Investigating Cancer Molecular Genetics using Genome-wide RNA Interference Screens: A Dissertation

Serra, Ryan W.

17 June 2013

The development of RNAi based technologies has given researchers the tools to interrogate processes as diverse as cancer biology, metabolism and organ development. Here I employ genome-wide shRNA screens to discover the genes involved in two different processes in carcinogenesis, oncogene-induced senescence [OIS] and epigenetic silencing of tumor suppressor genes [TSGs]. OIS is a poorly studied yet significant tumor suppressing mechanism in normal cells where they enter cell cycle arrest [senescence] or programmed cell death [apoptosis] in the presence of an activated oncogene. Here I employ a genomewide shRNA screen and identify a secreted protein, IGFBP7, that induces senescence and apoptosis in melanocytes upon introduction of the oncogene BRAFV600E. Expression of BRAFV600E in primary cells leads to synthesis and secretion of IGFBP7, which acts through autocrine/paracrine pathways to inhibit BRAF-MEK-ERK signaling and induce senescence and apoptosis. Apoptosis results from IGFBP7-mediated upregulation of BNIP3L, a proapoptotic BCL2 family protein. Recombinant IGFBP7 has potent pro-apoptotic and anti-tumor activity in mouse xenograft models using BRAFV600E-postive melanoma cell lines. Finally, IGFBP7 is epigenetically silenced in human melanoma samples suggesting IGFBP7 expression is a key barrier to melanoma formation. Next I investigated the factors involved in epigenetic silencing in cancer. The TSG p14ARFis inactivated in a wide range of cancers by promoter hypermethylation through unknown mechanisms. To discover p14ARF epigenetic silencing factors, I performed a genome-wide shRNA screen and identified ZNF304, a zinc finger transcription factor that contains a Krüppel-associated box [KRAB] repressor domain. I show that ZNF304 binds to the p14ARF promoter and recruits a KRAB co-repressor complex containing KAP1, SETDB1 and DNMT1 for silencing. We find oncogenic RAS signaling to promote the silencing of p14ARF by USP28-mediated stabilization of ZNF304. In addition I find ZNF304 to be overexpressed in human colorectal cancers and responsible for hypermethylation of over 50 TSGs known as Group 2 CIMP marker genes. My findings establish ZNF304 as a novel oncogene that directs epigenetic silencing and facilitates tumorigenicity in colorectal cancer.

Carcinogenesis

RNA Interference

Tumor Suppressor Genes

Cell Aging

Transcription Factors

Dissertations, UMMS

Genes, Tumor Suppressor

Cancer Biology

Molecular Genetics

Human umbilical cord matrix mesenchymal stem cells suppress the growth of breast cancer by expression of tumor suppressor genes

Ohta, Naomi

January 1900

Master of Science / Department of Anatomy and Physiology / Masaaki Tamura / Previous studies have shown that both human and rat umbilical cord matrix mesenchymal stem cells (UCMSC) possess the ability to control the growth of breast carcinoma cells. Comparative analysis of two types of UCMSC suggest that rat UCMSC-dependent growth regulation is significantly stronger than that of human UCMSC. Accordingly, the present study was designed to clarify their different tumoricidal abilities by analyzing gene expression profiles in two types of UCMSC. Gene expression profiles were studied by microarray analysis using Illumina HumanRef-8-V2 and RatRef-12 BeadChip for the respective UCMSC. The gene expression profiles were compared to untreated naïve UCMSC and those co-cultured with species-matched breast carcinoma cells; human UCMSC vs. MDA-231 human carcinoma cells and rat UCMSC vs. Mat B III rat carcinoma cells. The following selection criteria were used for the screening of candidate genes associated with UCMSC-dependent tumoricidal ability; 1) gene expression difference should be at least 1.5 fold between naive UCMSC and those co-cultured with breast carcinoma cells; 2) they must encode secretory proteins and 3) cell growth regulation-related proteins. These analyses screened 17 common genes from human and rat UCMSC. The comparison between the two sets of gene expression profiles identified that two tumor suppressor genes, adipose-differentiation related protein (ADRP) and follistatin (FST), were specifically up-regulated in rat UCMSC, but down-regulated in human UCMSC when they were co-cultured with the corresponding species’ breast carcinoma cells. The suppression of either protein by the addition of a specific neutralizing antibody in co-culture of rat UCMSC with Mat B III cells significantly abrogated UCMSC ability to attenuate the growth of carcinoma cells. Over-expression of both genes by adenovirus vector in human UCMSC enhanced their 4 ability to suppress the growth of MDA-231 cells. In the breast carcinoma lung metastasis model generated with MDA-231 cells, systemic treatment with FST-over-expressing human UCMSC significantly attenuated the tumor burden. These results suggest that both ADRP and FST may play important roles in exhibiting stronger tumoricidal ability in rat UCMSC than human UCMSC and imply that human UCMSC can be transformed into stronger tumoricidal cells by enhancing tumor suppressor gene expression.

