve proporção igualitária entre as topografias (23 casos em tronco, 23 em cabeça e pescoço). Treze pacientes com Clark I (29,5%), cinco com II (11,3%), 16 com III (36,5%), 10 com IV (22,7%) e nenhum com Clark V. A média das medidas de Breslow foi 0,96 (DP=1,01). O seguimento médio foi de 77 meses (DP=47). Oito dos 46 pacientes (17,3%) tiveram evolução desfavorável, com seis óbitos relacionados. A idade foi mais elevada no grupo com evolução desfavorável (p=0,04). Houve expressão de p16 em 80%, ciclina D1 em 58,9%, CDK4 em 43,5%, pRb em 58,5%, p53 em 53,6% e p21 em 52,3% dos melanomas. Em análise univariada, a expressão do p21 foi relacionada com evolução desfavorável (p=0,04), o que não foi observado com a expressão dos outros marcadores (p>0,05). Conclusão: A expressão da proteína p21 nos melanomas cutâneos de cabeça, pescoço e tronco foi relacionada com evolução desfavorável, o que não ocorreu com outros fatores envolvidos na regulação do ciclo celular / Melanoma is the most lethal skin cancer. The outcome of melanoma is not predictable in most cases. Although the treatment for the primary tumor is well tolerated, there are no effective therapeutic options in disseminated disease. Efforts are being made in the search for tumoral markers that may predict outcome, increase the comprehension of melanoma pathogenesis, and may also help the search for molecular targets. In this issue, genetic studies concerning the regulation of cell cycle, including the G1-S checkpoint, are important. The retinoblastoma protein (pRb) pathway (p16, cyclin D1, CDK4 and pRb) and the p53 pathway (p53 and p21) are part of this regulation. Objectives: to verify the expression of p16, cyclin D1, CDK4, pRb, p53 and p21 in head, neck and trunk melanomas, and its correlation with prognosis. Method: Retrospective study approved by institution ethics committee. Fourtysix head, neck and trunk melanoma patients (67.3% men, mean age 57.7±15.8) treated by a single surgeon with minimum 2-years follow-up were enrolled. Clinical factors (primary tumor location, follow-up period, metastasis or related deaths), pathologic (histological subtype, Clark and Breslow index) and microarray immunohystochemical analysis of the cell cycle proteins p16, cyclin D1, CDK4, pRb, p53 and p21. Results: Location of the primary tumor was equal for head/neck and trunk (50% each). Thirteen patients were classified as Clark I (29.5%), five as Clark II (11.3%), 16 as Clark III (36.5%), 10 as IV (22.7%), none as Clark V. Mean Breslow measure was 0.96±1.01. Mean follow-up was 77±47 months. Eight patients (17.3%) had bad outcome, with six related deaths. Patients with worse outcome had a higher mean age at diagnosis (p=0,04). Expression of p16 was positive in 80%. Cyclin D1 was positive in 58.9%. CDK4 was positive in 43.5%. pRb was positive in 58.5%. p53 was positive in 53.6%. p21 was positive in 52.3%. Univariated analysis showed that p21 expression was related to worse outcome (p=0,04), while the other markers were not (p>0,05). Conclusion: p21 expression in head, neck and trunk melanomas was related to worse outcome. Expression of the other cell cycle regulators proteins was not Ciclina D1 Imunoistoquímica Melanoma Micro-array Prognóstico Proteína do retinoblastoma Proteína supressora de tumor p53 Quinase 4 dependente de ciclina Cyclin D1 Cyclin-dependent kinase 4 Cyclin-dependent kinase inhibitor p16 Cyclin-dependent kinase inhibitor p21 Immunohistochemistry Melanoma Micro-array analysis Prognosis Retinoblastoma protein Tumor suppressor protein p53
349	Caracterização da expressão de microRNAs em carcinoma de mama receptores hormonais positivos e HER-2 negativo / Caracterização da expressão de microRNAs em carcinoma de mama receptores hormonais positivo e HER-2 negativo Daniele Carvalho Calvano Mendes 27 January 2015 (has links) Introdução: O câncer de mama é, em sua essência, uma doença genética. O acúmulo de alterações moleculares no genoma das células somáticas é a base para a progressão do câncer. Além de ter biologia natural mais favorável, os tumores com alta expressão de receptores de estrogênio têm terapia-alvo bem estabelecida. Apesar disso, as pacientes podem apresentar resistência medicamentosa, recidiva e