Accumulation of Somatic Mutations in TP53 in Gastric Epithelium with Helicobacter pylori infection. / Helicobacter pylori感染に伴う慢性胃炎粘膜におけるTP53遺伝子変異の蓄積

Shimizu, Takahiro

24 September 2014

This dissertation is author version of following the journal article. Takahiro Shimizu, Hiroyuki Marusawa, Yuko Matsumoto, Tadashi Inuzuka, Atsuyuki Ikeda, Yosuke Fujii, Sachiko Minamiguchi, Shin’ichi Miyamoto, Tadayuki Kou, Yoshiharu Sakai, Jean E. Crabtree, Tsutomu Chiba, Accumulation of Somatic Mutations in TP53 in Gastric Epithelium With Helicobacter pylori Infection, Gastroenterology, Volume 147, Issue 2, August 2014, Pages 407-417.e3, ISSN 0016-5085, http://dx.doi.org/10.1053/j.gastro.2014.04.036. / 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第18543号 / 医博第3936号 / 新制||医||1006(附属図書館) / 31443 / 京都大学大学院医学研究科医学専攻 / (主査)教授 羽賀 博典, 教授 小川 誠司, 教授 武藤 学 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Helicobacter pylori

chronic gastritis

gastric cancer

activation-induced cytidine deaminase

TP53

somatic mutation

490

Targeted Therapies for High-Risk Chronic Lymphocytic Leukemia

Ravikrishnan, Janani

23 September 2022

No description available.

Biomedical Research

Chronic Lymphocytic Leukemia

CLL

targeted therapies

venetoclax resistance

p53

TP53 mutations

Dysregulation of p53 Gene Expression in Human Prostate Carcinogenesis and Its Relationship to Angiogenesis

Spees, Colleen K.

19 October 2011

No description available.

Cellular Biology

Epidemiology

Genetics

Health Sciences

Oncology

p53

TP53

prostate cancer

angiogenesis

Li Fraumeni Syndrome

LFS

Polymorphisms in Cyclooxygenase, Lipoxygenase and TP53 genes predict colorectal polyp risk reduction by aspirin in the seAFOod polyp prevention trial

Davies, J.R., Mell, T., Fuller, H., Harland, M., Saleh, R.N.M., Race, Amanda D., Rees, C.J., Brown, L.C., Loadman, Paul, Downing, A., Minihane, A.M., Williams, E.A., Hull, M.A.

02 November 2023

Yes / Aspirin and eicosapentaenoic acid (EPA) reduce colorectal adenomatous polyp risk and affect synthesis of oxylipins including prostaglandin E2. We investigated whether 35 single nucleotide polymorphisms (SNPs) in oxylipin metabolism genes such as cyclooxygenase [PTGS] and lipoxygenase [ALOX], as well as 7 SNPs already associated with colorectal cancer (CRC) risk reduction by aspirin (eg. TP53; rs104522), modified the effects of aspirin and EPA on colorectal polyp recurrence in the randomised 2x2 factorial seAFOod trial. Treatment effects were reported as the incidence rate ratio (IRR) and 95% confidence interval (CI) by stratifying negative binomial and Poisson regression analyses of colorectal polyp risk on SNP genotype. Statistical significance was reported with adjustment for the false discovery rate as the P and q value. Five hundred and forty-two (of 707) trial participants had both genotype and colonoscopy outcome data. Reduction in colorectal polyp risk in aspirin users compared with non-aspirin users was restricted to rs4837960 (PTGS1) common homozygotes (IRR 0.69 [95%CI 0.53,0.90]; q=0.06), rs2745557 (PTGS2) compound heterozygote-rare homozygotes (IRR 0.60 [0.41,0.88]; q=0.06), rs7090328 (ALOX5) rare homozygotes (IRR 0.27 [0.11,0.64]; q=0.05), rs2073438 (ALOX12) common homozygotes (IRR 0.57 [0.41,0.80]; q=0.05), and rs104522 (TP53) rare homozygotes (IRR 0.37 [0.17,0.79]; q=0.06). No modification of colorectal polyp risk in EPA users was observed. In conclusion, genetic variants relevant to the proposed mechanism of action on oxylipins are associated with differential colorectal polyp risk reduction by aspirin in individuals who develop multiple colorectal polyps. SNP genotypes should be considered during development of personalised, predictive models of CRC chemoprevention by aspirin. / Funder(s): Efficacy and Mechanism Evaluation Programme (EME) Award Id(s): NIHR128210. Funder(s): NIHR Senior Investigator grant. Funder(s): Cancer Research UK (CRUK) Award Id(s): C23434/A24939. Funder(s): European Union-BBSRC (UK) Award Id(s): BB/P028233/1.