Breast cancer

Follistatin

Microarray analysis

Tumor suppressor genes expression

Adipose differentiation related protein

Cellular Biology (0379)

Studium inaktivace tumor supresorových genů zúčastněných v patogenezi sporadických nádorových onemocnění. / Inactivation of tumor suppressor genes contributing to pathogenesis of sporadic cancers.

Zdařilová, Klára

January 2015

Protein product tumor suppressor PALB2 gene plays a major role in pathway of DNA repair of double-strand breaks throught the homologous recombination mechanism. Significance of its pathogenic variants in hereditary forms of breast cancer in BRCA1/2- negative patients in families with multiple breast cancers may be in the Czech Republic comparable with the BRCA2 gene. A role of the PALB2 gene in sporadic breast cancer occurence, which represent 90 - 95 % of all cancers, is still unknown. This thesis focuses on inactivation pathway of tumor suppressor PALB2 in the sporadic breast cancer by a mechanism of allelic loss detecting by loss of heterozygosity (LOH) of corresponding microsatellite markers and hypermethylation of promoter region as the most common mechanisms of inactivation tumor suppressors in early tumorigenesis. In a group of 51 nonselected patients with sporadic breast cancer we found four samples with PALB2 locus allelic loss. These samples were analyzed for somatic mutations. No mutation was found. There is no evidence of promotor hypermethylation in any of the samples. Our data suggest a role of the PALB2 gene inactivation in a minority group of sporadic breast cancers.

Caracterização do genoma e da resposta imune no microambiente tumoral de neoplasias PTEN-deficientes / Characterization of the genome and immune response in the tumor microenvironment of PTEN-deficient cancers