óbito. Os microRNAs (miRNAs) são uma classe de pequenas moléculas não codificadoras de proteínas que regulam a expressão gênica durante a etapa de tradução. Esta regulação é feita pelo pareamento de bases com o mRNA-alvo (RNA mensageiro), resultando na supressão da tradução ou na clivagem do mRNA. Se os miRNAs têm como alvo genes supressores de tumor ou oncogenes, podem atuar como supressores tumorais ou oncogenes. OBJETIVO: avaliar a expressão de microRNAs, por PCR em tempo real, no carcinoma mamário ductal invasivo (CDI) com receptores hormonais positivos e HER-2 negativo (luminal A). MÉTODOS: Foram avaliados materiais em parafina de 33 pacientes com tumores luminal A, bem como tecido mamário histologicamente normal. Foram utilizados kit para extração de RNA de amostras fixadas e parafinadas - miRNeasy FFPE; kit para síntese de cDNA - miScript II RT; kit miScript SYBR Green PCR e miScript miRNA PCR Arrays para análise de 84 sequências de miRNA de câncer humano. Analisaram-se dados clínicos, como idade, paridade, amamentação, estado menopausal; variáveis histológicas, como tamanho do tumor, estado linfonodal, invasão linfática; características imunoistoquímicas, como expressão de Ki-67. Para a análise estatística utilizou-se o software miScript miRNA PCR Array Data Analysis, que emprega o método de quantificação relativa ??Ct. RESULTADOS: A análise comparativa dos 33 casos de CDI luminal A com os 15 casos de parênquima mamário normal revelou haver microRNAs hiperexpressos, sendo eles: miR-96-5p (fold-regulation = 9,245, p = 0,000192), miR-182-5p (fold-regulation = 6,4813, p = 0,00024), miR-21-5p (fold-regulation = 6,3129, p = 0,000001), miR- 210-3p (fold-regulation =4,3584, p =0,001002) e. miR-7-5p (fold-regulation = 4,0166, p = 0,036407). Apontou, ainda, microRNAs com hipoexpressão, a saber: miR-204-5p (Fold-regulation = -8,2104, p = 0,000000), miR-125b-5p (Fold-regulation = --6,332, p=0,000000), let-7c-5p (Fold-regulation: -4,5142, p=0,000000) e let-7e-5p (Fold-regulation = -4,059, p = 0,011625): CONCLUSÕES: CDI luminal A apresentou hiperexpressão de miR-96-5p, miR-182-5p, miR-21-5p, miR-210-3p e miR-7-5p. Apontou, ainda, hipoexpressão do miR-204-5p, miR-125b-5p, let-7c-5p e let-7e-5p, permitindo diferenciá-lo do tecido normal / INTRODUCTION: Breast cancer is a genetic disease and the accumulation of molecular alterations in the genome of somatic cells is the basis for cancer progression. Besides having a more favorable natural biology, tumors with high expression of estrogen receptor have a well established targeted therapy. Nevertheless, patients may present with resistance and eventually relapse and death. MicroRNAs (miRNAs) are a class of small non-coding protein molecules that regulate gene expression during the translation stage. This adjustment is made by base pairing with the mRNA (messenger RNA) target resulting in suppression of translation or cleavage of the mRNA. Depending on whether miRNAs target tumor suppressor genes or oncogenes, they can act as tumor suppressors or oncogenes. OBJECTIVE: evaluate the expression of microRNAs by RT-PCR in positive hormonal receptors, negative HER 2 (luminal A) invasive ductal carcinoma (IDC). METHODS: Paraffin embedded tumor material from 33 patients with luminal A IDC, and histologically normal breast tissue. Were used: Kit for RNA extraction from fixed and paraffin embedded samples - miRNeasy FFPE; cDNA synthesis kit - miScript II RT; miScript SYBR Green PCR Kit and miScript miRNA PCR Arrays for analysis of 84 miRNA sequences of human cancer. Clinical data such as age, parity, breastfeeding, menopausal status; histological variables such as tumor size, lymph node status, lymphatic invasion; immunohistochemical characteristics, such as expression of Ki-67, were evaluated. For statistical analysis the miScript miRNA PCR Array Data Analysis software, which uses the method of relative quantification ??Ct, was used. RESULTS: A comparative analysis of 33 cases of luminal A IDC with 15 cases of normal breast parenchyma defined microRNAs overexpressed, as follows: miR-96-5p (fold-regulation = 9,245, p = 0,000192), miR-182-5p (fold-regulation = 6,4813, p = 0,00024), miR-21-5p (fold-regulation = 6,3129, p = 0,000001), miR- 