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Estudo molecular dos genes GNAS, PTTG, AIP, CDKN1B e MEG3 em adenomas hipofisários esporádicos / Molecular study of GNAS, PTTG, AIP, CDKN1B and MEG3 genes in sporadic pituitary adenomasFoltran, Renata Kikuchi 26 February 2016 (has links)
INTRODUÇÃO: Os adenomas hipofisários são neoplasias benignas que representam cerca de 15% das neoplasias intracranianas. Em sua maioria ocorre de forma esporádica. Estudos moleculares desses adenomas identificaram anormalidades genéticas que podem ter um papel na sua tumorigênese. Dentre alguns desses genes foram descritos os oncogenes GNAS e PTTG e os genes supressores tumorais AIP, CDKN1B e MEG3. OBJETIVO: realizar estudo molecular dos genes associados a tumorigênese através da pesquisa de mutações nos genes GNAS, AIP e CDKN1B e o estudo de expressão gênica de CDKN1B, PTTG e MEG3 em adenomas aparentemente esporádicos, correlacionando com os dados clínicos e laboratoriais, em pacientes acompanhados no serviço de Endocrinologia do HCFMUSP. CASUÍSTICA E MÉTODOS: Compreendeu 96 adenomas hipofisários aparentemente esporádicos: 41 somatotropinomas, 27 corticotropinomas, 21 adenomas clinicamente não funcionantes (ACNF) e 7 prolactinomas. Foi realizada avaliação restrospectiva dos dados clínicos e laboratoriais ao diagnóstico. Após a análise histológica por hematoxilinaeosina, foi realizada análise imunohistoquímica das proteínas Ki-67 e p53 e molecular do DNA genômico e RNA, extraídos do tecido tumoral. Análise mutacional das regiões codificantes de AIP e CDKN1B e dos hotspots de GNAS nos éxons 8 e 9 foi realizada através de amplificação por PCR e sequenciamento automático. A quantificação relativa do RNAm de CDKN1B, MEG3 e PTTG foi avaliada pelo método de 2-??Ct por PCR em tempo real. RESULTADOS: Presença de mutações somáticas no gene GNAS (gsp+) em 14,5% dos adenomas. Não houve diferenças significativas clínicas e laboratoriais entre os adenomas gsp+ e gsp-. Variantes com potencial patogênico não foram identificadas nos genes AIP e CDKN1B. A análise imunohistoquímica do Ki-67 apresentou média de 1,32% (0,9-4,5) e do p53 média de 1,04 (1,0-1,8). O gene CDKN1B apresentou expressão média de ,12 ± 0,74 (0,1-3,1), com expressão mais baixa nos corticotropinomas. O gene PTTG apresentou expressão média de 2,49 ± 3,10 (0,2-19,0), com maior expressão nos corticotropinomas. O gene MEG3 apresentou expressão média de 0,95 ± 1,38 (0,0-8,8), com valores mais baixos nos ACNF. Três padrões de cluster nos níveis de expressão de RNAm dos genes CDKN1B, PTTG e MEG3 foram identificados: cluster A = CDKN1B >= 1,85/ PTTG >= 1,25/ MEG3 >= 0,65 foi observado em 100% dos corticotropinomas; cluster B= CDKN1B >= 0,95/ PTTG >= 2,25/ MEG3 >= 0,65 observado apenas nos somatotropinomas (32%) e o cluster C= CDKN1B >= 0,95/ PTTG >= 1,25/ MEG3 >= 0,05 observado na maioria dos ACNF (73%). CONCLUSÕES: A maioria dos adenomas apresentaram índices de Ki-67 menor do que 3%. Em conformidade com este achado, a imunohistoquímica para p53 não se mostrou estatisticamente significativa. A mutação ativadora na proteína Gs? (gsp+) foi a mutação mais frequente em adenomas hipofisários esporádicos, principalmente em somatotropinomas. Não foram identificadas variantes com potencial patogênico nos genes AIP e CDKN1B, portanto, parece ser um evento raro em adenomas esporádicos. A expressão gênica aumentada do gene PTTG foi identificada principalmente nos corticotropinomas. No entanto, ela não foi preditiva de subtipo de adenoma. A expressão gênica do CDKN1B estava diminuída na maioria dos corticotropinomas e normal na maioria dos somatotropinomas e ACNF. A expressão gênica do MEG3 estava diminuída na maioria dos adenomas ACNF e corticotropinomas e normal na maioria dos somatotropinomas. Na análise de cluster hierárquico, foram identificados três padrões de expressão