Vidotto, Thiago

22 March 2019

Alterações no genoma de células tumorais são eventos comuns durante a carcinogênese. Tais aberrações genômicas - como mutações e variações estruturais - são diretamente relacionadas a detecção e morte de células neoplásicas pelo sistema imune. Além da contribuição da perda de função de genes supressores tumorais (GSTs) no desenvolvimento neoplásico, GSTs também influenciam a resposta imune no câncer. Por exemplo, o GST PTEN afeta diretamente a via interferon através da desfosforilação do fator regulador de interferon 3 (IRF3). No entanto, se mantém inconclusivo se a inativação de PTEN diretamente influencia a resposta imune através de IRF3 ou por provocar altos níveis de instabilidade genômica. Para responder essa questão, conduzimos uma análise PanCancer de 33 tipos tumorais da coorte The Cancer Genome Atlas para identificar se existem associações entre a inativação do gene PTEN e alterações genômicas específicas que podem suprimir ou ativar a resposta imune antitumoral. O status de inativação de PTEN foi determinado a partir de dados de variação no número de cópias e presença de mutações de ponto. Nesse estudo, investigamos o efeito da inativação de PTEN nas alterações genômicas de tumores e na abundância de 22 células do sistema imune derivadas do algoritmo CIBERSORT. Observamos que a inativação de PTEN foi significantemente associada com níveis elevados de aneuploidia, mutações, e heterogeneidade intratumoral. Além disso, nossos achados mostraram que a inativação de PTEN é altamente específica para cada tipo tumoral. Da mesma maneira, observamos que pacientes com tumores PTEN-inativos podem apresentar variações na resposta a imunoterapia. Tal observação deriva da correlação significativa entre a inativação de PTEN e a expressão dos alvos terapêuticos proteína programada 1 da morte celular (PD1), seu ligante (PDL1), e indoleamina 2,3 dioxigenase (IDO1). Na análise PanCancer, a inativação de PTEN também foi significativamente associada à composição de células do sistema imune no microambiente tumoral, incluindo células T regulatórias (Treg) e células CD8+. A partir desses achados, conduzimos uma análise aprofundada de tumores de próstata primários e metastáticos com a perda de PTEN. Através de uma análise in silico, nós observamos que tumores primários e metastáticos apresentam maiores densidades de Treg quando há perda da proteína PTEN. Nós também observamos que, dependendo do local de metástase prostática, a deficiência de PTEN é associada a um perfil de células imunes supressivas no microambiente tumoral. A partir da análise de uma coorte brasileira composta por 94 tumores primários de próstata, observamos que a perda de PTEN se associa a uma maior densidade de Tregs e uma maior expressão da proteína imunossupressora IDO1. Além disso, tumores PTEN-deficientes com altas densidades de Tregs apresentaram o pior prognóstico entre pacientes. Coletivamente, nós demonstramos que a inativação de PTEN é associada a um estado imunossuprimido no microambiente tumoral. Ademais, a perda de PTEN possivelmente se associa a resposta imune antitumoral através da combinação de duas diferentes vias - uma dependente de IRF3 e outra relacionada ao efeito no genoma de células cancerosas. Ensaios funcionais são necessários para validar os achados desse estudo; porém, sugerimos que a avaliação do status de inativação de PTEN pode ter alto potencial para discernir pacientes que responderão à imunoterapia. / Cancer-cell genomes undergo several abnormalities during carcinogenesis. Indeed, many of the tumor-specific genomic changes, such as mutations and chromosomal aberrations, are related to how the host immune system responds to detect and kill tumor cells. In addition to these general effects, loss of function of specific tumor suppressor genes (TSG) contributes to tumor development and progression and at the same time also regulates several facets of the immune response in cancer. For instance, the TSG phosphatase and tensin homolog (PTEN) was shown to directly regulate the anti-viral interferon response by licensing the interferon regulatory factor 3 (IRF3). However, it is still unclear whether PTEN directly influences the immune response through the interferon network or by provoking higher levels of genomic instability. To address this question, we conducted a PanCancer analysis of 33 tumor types from The Cancer Genome Atlas to determine whether there were associations between PTEN inactivation and specific genomic features that are linked to immunosuppressive states in cancer. PTEN inactivation status was determined by combining copy number and point mutation data. Then, we performed a parallel analysis of genomic instability and immune-cell abundances derived from the CIBERSORT algorithm comparing PTEN deficient to intact tumors. We found that PTEN inactivation was strongly associated with enhanced levels of aneuploidy, mutation load, immunogenic mutations, and tumor heterogeneity. Furthermore, we found that the outcome of PTEN inactivation status was highly specific to each tumor type and the induced changes appeared to lead to variation in immune responses in different cancers. Response to current immunotherapeutic approaches depends on the expression of targeted immune checkpoints, and we found that tumors with PTEN deficiency had altered expression of programmed death protein 1 (PD1), its ligand (PDL1), and the immunosuppressive protein indoleamine 2,3-dioxygenase (IDO1). We also found that PTEN inactivation led to a distinct immune-cell composition in the tumor microenvironment, including regulatory T cells and CD8+ T cells. Lastly, we performed an in-depth analysis of the immune-cell content of prostate tumors that harbored PTEN protein loss. Through an in silico analysis of 622 tumors, we found that both primary and metastatic lesions had higher densities of regulatory T cells when PTEN was lost. Then, the analysis of 94 primary prostate tumors from Brazil demonstrated that PTEN protein loss was significantly associated with high Treg density and IDO1 protein expression. Moreover, PTEN-null tumors with high Treg density exhibited the worse outcome among patients. We also found that, depending on the prostate cancer metastatic site, PTEN deficiency was linked to variation in the immunosuppressive immune cell landscape. Collectively, we show that PTEN inactivation associates with the anti-tumor immune response likely through direct avenues (via licensing of IRF3) and indirectly by influencing the genome of cancer cells. Functional studies are required to validate our in silico findings; however, we speculate that determining PTEN inactivation status may allow clinicians to distinguish patients that are more likely to respond to current immunotherapies.

Aneuploidia

Aneuploidy

Checkpoint imune

Gene supressor tumoral

Genomic instability

Immune checkpoint

Immune response

Instabilidade genômica

PanCancer

PanCancer

PTEN

Resposta imune

Tumor suppressor genes

Caracterização molecular e funcional de células de tumores adrenocorticais humanos. / Molecular and functional characterization of human adrenocortical cell cultures.