210-3p (fold-regulation =4,3584, p =0,001002) and miR-7-5p (fold-regulation = 4,0166, p = 0,036407). Furthermore, microRNAs with reduced expression, as follows:. miR-204-5p (Fold-regulation = -8,2104, p = 0,000000), miR-125b-5p (Fold-regulation = -6,332, p=0,000000), let-7c-5p (Fold-regulation: -4,5142, p=0,000000) and let-7e-5p (Fold-regulation = -4,059, p = 0,011625): CONCLUSION: Luminal A CDI breast cancer has shown overexpression of miR-96-5p, miR-182-5p, miR-21-5p, miR-210-3p and miR-7-5p. Also has shown,downregulation of miR-204-5p, miR-125b-5p, let-7c-5p e let-7e-5p, allowing differentiating it from normal tissue Carcinoma ductal de mama/genética Carcinoma ductal de mama/patologia Expressão gênica Genes supressores de tumor Imuno-histoquímica Marcadores biológicos de tumor/análise MicroRNAs Neoplasias da mama/patologia Prognóstico Breast neoplasms/pathology Carcinoma ductal breast/genetics Carcinoma ductal breast/pathology Gene expression Genes tumor suppressor Immunohistochemistry MicroRNAs Prognosis Real-time polymerase chain reaction Tumor markers biological/analysis
350	Transcriptional and Posttranscriptional Regulation of the Tumor Suppressor CDC73 in Oral Squamous Cell Carcinoma : Implications for Cancer Therapeutics Rather, Mohammad Iqbal January 2013 (has links) (PDF) CDC73, also known as HRPT2, is a tumour suppressor gene whose expression is lost or downregulated in parathyroid, renal, breast, uterine and gastric cancers. However, the reports regarding the role of CDC73 in oral squamous cell carcinoma (OSCC) are lacking. As part of the Paf1 complex, it remains associated with ribonucleic acid (RNA) polymerase II and is involved in transcript site selection, transcriptional elongation, histone H2B ubiquitination, histone H3 methylation, poly(A) length control and, coupling of transcriptional and posttranscriptional events. It has been reported to negatively regulate cellularproliferation by targeting oncogenes CCND1 (cyclin D1) and MYC (c-Myc). Moreover, it has also been indicated to inhibitβ-catenin-mediated transcription. Taken together, these findings strongly suggest that it contributes to the expression of genes whose products have an important role in the suppression of tumor development and cell death. In this study, we have attempted to study the transcriptional and posttranscriptional regulation of CDC73 and its role in OSCC. The main findings of the present study are listed below. 1. To begin with, the expression analysis of CDC73 was performed both at the RNA and the protein levels by qRT-PCR and IHC, respectively. As expected, a majority of the OSCC samples showed downregulation of CDC73 both at the RNA and the protein levels compared to their normal oral tissues. 2. Loss-of-heterozygosity (LOH), mutation and promoter methylation are the hallmarks of a tumor suppressor gene (TSG). Therefore, to characterize CDC73 as a TSG in OSCC and to look into the mechanisms that could be the cause of CDC73 downregulation in OSCC, LOH, mutation and promoter methylation of CDC73 were studied. The results showed that LOH, mutation and promoter methylation are not the major causes of CDC73 downregulation in OSCC. 3. To identify the alternate mechanisms as the cause of CDC73 downregulation in OSCC, a combination of bioinformatics and molecular approaches were used. The results showed that the upregulation of an inhibitory transcription factor WT1 (Wilms tumor protein 1) and an oncogenic microRNA-155 are the major causes of its downregulation in OSCC. 4. The luciferase reporter assay of SCC131 cells co-transfected with a WT1 construct and a CDC73 promoter construct showed that WT1 over expression represses CDC73 expression in a dose-dependent manner. 5. Due to the presence of zinc fingers in its C-terminal half, WT1 has been found to be a potent transcriptional regulator of genes. Therefore, to determine if WT1 down regulates CDC73 via binding its promoter, the chromatin immunoprecipitation (ChIP) assay was performed. The results showed the binding of WT1 to the CDC73 promoter in vivo. Binding of WT1 to the CDC73 promoter was further confirmed in vitro by the electrophoretic mobility shift assay (EMSA). 