gênica que se correlacionaram com subtipo de adenoma hipofisário / BACKGROUND: Pituitary adenomas are benign tumors that account for about 15% of intracranial tumors. Mostly occurs sporadically. Molecular studies of these adenomas identified genetic abnormalities that may have a role in tumorigenesis. Some of these genes have been described as the oncogenes GNAS and PTTG and tumor suppressor genes AIP, CDKN1B and MEG3. OBJECTIVE: perform a molecular study of genes related in tumorigenesis to evaluate presence of mutations in GNAS, AIP and CDKN1B genes and gene expression analysis of CDKN1B, PTTG and MEG3 genes in apparently sporadic adenomas, correlating with the clinical and laboratory data from patients treated at the Endocrinology service of HCFMUSP.SUBJECTS AND METHODS: 96 apparently sporadic adenomas was included: 41 somatotropinomas, 27 corticotropinomas, 21 clinically nonfunctioning pituitary adenomas (NFPA) and seven prolactinomas. Retrospective evaluation of clinical and laboratory data from diagnosis. After histological analysis by hematoxylin-eosin staining, it was performed immunohistochemical analysis of Ki -67 and p53 proteins and molecular analysis of genomic DNA and RNA extracted from tumor tissue. Mutational analysis of coding regions of AIP and CDKN1B and hotspots exons 8 and 9 of GNAS was performed by PCR and automatic sequencing. Relative quantification of mRNA CDKN1B, MEG3 and PTTG was evaluated by 2-??Ct method using Real Time PCR. RESULTS: Presence of somatic mutations on GNAS gene (gsp+) in 14,5% of pituitary adenomas. There were no clinical and laboratorial differences between gsp+ and gsp- somatotropinomas. Variants with pathogenic potencial were not identified in AIP and CDKN1B genes. Imunohistochemical analysis showed mean of 1,32% (0,9-4,5) for Ki-67 and mean of 1,04% (1,0-1,8) for p53. Gene expression of CDKN1B presented a mean of 1,12 ± 0,74 (0,1-3,1) with lower expression in corticotropinomas. Gene expression of PTTG presented a mean of 2,49 ± 3,10 (0,2-19,0) with higher expression in corticotropinomas. Gene expression of MEG3 presented a mean of 0,95 ± 1,38 (0,0-8,8) with lower expression in NFPA. Three cluster patterns in the levels of mRNA expression of genes CDKN1B, PTTG and MEG3 were identified: cluster A = CDKN1B >= 1,85/ PTTG >= 1,25/ MEG3 >= 0,65 observed in 100% of corticotropinomas; cluster B= CDKN1B >= 0,95/ PTTG >= 2,25/ MEG3 >= 0,65 observed only in somatotropinomas (32%) and cluster C= CDKN1B >= 0,95/ PTTG >= 1,25/ MEG3 >= 0,05 observed in most of NFPA (73%). CONCLUSIONS: Most of the adenomas showed Ki -67 index lower than 3%. In accordance with this finding, immunohistochemistry for p53 was not statistically significant. The activating mutation in the Gs? protein (gsp+) was the most common mutation in sporadic pituitary adenomas, particularly in somatotropinomas. Variants with pathogenic potential have not been identified in the AIP and CDKN1B gene therefore seems to be a rare event in sporadic adenomas. Increased gene expression of PTTG was primarily identified in corticotropinomas. However, it was not predictive of adenoma subtype. The gene expression of CDKN1B was decreased in most corticotropinomas and normal in most somatotropinomas and NFPA. The gene expression of MEG3 was decreased in most of NFPA and corticotropinomas, and normal in most somatotropinomas. In hierarchical cluster analysis was identified three patterns of gene expression that correlated with pituitary adenoma subtype
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Epigenetic abnormalities of EGFR/STAT/SOCS signaling-associated tumor suppressor genes (TSGs) in tumorigenesis. / 通過擬遺傳學方法鑑定位於EGFR/STAT/SOCS信息內的與腫瘤發病有關的抗癌基因 / Tong guo ni yi chuan xue fang fa jian ding wei yu EGFR/STAT/SOCS xin xi nei de yu zhong liu fa bing you guan de kang ai ji yinJanuary 2009 (has links)