Rodrigues, Amanda Teixeira

14 August 2014

O Adenoma adrenocortical é frequente em adultos, já o carcinoma é raro e agressivo. Mesmo com critérios padronizados, ainda há dificuldade para diferenciar esses tumores, sendo necessário o estudo de marcadores eficientes na detecção e diferenciação. Por serem raros e com diversas manifestações clínicas, culturas in vitro pode ser uma ferramenta para o estudo de processos que envolvem a doença. Foi realizada a caracterização molecular e funcional de culturas de células de tumores de pacientes. Resultados de PCR Array não mostraram um padrão que diferenciasse as culturas em função dos diagnósticos. Desta análise, 7 oncogenes apresentaram maior expressão e 9 supressores de tumor apresentaram baixa expressão nas culturas. WWOX, FHIT e TP73 foram validados por qPCR e a sugestiva interação entre esses fatores nos tumores adrenocorticais merecem futuras investigações. O potencial funcional das culturas T83-ACC, T36-REC e T7-ACA(P) foram evidenciados, e mostraram que podem ser bons modelos para estudo da ação de hormônios e seus mecanismos. / The adrenocortical adenoma is common in adults, since carcinoma is rare and aggressive. Even with standardized scores, it is still difficult to differentiate these tumors, the study of efficient markers in the detection and differentiation is necessary. Because they are rare and diverse clinical manifestations in vitro cultures can be a tool for the study of disease processes that involve. Molecular and functional characterization of cultured tumor cells of patients was conducted. PCR Array results did not show a pattern that differentiates cultures on the basis of diagnoses. This analysis showed higher expression 7 oncogenes and tumor suppressors 9 showed low expression in cultures. WWOX, FHIT and TP73 were validated by qPCR and suggestive interaction between these factors in adrenocortical tumors deserve further investigation. The functional potential of T83-ACC, T36-REC and T7-ACA(P) cell cultures were found, and shown confirm that they can be good models for studying the action of hormones and their mechanisms.

Adrenocortical tumor

Cell cultures

Culturas de células

Esteroidogênese

Expressão gênica

Gene expression

Genes supressores de tumor

Oncogenes

Oncogenes

Steroidogenesis

Tumor adrenocortical

Tumor suppressor genes

Análise do status somático dos genes MEN1, AIP e p27Kip1 em tumores de pacientes com neoplasia endócrina múltipla tipo 1 / Analysis of the status of somatic and p27Kip1 genes in tumors from patients with multiple endocrine neoplasia type 1

Moraes, Michelle Buscarilli de

06 June 2012

Aproximadamente 80% dos casos com Neoplasia endócrina múltipla tipo 1 (NEM1) possuem mutações germinativas no gene supressor de tumor MEN1, que os predispõem a tumores nas glândulas paratireóides, pâncreas endócrino e hipófise, além de outros tumores não endócrinos. A tumorigênese dos mais de 20 diferentes tipos de neoplasias já descritas na NEM1 ocorre pela presença da mutação germinativa MEN1 associadas a um segundo evento mutacional nas células desses tecidos, levando à perda de heterozigose (LOH) do locus do gene MEN1 (11q13) e à inativação da proteína supressora de tumor codificada por esse gene, a proteína MENIN. Recentemente, mutações germinativas em outros genes foram descritas em casos com NEM1 sem mutações no gene MEN1. Esses novos genes (CDKN1A, CDKN1B, CDNK2B e CDKN2C) codificam proteínas envolvidas no controle do ciclo celular (p21, p27, p15 e p18), chamadas proteínas inibidoras de quinases dependentes de ciclinas. Outro gene, chamado AIP, que codifica uma proteína chaperona de mesmo nome, também foi recentemente descrito associado à NEM1. Esses trabalhos descreveram o papel desses novos genes na NEM1, em nível germinativo, entretanto não esclareceu se esses novos genes estão inativados nos tumores de pacientes com NEM1 com mutação MEN1. O presente estudo investigou, pela primeira vez, o status somático do gene p27Kip1 em pacientes com mutação MEN1 e identificou quatro possíveis perda de heterozigose (LOH) em tumores de paratireóides e pâncreas, sugerindo que além de 11q13LOH, os tumores NEM1 podem sofrer raras perdas adicionais do gene supressor tumoral p27Kip1. Essas são as primeiras evidências na literatura de um processo de tumorigênese multi-step na NEM1, envolvendo três eventos genéticos: 1- Mutação germinativa MEN1; 2- 11q13-LOH; 3- Perda somática do gene supressor de tumor p27Kip1/CDKN1B / Approximately 80% of cases with multiple endocrine neoplasia type 1 (MEN1) harbor a germline mutation in the tumor suppressor gene MEN1, which predisposes these patients to tumors comprehending the parathyroid and pituitary glands, endocrine pancreas and others non-endocrine tumors. The tumorigenesis of the more than 20 different types of tumors already described in the MEN1 syndrome occurs due to a MEN1 germline mutation associated with a second mutational event in the cells of these tissues, leading to loss of heterozygosity (LOH) of the MEN1 gene locus (11q13) and therefore inactivation of tumor suppressor protein encoded by this gene, MENIN protein. Recently, germline mutations in other genes have been described in cases with MEN1 without any detectable mutations in the MEN1 gene. These novel genes (CDKN1A, CDKN1B, CDNK2B and CDKN2C) encode proteins involved in the control of the cell cycle (p21, p27, p15 and p18), called cyclin dependent kinases inhibitors. Another gene, called AIP, which encodes a chaperon protein with the same name, was recently described associated with MEN1 phenotypes. These data described a role for these novel genes in the germline level, however whether they are inactivated in tumors of patients with MEN1 mutation is so far not clarified. The present study investigated for the first time, the somatic status of p27KIP1 gene mutation in patients with MEN1 and identified four possible loss of heterozygosity (LOH) in tumors of the parathyroid and pancreas, suggesting that in addition 11q13-LOH, MEN1 tumors may suffer rare loss additional tumor suppressor gene p27KIP1. These are the first evidence in the literature of a process of tumorigenesis in MEN1 multi-step, involving three genetic events: 1-MEN1germlinemutation; 2-11q13LOH; 3-Loss of somatic tumor suppressor gene p27Kip1/CDKN1B