Polymorphisms

Cyclooxygenase

Lipoxygenase

TP53 Genes

Colorectal polyp risk

Aspirin

seAFOod Polyp Prevention Trial

Estudo da cromatina nos sítios de fixação à matriz nuclear no domínio do gene <i>TP53</i> e das modificações epigenéticas e no modelo de progressão tumoral mamária 21T / MARs chromatin study on <i>TP53</i> gene domain and epigenetic modifications in a breast cancer progression model

Gilson Costa dos Santos Junior

13 February 2014

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Dentre os diversos tipos de câncer agressivos, o câncer de mama é o mais comum em mulheres. Mutações hereditárias e adquiridas, assim como alterações epigenéticas atuam em sinergia na carcinogênese mamária e na progressão tumoral. A proteína P53 é uma supressora de tumor e possui uma atuação fundamental na integridade genômica. Apesar do vasto conhecimento sobre o controle da P53 a nível de proteína, ainda pouco se sabe sobre o controle transcricional do gene <i>TP53</i>. A série 21T, uma série de 4 linhagens celulares originadas da mama da mesma paciente, representando diferentes estágios de progressão tumoral mamária, é um eficiente modelo para investigação das alterações epigenéticas e suas influências na expressão gênica ao longo da progressão do câncer de mama. Nós analisamos a organização do domínio do gene <i>TP53</i> através da técnica de arranjo de DNA, em diversas linhagens celulares de câncer de mama e linhagens controle, e realizamos uma tentativa de caracterizar estes elementos de DNA nas linhagens controle não-tumorais HB2 e MCF10A e nas tumorais MCF-7, MDA-MB-231, T47D, através dos marcadores epigenéticos de eucromatina, H4Ac, e heterocromatina, H3K9me3. Ainda analisamos a ligação de proteínas à região associada à matriz nuclear (MAR), denominada MAR 2, e a possível ligação da proteína ligante à matriz nuclear (MARBP), PARP-1, através de ensaios de gel shift (EMSA). Detectamos que na linhagem controle epitelial mamária, HB2, o gene <i>TP53</i> está posicionado num domínio de DNA relativamente pequeno, aproximadamente 50 kb, delimitado por dois sítios de fixação à matriz nuclear. Interessantemente, esta estrutura de domínio se apresentou radicalmente diferente nas linhagens de câncer de mama estudadas, MCF7, T47D, MDA-MB-231 e BT474, nos quais o tamanho do domínio estudado estava aumentado e a transcrição do <i>TP53</i> diminuída. Os enriquecimentos com os marcadores epigenéticos de cromatina H4Ac e H3K9me3 estão diferentemente distribuídos nas MARs nas linhagens celulares. Surpreendentemente, a MAR 2 apresentou uma ligação altamente específica, o que poderia representar a atuação de fatores transcricionais envolvidos na organização da cromatina. Através de programas de bioinformática, detectamos putativos sítios para interessantes fatores de transcrição, tais como o c/EBP-beta e c-myb, que poderiam atuar em cis regulando a expressão do gene <i>TP53</i> e outros flanqueadores. Nós propusemos um modelo para a organização da cromatina na região de domínio do gene <i>TP53</i> com os genes flanqueadores. Através da série 21T, detectamos uma hipometilação global genômica, nas células cancerosas 21NT e 21MT1. Uma importante diminuição da expressão global do marcador H4Ac nas células metastáticas 21MT1, foi detectada em relação às outras linhagens. Os níveis de RNAm das principais enzimas relacionadas as modificações epigenéticas são consistentes com as observadas hipometilação genômica e hipoacetilação. Através de microscopia confocal, verificamos que o marcador H4Ac está localizado, na maior parte na periferia e o marcador H3K9me3, pericêntrico nos núcleos tumorais. Por fim, verificamos que o promotor P1 do gene <i>TP53</i> apresenta um estado de cromatina aberta, e a expressão do gene <i>TP53</i> é similar em todas as células da série 21T. / Breast cancer is the most common aggressive cancer type in women. Inherited and acquired mutations as well as epigenetic alterations act together in breast carcinogenesis and tumor progression. P53 is a tumor suppressor protein critical for genome integrity. Although its control at the protein level is well known, the transcriptional regulation of the <i>TP53</i> gene is still unclear. The 21T series, a series of 4 breast cell lines originating from the same patient and representative of the breast tumor progression stages, is a suitable model to investigate epigenetic alterations and their influences upon gene expression during breast tumor progression. We have analyzed the organization of the <i>TP53</i> gene domain using DNA arrays in several breast cancer and control cell lines and we made an attempt to characterize these DNA elements in breast non-cancerous cell lines HB2 and MCF-10, and cancerous MCF-7, MDA-MB-231 and T47D, through the determination of epigenetic markers of euchromatin, H4Ac, and heterochromatin, H3K9me3. We further analyzed the matrix attachment region (MAR), named MAR 2, protein binding, and possible MAR 2 binding of the important MAR binding protein (MARBP), PARP-1, by Electrophoretic mobility Shift Assay (EMSA). We have found that in the control breast epithelial cell line, HB2, the <i>TP53</i> gene is positioned within a relatively small DNA domain, encompassing 50 kb, delimited by two nuclear matrix attachment sites. Interestingly, this domain structure was found to be radically different in the studied breast cancer cell lines, MCF7, T47D, MDA-MB-231 and BT474, in which the domain size was increased and <i>TP53</i> transcription was decreased. H4Ac and H3K9me3, chromatin epigenetic markers enrichment are differentially distributed through MARs in cell lines. Surprinsingly, MAR 2 presented a defined band-shift, which could represent trans-acting factor(s), involved in chromatin organization. By bioinformatics software, we found interesting transcription factors putative binding sites, such as for c/EBP-beta and c-myb, which could be cis-acting elements regulating <i>TP53</i> and neighboring genes expression. We propose a model for the chromatin organization of the <i>TP53</i> gene domain with neighboring genes. Through 21T cell line series, we detected a global genomic hypomethylation profile in the cancerous 21NT and 21MT1. An important global decrease of the active chromatin mark H4Ac in the metastatic 21MT1 relative to other cell lines was detected. mRNA levels of key enzymes linked to epigenetic modifications are consistent with the observed genomic hypomethylation and hypoacetylation. By confocal immunofluorescent assay we observed that H4Ac is mostly located at periphery, and the repressive mark H3K9Me3 located pericentric, in tumorigenic cells nuclei. <i>TP53</i> P1 promoter in 21T series was found to be in an open state and <i>TP53</i> transcription level was found to be similar in all 21T cell lines.