Poon, Fan Fong. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2009. / Includes bibliographical references (leaves 109-124). / Abstract also in Chinese. / Abstract --- p.i / Acknowledgements --- p.v / Table of Content --- p.vi / List of Figures --- p.xi / List of Tables --- p.xiii / List of Abbreviations --- p.xiv / List of papers published during the study --- p.xvi / Chapter Chapter 1 --- Introduction and Aim of Study --- p.1 / Chapter 1.1 --- General Introduction --- p.1 / Chapter 1.2 --- Project objective and potential significances --- p.6 / Chapter Chapter 2 --- Literature Reviews --- p.8 / Chapter 2.1 --- Cancer genetics --- p.8 / Chapter 2.1.1 --- Oncogenes and TSGs --- p.8 / Chapter 2.1.2 --- Kundsońةs two-hit event of cancer gene --- p.9 / Chapter 2.2 --- Cancer Epigenetics --- p.9 / Chapter 2.2.1 --- Types of Epigenetic regulation --- p.10 / Chapter 2.2.2 --- DNA methylation in TSGs --- p.10 / Chapter 2.2.2.1 --- Promoter CpG island in DNA methylation --- p.10 / Chapter 2.2.2.2 --- Protection system in DNA methylation --- p.11 / Chapter 2.2.2.3 --- Transcriptional silencing by DNA methylation --- p.11 / Chapter 2.2.2.4 --- DNA methylation of TSG silencing in cancers --- p.13 / Chapter 2.2.3 --- Hypomethylation of the cancer genome --- p.14 / Chapter 2.2.4 --- Clinical relevance of cancer epigenetic --- p.14 / Chapter 2.3 --- EGFR/STAT/SOCS pathway --- p.15 / Chapter 2.3.1 --- General Introduction of the EGFR pathway --- p.15 / Chapter 2.3.2 --- EGFR survival signaling pathways --- p.16 / Chapter 2.3.3 --- EGFR/STAT/SOCS signaling --- p.17 / Chapter 2.3.4 --- EGFR/STAT/SOCS signaling and cancers --- p.18 / Chapter 2.3.4.1 --- EGF and cancers --- p.18 / Chapter 2.3.4.2 --- EGFR/STAT/SOCS pathway and cancers --- p.18 / Chapter 2.3.4.3 --- EGF survival signaling as a target for cancer therapy --- p.19 / Chapter 2.4 --- TSGs in the EGFR/STAT/SOCS pathway --- p.20 / Chapter 2.4.1 --- Suppressors of cytokine signaling (SOCS) family --- p.20 / Chapter 2.4.2 --- Signal transducers and activators of transcription (STATs) family --- p.22 / Chapter 2.4.3 --- Sprouty (SPRY) family --- p.23 / Chapter 2.4.4 --- Protein Inhibitor of Activated STAT (PIASs) family --- p.25 / Chapter 2.4.5 --- Ras and Rab Interactor (RIN) family --- p.26 / Chapter 2.4.6 --- Ras-association domain family (RASSF) --- p.26 / Chapter 2.4.7 --- Glycine N-methyltransferase (GNMT) --- p.28 / Chapter 2.5 --- Nasopharyngeal carcinoma (NPC) --- p.30 / Chapter 2.5.1 --- Epidemiology of NPC --- p.30 / Chapter 2.5.2 --- Histopathology of NPC --- p.30 / Chapter 2.5.3 --- Genetic and epigenetic alteration in NPC --- p.31 / Chapter 2.5.4 --- EGFR signaling in NPC --- p.32 / Chapter 2.6 --- Esophageal squamous cell carcinoma (ESCC) --- p.33 / Chapter 2.6.1 --- Epidemiology of ESCC --- p.34 / Chapter 2.6.2 --- Histopathology of ESCC --- p.34 / Chapter 2.6.3 --- Genetic and epigenetic alteration in ESCC --- p.35 / Chapter 2.6.4 --- EGFR signaling in ESCC --- p.36 / Chapter Chapter 3 --- Materials and Methods --- p.38 / Chapter 3.1 --- General Materials --- p.38 / Chapter 3.1.1 --- "Cell lines, tumor and normal tissue samples" --- p.38 / Chapter 3.1.2 --- Maintenance of cell lines --- p.38 / Chapter 3.1.3 --- Drugs treatment of cell lines --- p.39 / Chapter 3.1.4 --- Total RNA extraction --- p.39 / Chapter 3.1.5 --- Genomic DNA extraction --- p.40 / Chapter 3.2 --- General techniques --- p.40 / Chapter 3.2.1 --- Agarose gel electrophoresis of DNA --- p.40 / Chapter 3.2.2 --- TA cloning and blunt end cloning of PCR product --- p.40 / Chapter 3.2.3 --- Transformation of cloning products to E. coli competent cells --- p.41 / Chapter 3.2.4 --- Preparation of plasmid DNA --- p.41 / Chapter 3.2.4.1 --- Mini-prep plasmid DNA extraction --- p.41 / Chapter 3.2.4.2 --- Midi-prep of plasmid DNA --- p.42 / Chapter 3.2.5 --- Measurement of DNA or RNA