Genes supressores de tumores

Loss of heterozygosity

Multiple endocrine neoplasia type 1

Neoplasia endócrina múltipla tipo 1

Perda de heterozigosidade

Tumor suppressor genes

Tumores/análise

Tumors/analysis

Lack of Point Mutations in Exons 11–23 of the Retinoblastoma Susceptibility Gene RB-1 in Liver Metastases of Colorectal Carcinoma

Hildebrandt, Bert, Heide, I., Thiede, Christian, Nagel, S., Dieing, Annette, Jonas, S., Neuhaus, Peter, Rochlitz, Christoph, Riess, Hanno, Neubauer, Andreas

12 February 2014

Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Gen

Retinoblastom

Tumorsuppressoren

Neoplasma

Kolorektales Karzinom

Darmkrebs

Leber

SSCP

Genes

Retinoblastoma

Tumor suppressor genes

Neoplasms

Colorectal cancer

Liver

ddc:610

rvk:XA 10000

Monossomia do cromossomo E3 em felinos FeLV positivos com neoplasias hematopoiéticas / E3 chromosome monosomy in FeLV positive felines with hematopoietic neoplasms

Centenaro, Vanessa Bridi

06 September 2017

Hematopoietic tumors are the most common neoplastic disorders in felines. Many of these tumors are associated with infection by feline leukemia virus (FeLV) and one of the described mechanisms is the integration of viral material into the feline genome, which can lead to genomic instability and consequent alteration of genes related to proliferation control and cell death. When larger DNA fragments are affected, such changes can be observed by cytogenetic analysis. The present study aimed to observe cytogenetic changes in felines with hematopoietic neoplasms. The study was performed in eight felines, seven of them with a diagnosis of leukemia or lymphoma. The control consisted of a healthy feline FeLV negative with normal karyotype. At least 10 metaphases of each animal were analyzed. Additionally, 1000 lymphocytes of these two patients, were analyzed and classified cytologically by their viability (necrosis, apoptosis), mitotic state (mononuclear, binucleate (BN), mitotic multinucleate) and their chromosomal damage or instability state (presence of micronucleus (MN) in mononuclear, binucleate, as well as nuclear buds (NBUD). The results of this observation were statistically analyzed by the Wilcoxon paired test. In this chromosomal analysis two of these animals presented monosomy of the E3 chromosome, one with diagnosis of acute myeloid leukemia of the M6a (LMA-M6a) FAB subtype and another with multicenter lymphoma (LM). There were significant differences in LMA-M6a scores (N = 7, Z = 2.36, p = 0.01) and LM scores (N = 8, Z = 2.52, p = 0.01) when group control. However, there was no difference between AML and lymphoma (N = 8, Z = 0.07, p = 0.94). The E3 chromosome has 1401 genes, several related to cell cycle control (Plk1, Sun, Mad1l1, Mcm7), DNA repair (Pms2, Usp42), tumor suppression (Bcl7b). The loss of DNA fragments, such as the loss of the E3 chromosome in the two patients described, led to the haploinsufficiency of important genes for the cell cycle, and this could be a cause of genomic instability and consequently susceptibility to the development of cancer. The observation of cytogenetic alterations, in this way, allows a better understanding of the cancer in the feline species and translational research. / Os tumores hematopoiéticos são os distúrbios neoplásicos mais comuns em felinos. Muitos desses tumores estão associados à infecção pelo vírus da leucemia felina (FeLV) e um dos mecanismos descritos é pela integração de material viral no genoma felino, que pode levar à instabilidade genômica e consequente alteração de genes relacionados com o controle da proliferação e morte celular. Quando fragmentos maiores de DNA são afetados, tais alterações podem ser observadas pela análise citogenética. O presente estudo objetivou observar as alterações citogenéticas em felinos com neoplasias hematopoiéticas. O estudo foi realizado em oito felinos, sete destes com diagnóstico de leucemia ou linfoma. O controle foi constituído por um felino saudável FeLV negativo com cariótipo normal. Foram analisadas no mínimo 10 metáfases de cada animal. Adicionalmente, destes dois pacientes foram analisados 1.000 linfócitos e classificados citologicamente pelo seu estado de viabilidade (necrose, apoptose), seu estado mitótico (mononucleado, binucleado (BN), multinucleado, mitótico) e seu dano cromossômico ou estado de instabilidade (presença de micronúcleo (MN) em célula mononucleada, binucleada, bem como brotos nucleares (NBUD). Os resultados dessa observação foram analisados estatisticamente pelo teste pareado de Wilcoxon. Nesta análise cromossômica dois destes animais apresentaram monossomia do cromossomo E3, um com diagnóstico de leucemia mieloide aguda do subtipo FAB M6a (LMA-M6a) e outro com linfoma multicêntrico (LM). Houve diferença significativa nas contagens de LMA-M6a (N=7; Z=2,36; p=0,01) e de LM (N=8; Z=2,52; p=0,01) quando comparados com o grupo controle. No entanto, não houve diferença entre LMA e linfoma (N=8; Z=0,07; p=0,94). No cromossomo E3 são descritos 1401 genes, sendo vários relacionados com controle de ciclo celular, (Plk1, Sun, Mad1l1, Mcm7), reparo de DNA (Pms2, Usp42) e supressão tumoral (Bcl7b).A perda de fragmentos de DNA, como o cromossomo E3 nos dois pacientes descritos, que leva a haploinsuficiência de genes importantes para o ciclo celular, poderia ser a causa de instabilidade genômica e, consequentemente suscetibilidade ao desenvolvimento do câncer. A observação de alterações citogenéticas, dessa forma, possibilita o melhor entendimento do câncer na espécie felina e serve como subsídio para a pesquisa translacional.