6. The 5-aza-2’-deoxycytidine (AZA) treatment of SCC131 cells led to upregulation of WT1 with a concomitant downregulation of CDC73. The COBRA technique demonstrated that the upregulation of WT1 upon the 5-AZA treatment was due to its promoter methylation. 7. To determine if the WT1-mediated reduction of CDC73 expression has a functional relevance in cell growth and proliferation, we knocked down CDC73 expression by transient over expression of WT1 in SCC131 cells and quantitated cell proliferation by the MTT assay. As expected, the results demonstrated that the reduced CDC73 level was associated with an increased cell proliferation. Cotransfection of CDC73 with WT1 in SCC131 cells attenuated the pro-oncogenic effect of WT1 by apoptosis induction. 8. After validating CDC73 as the target of WT1 by bioinformatics and in vitro assays, we quantitated the expression levels of WT1 and CDC73 by qRT-PCR in OSCC samples and their matched normal oral tissue samples. The results showed an inverse correlation between the expression levels of WT1 and CDC73 in a majority of the samples. To exclude the possibility of alternate mechanisms as the cause of CDC73 downregulation in OSCC, we selected a subset of OSCC samples with downregulated level of CDC73 and analysed them for LOH at the CDC73 locus and promoter methylation. Further, some of these OSCC samples were also analyzed for mutations in CDC73. The results showed that these OSCC samples did not have LOH, promoter methylation or any mutation, again validating the fact that CDC73 is a biological target of oncogenic WT1, and the transcriptional repression of CDC73 by WT1 could be a major mechanism for CDC73 downregulation in OSCC. 9. Recent studies have shown that a growing class of noncoding RNAs called microRNAs (miRNAs) is involved in posttranscriptional regulation of genes. There is a growing body of literature supporting the potential role of miRNAs in tumorigenesis. The importance of CDC73 in orchestration of several cellular functions and its role in tumorigenesis make it an attractive candidate for miRNA-mediated regulation of cell growth and proliferation. Using bioinformatics approaches, we identified an oncogenic microRNA-155 (miR-155) that could posttranscriptionally regulate CDC73 expression. 10. Consistent with its oncogenic role, miR-155 was found dramatically upregulated in OSCC samples and was found to be another mechanism for downregulation of CDC73 in a panel of human cell lines and a subset of OSCC samples in the absence of LOH, mutations and promoter methylation. 11. miRNAs regulate posttranscriptional gene expression generally via binding to their cognate sites in the 3’UTR. Therefore, a luciferase reporter construct was made by cloning the 3’UTR of CDC73 downstream to the luciferase reporter gene and the reporter assay was performed. Our experiments clearly indicated that the mature miR-155 regulates CDC73 expression by interacting with its 3’UTR in a site specific manner. 12 Ectopic expression of miR-155 in HEK293 cells dramatically reduced CDC73 levels, enhanced cell viability and decreased apoptosis. Conversely, the delivery of a miR-155 antagonist (antagomir-155) to KB cells over expression miR-155 resulted in increased CDC73 level, decreased cell viability, increased apoptosis and marked regression of engrafts in nude mice. Cotransfection of miR-155 with CDC73 in HEK293 cells abrogated its pro-oncogenic effect. Reduced cell proliferation and increased apoptosis of KB cells were dependent on the presence or absence of the 3’UTR in CDC73. In nutshell, the knockdown of CDC73 expression due to over expression of WT1 and miR-155 not only adds a novelty to the list of mechanisms responsible for its downregulation in different tumors, but the restoration of CDC73 levels by the use of inhibitors to WT1 and antagomir-155 may also have an important role in therapeutic intervention of cancers, including OSCC. CDC73 (Cell Division Cycle 73) Oral Squamous Cell Carcinoma (OSCC) CDC73 Genetic Transcription - Regulation Oral Cancer - Treatment Oncogenes - Oral Cancer Tumor Suppressor Genes Oral Squamous Cell Carcinoma - Treatment CDC73 Gene Expression Protein Coding Genes Cancer - Treatment Oncology

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