concentrations --- p.42 / Chapter 3.2.6 --- DNA sequencing of plasmid DNA and PCR products --- p.42 / Chapter 3.3 --- Preparation of reagents and medium --- p.43 / Chapter 3.4 --- Semi-quatitative Reverse-Transcription (RT) PCR expression analysis --- p.44 / Chapter 3.4.1 --- Reverse transcriptin reaction --- p.44 / Chapter 3.4.2 --- Semi-quantitative RT-PCR --- p.44 / Chapter 3.4.2.1 --- Primers design --- p.44 / Chapter 3.4.2.2 --- PCR reaction --- p.46 / Chapter 3.5 --- Methylation analysis of candidate genes --- p.47 / Chapter 3.5.1 --- Bisulfite treatment of genomic DNA --- p.47 / Chapter 3.5.2 --- Methylation-specific PCR (MSP) --- p.48 / Chapter 3.5.2.1 --- Bioinformatics prediction of CpG island --- p.48 / Chapter 3.5.2.2 --- Primers design --- p.48 / Chapter 3.5.2.3 --- PCR reaction --- p.49 / Chapter 3.5.3 --- Bisulfite Genomic Sequencing (BGS) --- p.50 / Chapter 3.6 --- Construction of expression vectors of candidate genes --- p.51 / Chapter 3.6.1 --- Sub-cloning of expression vector of candidate genes --- p.51 / Chapter 3.6.1.1 --- Mouse Socsl expression vector --- p.51 / Chapter 3.6.1.2 --- SPRY1 expression vector --- p.51 / Chapter 3.6.1.3 --- GNMT expression vector --- p.52 / Chapter 3.6.2 --- Restriction digestion of cloning vectors and expression --- p.52 / Chapter 3.6.3 --- Ligation of cloning fragments --- p.53 / Chapter 3.6.4 --- Colony formation assay on monolayer culture --- p.53 / Chapter 3.6.5 --- Statistical analysis --- p.54 / Chapter Chapter 4 --- Screening of candidate TSGs in EGFR pathway --- p.55 / Chapter 5.3.3 --- Restoration of GNMT expression by pharmacological demethylation --- p.89 / Chapter 5.3.4 --- Confirmation of the methylation status of GNMT promoter by BGS --- p.90 / Chapter 5.3.5 --- Methylation status of GNMT in ESCC and NPC primary tumors --- p.90 / Chapter 5.3.6 --- GNMT inhibited the growth of tumor cells in-vitro --- p.90 / Chapter 5.3.7 --- Discussion --- p.95 / Chapter Chapter 6 --- General Discussion --- p.100 / Chapter Chapter 7 --- Summary --- p.105 / Chapter Chapter 8 --- Future Study --- p.107 / Reference --- p.109
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Estudo molecular dos genes GNAS, PTTG, AIP, CDKN1B e MEG3 em adenomas hipofisários esporádicos / Molecular study of GNAS, PTTG, AIP, CDKN1B and MEG3 genes in sporadic pituitary adenomasRenata Kikuchi Foltran 26 February 2016 (has links)
INTRODUÇÃO: Os adenomas hipofisários são neoplasias benignas que representam cerca de 15% das neoplasias intracranianas. Em sua maioria ocorre de forma esporádica. Estudos moleculares desses adenomas identificaram anormalidades genéticas que podem ter um papel na sua tumorigênese. Dentre alguns desses genes foram descritos os oncogenes GNAS e PTTG e os genes supressores tumorais AIP, CDKN1B e MEG3. OBJETIVO: realizar estudo molecular dos genes associados a tumorigênese através da pesquisa de mutações nos genes GNAS, AIP e CDKN1B e o estudo de expressão gênica de CDKN1B, PTTG e MEG3 em adenomas aparentemente esporádicos, correlacionando com os dados clínicos e laboratoriais, em pacientes acompanhados no serviço de Endocrinologia do HCFMUSP. CASUÍSTICA E MÉTODOS: Compreendeu 96 adenomas hipofisários aparentemente esporádicos: 41 somatotropinomas, 27 corticotropinomas, 21 adenomas clinicamente não funcionantes (ACNF) e 7 prolactinomas. Foi realizada avaliação restrospectiva dos dados clínicos e laboratoriais ao diagnóstico. Após a análise histológica por hematoxilinaeosina, foi realizada análise imunohistoquímica das proteínas Ki-67 e p53 e molecular do DNA genômico e RNA, extraídos do tecido tumoral. Análise mutacional das regiões codificantes de AIP e CDKN1B e dos hotspots de GNAS nos éxons 8 e 9 foi realizada através de amplificação por PCR e sequenciamento automático. A quantificação relativa do RNAm de CDKN1B, MEG3 e PTTG foi avaliada pelo