Cromossomo felino E3

Instabilidade genômica

Reparo de DNA

FeLV

Genes supressores tumorais

FeLV

Feline chromosome E3

Genomic instability

DNA repair

Tumor suppressor genes

Efeito da infecção e da terapia de erradicação da Helicobacter pylori na expressão gênica de paciente com gastrite crônica / Effect of Helicobacter pylori infection and eradication therapy on gene expression of patients with chronic gastrits

Poltronieri-Oliveira, Ayla Blanco [UNESP]

04 March 2016

Submitted by Ayla Blanco Poltronieri null (aylinha_bp@hotmail.com) on 2016-03-11T02:05:30Z No. of bitstreams: 1 Dissertação Pós Defesa.pdf: 1526886 bytes, checksum: b50424a42154b92cbde06c084bf0975d (MD5) / Approved for entry into archive by Sandra Manzano de Almeida (smanzano@marilia.unesp.br) on 2016-03-14T12:33:21Z (GMT) No. of bitstreams: 1 poltronierioliveira_ab_me_sjrp.pdf: 1526886 bytes, checksum: b50424a42154b92cbde06c084bf0975d (MD5) / Made available in DSpace on 2016-03-14T12:33:21Z (GMT). No. of bitstreams: 1 poltronierioliveira_ab_me_sjrp.pdf: 1526886 bytes, checksum: b50424a42154b92cbde06c084bf0975d (MD5) Previous issue date: 2016-03-04 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Introdução: A inflamação crônica desencadeada pela bactéria Helicobacter pylori (H. pylori), a qual é considerada o principal fator ambiental relacionado ao câncer gástrico, está associada ao desenvolvimento e progressão de lesões gástricas pré-cancerosas, desencadeando diversas modificações histológicas e moleculares que promovem a transformação maligna do estômago. Para isso, conta com fatores de virulência que promovem alterações superficiais e em vias de sinalização das células epiteliais gástricas. Consequentemente pode levar a alterações no padrão de expressão de genes supressores tumorais e da atividade de enzimas DNA metil transferases (DNMTs), responsáveis pela metilação do DNA e silenciamento gênico. Objetivos: O presente estudo avaliou se a infecção pela bactéria H. pylori, bem como sua erradicação, altera a expressão do RNAm dos genes supressores SOCS1, RPRM, RUNX3 e dos genes de DNMTs (DNMT1, DNMT3A e DNMT3B) em pacientes com gastrite crônica infectados (Hp+) em comparação com indivíduos com gastrite crônica sem infecção (Hp-). Além disso, investigou a ocorrência de correlação negativa entre a expressão do RNAm dos genes supressores tumorais com a dos genes das DNMTs, assim como a associação dos níveis de expressão gênica em relação aos fatores de risco idade, sexo, tabagismo, etilismo e genótipo bacteriano cagA. Material e Métodos: A quantificação relativa (RQ) do RNAm foi realizada por PCR (polymerase chain reaction) quantitativa em tempo real (qPCR) utilizando ensaios TaqMan® em 9 pacientes com gastrite crônica Hp- e 19 Hp+, sendo estes também avaliados três meses depois da terapia de erradicação bacteriana. O diagnóstico molecular e genotipagem do fator de virulência cagA foram realizados por PCR convencional. Resultados: Os resultados mostraram que a infecção pela H. pylori e sua erradicação não alteraram significantemente a expressão dos genes SOCS1, RPRM, RUNX3 e DNMTs, as quais apresentaram, de modo geral, expressão reduzida (RQ< 1,0), enquanto foi observado expressão mais elevada de SOCS1 e RPRM no grupo sem infecção Hp-. Quanto aos fatores de risco, também não foram encontradas associações significantes com os níveis de expressão dos genes avaliados. A análise de correlação não mostrou correlação negativa da expressão gênica entre os supressores tumorais e as DNMTs, mas evidenciou algumas correlações positivas entre a expressão dos genes SOCS1 e