Câncer de mama

Cromatina

Loop

MAR

Epigenética

<i>TP53</i>

Breast câncer

Chromatin

Loop

MAR

Epigenetics

<i>TP53</i>

GENETICA HUMANA E MEDICA

Prevalência da mutação ser-249 no gene TP53 em pacientes com carcinoma hepatocelular e cirrose hepática sem carcinoma hepatocelular diagnosticados em Vitória, Espírito Santo

Carvalho, Fernanda Magri de

19 March 2009

Made available in DSpace on 2016-12-23T13:56:09Z (GMT). No. of bitstreams: 1 Dissertacao Fernanda Magri de Carvalho PDF.pdf: 4813468 bytes, checksum: f874502e73ece86d6ada6693a89b3fc4 (MD5) Previous issue date: 2009-03-19 / A incidência do carcinoma hepatocelular (CHC) apresenta grandes variações geográficas associadas a diferentes prevalências dos seus fatores etiológicos mais comuns. Embora não se conheça a sua real incidência no Espírito Santo, o CHC é freqüentemente diagnosticado no estado, associado à infecção com os vírus da hepatite B (VHB) e da hepatite C. No entanto, cerca de 40% dos casos não apresentam evidências destes fatores etiológicos. Por essa razão, buscou-se verificar se outro fator aflatoxinas poderia estar envolvido na etiologia do CHC no ES. Nas regiões tropicais, as aflatoxinas são consideradas um importante fator etiológico do CHC, especialmente quando associadas à infecção com o VHB. O objetivo da presente investigação foi estudar a prevalência da mutação específica ser-249 no gene TP53, cuja presença é um indicador indireto de contaminação alimentar com estas micotoxinas e sua relação com a infecção pelo VHB. Foram investigadas 41 amostras de CHC e 74 amostras de cirrose hepática sem CHC, utilizando-se a metodologia de PCR-RFLP e sequenciamento. O DNA do VHB foi pesquisado com iniciadores específicos para seis diferentes regiões do seu genoma. Os iniciadores utilizados foram escolhidos considerando as regiões mais conservadas do genoma viral e englobando os oito genótipos já identificados do VHB. A presença do DNA do VHB foi observada em 46% (19/41) dos casos de carcinoma hepatocelular estudados. A mutação ser-249 TP53 foi observada em 15% (6/41) e 1,5% (1/69) dos casos de CHC e de cirrose hepática sem CHC associado, respectivamente, não havendo correlação estatisticamente significativa com a presença do DNA do VHB. Foram encontradas outras quatro mutações no códon 250 do gene TP53. A prevalência total de 24% (10/41) de mutações ser-249 e mutações no códon 250 nos pacientes com carcinoma hepatocelular possivelmente também associadas à contaminação com aflatoxinas pode indicar a provável exposição alimentar às aflatoxinas no Espírito Santo / The hepatocellular carcinoma (HCC) incidence has large geographic variation, which is associated with the different prevalences of its most common etiological factors. Although its real incidence in the Espirito Santo State is not known, the HCC is frequently diagnosed in ES associated with hepatitis B (HBV) and C virus infections. However, approximately 40% of the cases do not present known etiological factors. Therefore, it was the purpose of this study to verify if another factor - aflatoxins - could be involved in the HCC etiology in ES. In tropical areas, the aflatoxins are considered an important etiological factor of CHC, especially when associated with HBV infection. The aim of this investigation was to study the prevalence of the specific ser-249 mutation in the TP53 gene was studied, that indicates indirect food contamination with aflatoxins and its association with HBV infection. Forty-one HCC samples and seventy-four hepatic cirrhosis samples were investigated, using PCRRFLP methodology and sequencing. The HBV DNA was amplified with specific primers targeting six different regions of its genome. Primers were chosen considering the most conserved regions of the viral genome and encompassing the eight known genotypes of HBV. Presence of HBV DNA was observed in 46% (19/41) of the hepatocellular carcinoma cases studied. The ser-249 TP53 mutation was observed in 15% (6/41) and 1,5% (1/69) of the HCC and cirrhosis cases respectively, not having statistical correlation with the presence of HBV DNA. Other four mutations in TP53 codon 250 were found, yielding a total mutation prevalence of 24% (10/41), considering both ser-249 and codon 250 mutations, possibly also associated with food contamination by aflatoxins, and suggesting an alimentary exposition to aflatoxins in Espirito Sant