método de 2-??Ct por PCR em tempo real. RESULTADOS: Presença de mutações somáticas no gene GNAS (gsp+) em 14,5% dos adenomas. Não houve diferenças significativas clínicas e laboratoriais entre os adenomas gsp+ e gsp-. Variantes com potencial patogênico não foram identificadas nos genes AIP e CDKN1B. A análise imunohistoquímica do Ki-67 apresentou média de 1,32% (0,9-4,5) e do p53 média de 1,04 (1,0-1,8). O gene CDKN1B apresentou expressão média de ,12 ± 0,74 (0,1-3,1), com expressão mais baixa nos corticotropinomas. O gene PTTG apresentou expressão média de 2,49 ± 3,10 (0,2-19,0), com maior expressão nos corticotropinomas. O gene MEG3 apresentou expressão média de 0,95 ± 1,38 (0,0-8,8), com valores mais baixos nos ACNF. Três padrões de cluster nos níveis de expressão de RNAm dos genes CDKN1B, PTTG e MEG3 foram identificados: cluster A = CDKN1B >= 1,85/ PTTG >= 1,25/ MEG3 >= 0,65 foi observado em 100% dos corticotropinomas; cluster B= CDKN1B >= 0,95/ PTTG >= 2,25/ MEG3 >= 0,65 observado apenas nos somatotropinomas (32%) e o cluster C= CDKN1B >= 0,95/ PTTG >= 1,25/ MEG3 >= 0,05 observado na maioria dos ACNF (73%). CONCLUSÕES: A maioria dos adenomas apresentaram índices de Ki-67 menor do que 3%. Em conformidade com este achado, a imunohistoquímica para p53 não se mostrou estatisticamente significativa. A mutação ativadora na proteína Gs? (gsp+) foi a mutação mais frequente em adenomas hipofisários esporádicos, principalmente em somatotropinomas. Não foram identificadas variantes com potencial patogênico nos genes AIP e CDKN1B, portanto, parece ser um evento raro em adenomas esporádicos. A expressão gênica aumentada do gene PTTG foi identificada principalmente nos corticotropinomas. No entanto, ela não foi preditiva de subtipo de adenoma. A expressão gênica do CDKN1B estava diminuída na maioria dos corticotropinomas e normal na maioria dos somatotropinomas e ACNF. A expressão gênica do MEG3 estava diminuída na maioria dos adenomas ACNF e corticotropinomas e normal na maioria dos somatotropinomas. Na análise de cluster hierárquico, foram identificados três padrões de expressão gênica que se correlacionaram com subtipo de adenoma hipofisário / BACKGROUND: Pituitary adenomas are benign tumors that account for about 15% of intracranial tumors. Mostly occurs sporadically. Molecular studies of these adenomas identified genetic abnormalities that may have a role in tumorigenesis. Some of these genes have been described as the oncogenes GNAS and PTTG and tumor suppressor genes AIP, CDKN1B and MEG3. OBJECTIVE: perform a molecular study of genes related in tumorigenesis to evaluate presence of mutations in GNAS, AIP and CDKN1B genes and gene expression analysis of CDKN1B, PTTG and MEG3 genes in apparently sporadic adenomas, correlating with the clinical and laboratory data from patients treated at the Endocrinology service of HCFMUSP.SUBJECTS AND METHODS: 96 apparently sporadic adenomas was included: 41 somatotropinomas, 27 corticotropinomas, 21 clinically nonfunctioning pituitary adenomas (NFPA) and seven prolactinomas. Retrospective evaluation of clinical and laboratory data from diagnosis. After histological analysis by hematoxylin-eosin staining, it was performed immunohistochemical analysis of Ki -67 and p53 proteins and molecular analysis of genomic DNA and RNA extracted from tumor tissue. Mutational analysis of coding regions of AIP and CDKN1B and hotspots exons 8 and 9 of GNAS was performed by PCR and automatic sequencing. Relative quantification of mRNA CDKN1B, MEG3 and PTTG was evaluated by 2-??Ct method using Real Time PCR. RESULTS: Presence of somatic mutations on GNAS gene (gsp+) in 14,5% of pituitary adenomas. There were no clinical and laboratorial differences between gsp+ and gsp- somatotropinomas. Variants with pathogenic potencial were not identified in AIP and CDKN1B genes. Imunohistochemical