DNMT1 e do RPRM com DNMT3A e DNMT3B no grupo Hp+, que podem ter sido casuais. Conclusão: Nossos resultados não indicam que a infecção causada pela bactéria H. pylori e sua erradicação em pacientes com gastrite crônica afetam a expressão dos supressores tumorais SOCS1, RPRM, RUNX3 e das DNMTs, assim como que seja influenciada pelos fatores idade, sexo, tabagismo, etilismo e genótipo bacteriano cagA. Além disso, a expressão reduzida das DNMTs e ausência de correlação negativa com a dos genes supressores tumorais não permite indicar que a baixa expressão dos genes supressores tumorais seja devido a hipermetilação do DNA em consequência da infecção. / Introduction: Chronic inflammation caused by Helicobacter pylori (H. pylori), which is considered the main environmental factor related to gastric cancer, is associated with the development and progression of precancerous gastric lesions, triggering several histological and molecular changes that promote stomach malignant transformation. For this, it has virulence factors promoting superficial and signaling pathways of gastric epithelial cells changes. Consequently, it can lead to alterations in the expression of tumor suppressor genes and DNA enzyme activity methyl transferases (DNMTs), responsible for DNA methylation and gene silencing. Objectives: This study evaluated whether the infection by the bacterium H. pylori and its eradication change the mRNA expression of suppressor genes SOCS1, RPRM, RUNX3 and DNMTs (DNMT1, DNMT3A and DNMT3B) genes in patients with chronic gastritis infected (Hp+) compared to individuals with chronic gastritis without infection (Hp-). In addition, we investigated the occurrence of negative correlation between mRNA expression of tumor suppressor genes with the ones of DNMTs, as well as the association of gene expression levels in relation to the risk factors age, sex, smoking, drinking and bacterial genotype cagA. Methods: The relative quantification (RQ) mRNA was performed by PCR (polymerase chain reaction) quantitative real-time (qPCR) using TaqMan® assays in 9 patients with chronic gastritis Hp- and 19 Hp+, which are also evaluated three months after bacterial eradication therapy. The molecular diagnostics and genotyping of the virulence factors CagA were performed by standard PCR. Results: The results showed that the infection by H. pylori and eradication did not significantly alter the gene expression of SOCS1, RPRM, RUNX3 and DNMTs, which presented, in general, reduced expression (RQ <1.0); on the other hand, higher expression of SOCS1 and RPRM was observed in the group without Hp- infection. As for risk factors, no significant associations with the expression levels of evaluated genes were found. The correlation analysis not showed a negative correlation of gene expression in the tumor suppressor and DNMTs, but showed some positive correlations between the expression of SOCS1 and DNMT1 genes and RPRM with DNMT3A and DNMT3B the Hp + group, which may have been casual. Conclusion: Our findings do not indicate that the infection caused by the bacterium Helicobacter pylori and its eradication in patients with chronic gastritis affect the expression of tumor suppressor SOCS1, RPRM, RUNX3 and DNMTs, as it is influenced by factors such as age, sex, smoking, alcoholism and bacterial genotype cagA. Furthermore, the reduced expression of DNMTs and no negative correlation with the tumor suppressor genes do not indicate that the low expression of tumor suppressor genes is due to DNA hypermethylation in consequence of infection. / CNPq: 474.776/2013-1 / FAPESP: 2012/15036-8