Carcinoma hepatocelular

Cirrose hepática

Aflatoxina

Hepatocellular carcinoma

Hepatic Cirrhosis

Aflatoxin

Hepatitis B virus Ser-249 TP53 mutation

Estudo da cromatina nos sítios de fixação à matriz nuclear no domínio do gene <i>TP53</i> e das modificações epigenéticas e no modelo de progressão tumoral mamária 21T / MARs chromatin study on <i>TP53</i> gene domain and epigenetic modifications in a breast cancer progression model

Gilson Costa dos Santos Junior

13 February 2014

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Dentre os diversos tipos de câncer agressivos, o câncer de mama é o mais comum em mulheres. Mutações hereditárias e adquiridas, assim como alterações epigenéticas atuam em sinergia na carcinogênese mamária e na progressão tumoral. A proteína P53 é uma supressora de tumor e possui uma atuação fundamental na integridade genômica. Apesar do vasto conhecimento sobre o controle da P53 a nível de proteína, ainda pouco se sabe sobre o controle transcricional do gene <i>TP53</i>. A série 21T, uma série de 4 linhagens celulares originadas da mama da mesma paciente, representando diferentes estágios de progressão tumoral mamária, é um eficiente modelo para investigação das alterações epigenéticas e suas influências na expressão gênica ao longo da progressão do câncer de mama. Nós analisamos a organização do domínio do gene <i>TP53</i> através da técnica de arranjo de DNA, em diversas linhagens celulares de câncer de mama e linhagens controle, e realizamos uma tentativa de caracterizar estes elementos de DNA nas linhagens controle não-tumorais HB2 e MCF10A e nas tumorais MCF-7, MDA-MB-231, T47D, através dos marcadores epigenéticos de eucromatina, H4Ac, e heterocromatina, H3K9me3. Ainda analisamos a ligação de proteínas à região associada à matriz nuclear (MAR), denominada MAR 2, e a possível ligação da proteína ligante à matriz nuclear (MARBP), PARP-1, através de ensaios de gel shift (EMSA). Detectamos que na linhagem controle epitelial mamária, HB2, o gene <i>TP53</i> está posicionado num domínio de DNA relativamente pequeno, aproximadamente 50 kb, delimitado por dois sítios de fixação à matriz nuclear. Interessantemente, esta estrutura de domínio se apresentou radicalmente diferente nas linhagens de câncer de mama estudadas, MCF7, T47D, MDA-MB-231 e BT474, nos quais o tamanho do domínio estudado estava aumentado e a transcrição do <i>TP53</i> diminuída. Os enriquecimentos com os marcadores epigenéticos de cromatina H4Ac e H3K9me3 estão diferentemente distribuídos nas MARs nas linhagens celulares. Surpreendentemente, a MAR 2 apresentou uma ligação altamente específica, o que poderia representar a atuação de fatores transcricionais envolvidos na organização da cromatina. Através de programas de bioinformática, detectamos putativos sítios para interessantes fatores de transcrição, tais como o c/EBP-beta e c-myb, que poderiam atuar em cis regulando a expressão do gene <i>TP53</i> e outros flanqueadores. Nós propusemos um modelo para a organização da cromatina na região de domínio do gene <i>TP53</i> com os genes flanqueadores. Através da série 21T, detectamos uma hipometilação global genômica, nas células cancerosas 21NT e 21MT1. Uma importante diminuição da expressão global do marcador H4Ac nas células metastáticas 21MT1, foi detectada em relação às outras linhagens. Os níveis de RNAm das principais enzimas relacionadas as modificações