analysis showed mean of 1,32% (0,9-4,5) for Ki-67 and mean of 1,04% (1,0-1,8) for p53. Gene expression of CDKN1B presented a mean of 1,12 ± 0,74 (0,1-3,1) with lower expression in corticotropinomas. Gene expression of PTTG presented a mean of 2,49 ± 3,10 (0,2-19,0) with higher expression in corticotropinomas. Gene expression of MEG3 presented a mean of 0,95 ± 1,38 (0,0-8,8) with lower expression in NFPA. Three cluster patterns in the levels of mRNA expression of genes CDKN1B, PTTG and MEG3 were identified: cluster A = CDKN1B >= 1,85/ PTTG >= 1,25/ MEG3 >= 0,65 observed in 100% of corticotropinomas; cluster B= CDKN1B >= 0,95/ PTTG >= 2,25/ MEG3 >= 0,65 observed only in somatotropinomas (32%) and cluster C= CDKN1B >= 0,95/ PTTG >= 1,25/ MEG3 >= 0,05 observed in most of NFPA (73%). CONCLUSIONS: Most of the adenomas showed Ki -67 index lower than 3%. In accordance with this finding, immunohistochemistry for p53 was not statistically significant. The activating mutation in the Gs? protein (gsp+) was the most common mutation in sporadic pituitary adenomas, particularly in somatotropinomas. Variants with pathogenic potential have not been identified in the AIP and CDKN1B gene therefore seems to be a rare event in sporadic adenomas. Increased gene expression of PTTG was primarily identified in corticotropinomas. However, it was not predictive of adenoma subtype. The gene expression of CDKN1B was decreased in most corticotropinomas and normal in most somatotropinomas and NFPA. The gene expression of MEG3 was decreased in most of NFPA and corticotropinomas, and normal in most somatotropinomas. In hierarchical cluster analysis was identified three patterns of gene expression that correlated with pituitary adenoma subtype
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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 negativoMendes, 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
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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 negativoDaniele 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
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Caracterização da expressão de microRNAS em carcinoma de mama triplo negativo / Characterization of the expression of microRNAs in triple negative breast carcinomaCalvano Filho, Carlos Marino Cabral 22 July 2014 (has links)
INTRODUÇÃO: 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. A depender se os miRNAs têm como alvo genes supressores de tumor ou oncogenes, eles podem atuar como supressores tumorais ou oncogenes. A imunoistoquímica triplo negativa, no câncer de mama, é, comumente, utilizada como substituto clínico para identificação dos tumores basaloides, que se caracterizam pela expressão de genes epiteliais basais, sendo associados a menores taxas de sobrevida livre de doença e sobrevida global. O câncer de mama triplo negativo faz com que seja necessária a descoberta de marcadores moleculares que possam servir de alvos terapêuticos ou, pelo menos, que sirvam como marcadores preditivos da resposta aos quimioterápicos. OBJETIVO: avaliar a expressão de microRNAs, por PCR em tempo real, no carcinoma mamário ductal invasivo (CDI) triplo negativo. MÉTODOS: Foram avaliados materiais em parafina de tumor de 31 pacientes com as seguintes características: carcinoma invasivo de mama, receptores de estrogênio e de progesterona negativos e HER 2 negativo, 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. Foram avaliados dados clínicos, como idade, paridade, amamentação, status menopausal; variáveis histológicas, como tamanho do tumor, status linfonodal, invasão linfática; características imunoistoquímicas, como expressão de Ki-67, EFGR e CK 5/6. O seguimento das pacientes buscou verificar a ocorrência e o tempo de aparecimento de recidiva loco regional, metástase à distância e óbito. Para