Gastrite crônica

Terapia de erradicação

Expressão gênica

Genes supressores tumorais

DNA metiltransferases

Helicobacter pylori

Chronic gastritis

Eradication therapy

Gene expression

Tumor suppressor genes

DNA methyltransferases

Análise do status somático dos genes MEN1, AIP e p27Kip1 em tumores de pacientes com neoplasia endócrina múltipla tipo 1 / Analysis of the status of somatic and p27Kip1 genes in tumors from patients with multiple endocrine neoplasia type 1

Michelle Buscarilli de Moraes

06 June 2012

Aproximadamente 80% dos casos com Neoplasia endócrina múltipla tipo 1 (NEM1) possuem mutações germinativas no gene supressor de tumor MEN1, que os predispõem a tumores nas glândulas paratireóides, pâncreas endócrino e hipófise, além de outros tumores não endócrinos. A tumorigênese dos mais de 20 diferentes tipos de neoplasias já descritas na NEM1 ocorre pela presença da mutação germinativa MEN1 associadas a um segundo evento mutacional nas células desses tecidos, levando à perda de heterozigose (LOH) do locus do gene MEN1 (11q13) e à inativação da proteína supressora de tumor codificada por esse gene, a proteína MENIN. Recentemente, mutações germinativas em outros genes foram descritas em casos com NEM1 sem mutações no gene MEN1. Esses novos genes (CDKN1A, CDKN1B, CDNK2B e CDKN2C) codificam proteínas envolvidas no controle do ciclo celular (p21, p27, p15 e p18), chamadas proteínas inibidoras de quinases dependentes de ciclinas. Outro gene, chamado AIP, que codifica uma proteína chaperona de mesmo nome, também foi recentemente descrito associado à NEM1. Esses trabalhos descreveram o papel desses novos genes na NEM1, em nível germinativo, entretanto não esclareceu se esses novos genes estão inativados nos tumores de pacientes com NEM1 com mutação MEN1. O presente estudo investigou, pela primeira vez, o status somático do gene p27Kip1 em pacientes com mutação MEN1 e identificou quatro possíveis perda de heterozigose (LOH) em tumores de paratireóides e pâncreas, sugerindo que além de 11q13LOH, os tumores NEM1 podem sofrer raras perdas adicionais do gene supressor tumoral p27Kip1. Essas são as primeiras evidências na literatura de um processo de tumorigênese multi-step na NEM1, envolvendo três eventos genéticos: 1- Mutação germinativa MEN1; 2- 11q13-LOH; 3- Perda somática do gene supressor de tumor p27Kip1/CDKN1B / Approximately 80% of cases with multiple endocrine neoplasia type 1 (MEN1) harbor a germline mutation in the tumor suppressor gene MEN1, which predisposes these patients to tumors comprehending the parathyroid and pituitary glands, endocrine pancreas and others non-endocrine tumors. The tumorigenesis of the more than 20 different types of tumors already described in the MEN1 syndrome occurs due to a MEN1 germline mutation associated with a second mutational event in the cells of these tissues, leading to loss of heterozygosity (LOH) of the MEN1 gene locus (11q13) and therefore inactivation of tumor suppressor protein encoded by this gene, MENIN protein. Recently, germline mutations in other genes have been described in cases with MEN1 without any detectable mutations in the MEN1 gene. These novel genes (CDKN1A, CDKN1B, CDNK2B and CDKN2C) encode proteins involved in the control of the cell cycle (p21, p27, p15 and p18), called cyclin dependent kinases inhibitors. Another gene, called AIP, which encodes a chaperon protein with the same name, was recently described associated with MEN1 phenotypes. These data described a role for these novel genes in the germline level, however whether they are inactivated in tumors of patients with MEN1 mutation is so far not clarified. The present study investigated for the first time, the somatic status of p27KIP1 gene mutation in patients with MEN1 and identified four possible loss of heterozygosity (LOH) in tumors of the parathyroid and pancreas, suggesting that in addition 11q13-LOH, MEN1 tumors may suffer rare loss additional tumor suppressor gene p27KIP1. These are the first evidence in the literature of a process of tumorigenesis in MEN1 multi-step, involving three genetic events: 1-MEN1germlinemutation; 2-11q13LOH; 3-Loss of somatic tumor suppressor gene p27Kip1/CDKN1B

Genes supressores de tumores

Neoplasia endócrina múltipla tipo 1

Perda de heterozigosidade

Tumores/análise

Loss of heterozygosity

Multiple endocrine neoplasia type 1

Tumor suppressor genes

Tumors/analysis