epigenéticas são consistentes com as observadas hipometilação genômica e hipoacetilação. Através de microscopia confocal, verificamos que o marcador H4Ac está localizado, na maior parte na periferia e o marcador H3K9me3, pericêntrico nos núcleos tumorais. Por fim, verificamos que o promotor P1 do gene <i>TP53</i> apresenta um estado de cromatina aberta, e a expressão do gene <i>TP53</i> é similar em todas as células da série 21T. / Breast cancer is the most common aggressive cancer type in women. Inherited and acquired mutations as well as epigenetic alterations act together in breast carcinogenesis and tumor progression. P53 is a tumor suppressor protein critical for genome integrity. Although its control at the protein level is well known, the transcriptional regulation of the <i>TP53</i> gene is still unclear. The 21T series, a series of 4 breast cell lines originating from the same patient and representative of the breast tumor progression stages, is a suitable model to investigate epigenetic alterations and their influences upon gene expression during breast tumor progression. We have analyzed the organization of the <i>TP53</i> gene domain using DNA arrays in several breast cancer and control cell lines and we made an attempt to characterize these DNA elements in breast non-cancerous cell lines HB2 and MCF-10, and cancerous MCF-7, MDA-MB-231 and T47D, through the determination of epigenetic markers of euchromatin, H4Ac, and heterochromatin, H3K9me3. We further analyzed the matrix attachment region (MAR), named MAR 2, protein binding, and possible MAR 2 binding of the important MAR binding protein (MARBP), PARP-1, by Electrophoretic mobility Shift Assay (EMSA). We have found that in the control breast epithelial cell line, HB2, the <i>TP53</i> gene is positioned within a relatively small DNA domain, encompassing 50 kb, delimited by two nuclear matrix attachment sites. Interestingly, this domain structure was found to be radically different in the studied breast cancer cell lines, MCF7, T47D, MDA-MB-231 and BT474, in which the domain size was increased and <i>TP53</i> transcription was decreased. H4Ac and H3K9me3, chromatin epigenetic markers enrichment are differentially distributed through MARs in cell lines. Surprinsingly, MAR 2 presented a defined band-shift, which could represent trans-acting factor(s), involved in chromatin organization. By bioinformatics software, we found interesting transcription factors putative binding sites, such as for c/EBP-beta and c-myb, which could be cis-acting elements regulating <i>TP53</i> and neighboring genes expression. We propose a model for the chromatin organization of the <i>TP53</i> gene domain with neighboring genes. Through 21T cell line series, we detected a global genomic hypomethylation profile in the cancerous 21NT and 21MT1. An important global decrease of the active chromatin mark H4Ac in the metastatic 21MT1 relative to other cell lines was detected. mRNA levels of key enzymes linked to epigenetic modifications are consistent with the observed genomic hypomethylation and hypoacetylation. By confocal immunofluorescent assay we observed that H4Ac is mostly located at periphery, and the repressive mark H3K9Me3 located pericentric, in tumorigenic cells nuclei. <i>TP53</i> P1 promoter in 21T series was found to be in an open state and <i>TP53</i> transcription level was found to be similar in all 21T cell lines.