análise estatística foi utilizado o software miScript miRNA PCR Array Data Analysis, que utiliza o método de quantificação relativa DeltaCt. RESULTADOS: A análise comparativa dos 31 casos de CDI triplo negativo com os 18 casos de parênquima mamário normal definiu microRNAs hiperexpressos, sendo eles: miR-96-5p (fold-regulation(FR) = 9,68, p = 0,000008), miR-21-5p (FR = 4,47, p = 0,00), miR-7-5p (FR = 5,8, p = 0,00137) , miR-182-5p (FR= 7,92, p = 0,000001), miR-210-3p (FR = 11,83, p = 0,000048), miR-18a-5p (FR = 9,51, p = 0,000034), miR-155-5p (FR= 4,40 , p = 0,00019) e miR-93-5p (FR= 4,15, p = 0,000023). Aponta, ainda, microRNAs com hipoexpressão, a saber: miR-204-5p (FR = -10,26, p = 0), miR-205-5p (FR= -4,07, p = 0,019822), miR-125b-5p (FR= -4,29, p=0) e let 7c-5p (FR= -4,91, p=0). CONCLUSÃO: a expressão de microRNAs no carcinoma ductal invasivo triplo negativo permite diferenciá-lo do tecido normal / INTRODUCTION: 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. The triple negative immunohistochemistry in breast cancer is commonly used as a substitute for clinical identification of basaloid tumors, which are characterized by the expression of basal epithelial genes and are associated with lower rates of disease-free survival and overall survival. The triple negative breast cancer makes necessary the discovery of molecular markers that may serve as therapeutic targets or at least as predictive markers of response to chemotherapy. OBJECTIVE: evaluate the expression of microRNAs by RT-PCR in triple negative breast invasive ductal carcinoma (IDC). METHODS: Paraffin embedded tumor material from 31 patients with the following characteristics were evaluated: invasive breast carcinoma, negative estrogen and progesterone receptor, negative HER 2, 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, EFGR and CK 5/6 were evaluated. The follow-up of patients aimed to verify the occurrence and time of appearance of loco regional recurrence, distant metastasis and death. For statistical analysis the miScript miRNA PCR Array Data Analysis software, which uses the method of relative quantification DeltaCt, was used. RESULTS: A comparative analysis of 31 cases of triple negative IDC with 18 cases of normal breast parenchyma defined microRNAs overexpressed, as follows: miR-96-5p (fold-regulation (FR) = 9.68, p = 0.000008), miR -21-5p (FR = 4.47, p = 0.00), 5p, miR-7 (FR = 5.8, p = 0.00137), miR-182-5p (FR = 7.92, p = 0.000001), miR-210-3p (FR = 11.83, p = 0.000048), miR-18a-5p (FR = 9.51, p = 0.000034), miR-155-5p (FR = 4.40, p = 0.00019) and miR-93-5p (FR = 4.15, p = 0.000023). Furthermore, microRNAs with reduced expression, as follows: miR-204-5p (FR = -10.26, p = 0), miR-205-5p (FR = -4.07, p = 0.019822), miR -125b-5p (FR = -4.29, p = 0) and Let-7c 5p (FR = -4.91, p = 0). CONCLUSION: the expression of microRNAs in triple negative invasive ductal carcinoma allows to differentiate it from normal tissue
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Caracterização da expressão de microRNAS em carcinoma de mama triplo negativo / Characterization of the expression of microRNAs in triple negative breast carcinomaCarlos Marino Cabral Calvano Filho 22 July 2014 (has links)
INTRODUÇÃO: 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. A depender se os miRNAs têm como alvo genes supressores de tumor ou oncogenes, eles podem atuar como supressores tumorais ou oncogenes. A imunoistoquímica triplo negativa, no câncer de mama, é, comumente, utilizada como substituto clínico para identificação dos tumores basaloides, que se caracterizam pela expressão de genes epiteliais basais, sendo associados a menores taxas de sobrevida livre de doença e sobrevida global. O câncer de mama triplo negativo faz com que seja necessária a descoberta de marcadores moleculares que possam servir de alvos terapêuticos ou, pelo menos, que sirvam como marcadores preditivos da resposta aos quimioterápicos. OBJETIVO: avaliar a expressão de microRNAs, por PCR em tempo real, no carcinoma mamário ductal invasivo (CDI) triplo negativo. MÉTODOS: Foram avaliados materiais em parafina de tumor de 31 pacientes com as seguintes características: carcinoma invasivo de mama, receptores de estrogênio e de progesterona negativos e HER 2 negativo, 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. Foram avaliados dados clínicos, como idade, paridade, amamentação, status menopausal; variáveis histológicas, como tamanho do tumor, status linfonodal, invasão linfática; características imunoistoquímicas, como expressão de Ki-67, EFGR e CK 5/6. O seguimento das pacientes buscou verificar a ocorrência e o tempo de aparecimento de recidiva loco regional, metástase à distância e óbito. Para análise estatística foi utilizado o software miScript miRNA PCR Array Data Analysis, que utiliza o método de quantificação relativa DeltaCt. RESULTADOS: A análise comparativa dos 31 casos de CDI triplo negativo com os 18 casos de parênquima mamário normal definiu microRNAs hiperexpressos, sendo eles: miR-96-5p (fold-regulation(FR) = 9,68, p = 0,000008), miR-21-5p (FR = 4,47, p = 0,00), miR-7-5p (FR = 5,8, p = 0,00137) , miR-182-5p (FR= 7,92, p = 0,000001), miR-210-3p (FR = 11,83, p = 0,000048), miR-18a-5p (FR = 9,51, p = 0,000034), miR-155-5p (FR= 4,40 , p = 0,00019) e miR-93-5p (FR= 4,15, p = 0,000023). Aponta, ainda, microRNAs com hipoexpressão, a saber: miR-204-5p (FR = -10,26, p = 0), miR-205-5p (FR= -4,07, p = 0,019822), miR-125b-5p (FR= -4,29, p=0) e let 7c-5p (FR= -4,91, p=0). CONCLUSÃO: a expressão de microRNAs no carcinoma ductal invasivo triplo negativo permite diferenciá-lo do tecido normal / INTRODUCTION: 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. The triple negative immunohistochemistry in breast cancer is commonly used as a substitute for clinical identification of basaloid tumors, which are characterized by the expression of basal epithelial genes and are associated with lower rates of disease-free survival and overall survival. The triple negative breast cancer makes necessary the discovery of molecular markers that may serve as therapeutic targets or at least as predictive markers of response to chemotherapy. OBJECTIVE: evaluate the expression of microRNAs by RT-PCR in triple negative breast invasive ductal carcinoma (IDC). METHODS: Paraffin embedded tumor material from 31 patients with the following characteristics were evaluated: invasive breast carcinoma, negative estrogen and progesterone receptor, negative HER 2, 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, EFGR and CK 5/6 were evaluated. The follow-up of patients aimed to verify the occurrence and time of appearance of loco regional recurrence, distant metastasis and death. For statistical analysis the miScript miRNA PCR Array Data Analysis software, which uses the method of relative quantification DeltaCt, was used. RESULTS: A comparative analysis of 31 cases of triple negative IDC with 18 cases of normal breast parenchyma defined microRNAs overexpressed, as follows: miR-96-5p (fold-regulation (FR) = 9.68, p = 0.000008), miR -21-5p (FR = 4.47, p = 0.00), 5p, miR-7 (FR = 5.8, p = 0.00137), miR-182-5p (FR = 7.92, p = 0.000001), miR-210-3p (FR = 11.83, p = 0.000048), miR-18a-5p (FR = 9.51, p = 0.000034), miR-155-5p (FR = 4.40, p = 0.00019) and miR-93-5p (FR = 4.15, p = 0.000023). Furthermore, microRNAs with reduced expression, as follows: miR-204-5p (FR = -10.26, p = 0), miR-205-5p (FR = -4.07, p = 0.019822), miR -125b-5p (FR = -4.29, p = 0) and Let-7c 5p (FR = -4.91, p = 0). CONCLUSION: the expression of microRNAs in triple negative invasive ductal carcinoma allows to differentiate it from normal tissue
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