Câncer de mama

Cromatina

Loop

MAR

Epigenética

<i>TP53</i>

Breast câncer

Chromatin

Loop

MAR

Epigenetics

<i>TP53</i>

GENETICA HUMANA E MEDICA

Oxidative stress in diffuse large B-cell lymphoma and follicular lymphoma, and TP53 mutations and translocations of MYC, Bcl-2 and Bcl-6 in diffuse large B-cell lymphoma

Peroja, P. (Pekka)

10 April 2018

Abstract Diffuse large B-cell lymphoma (DLBCL) and follicular lymphoma (FL) are two of the most common lymphomas in the Western world. DLBCL is an aggressive disease with a good response to treatment; about 75% of patients achieve permanent remission after first-line treatment. In patients with relapses or primary refractory disease, prognosis is dismal; only 10–20% of them can be cured, even with aggressive treatments. FL is an indolent lymphoma with a very good response to treatment and slow progression. Median survival with modern treatments is over 15 years. Nevertheless, some patients have short remissions and succumb to disease. Oxidative stress, TP53 mutations, and translocations of MYC, Bcl-2 and Bcl-6 have been linked in many neoplasms to aetiology and poor prognosis. This thesis concerns oxidative stress and redox-state-regulating enzymes in DLBCL and FL, and TP53 mutations and translocations of MYC, Bcl-2 and Bcl-6 in DLBCL. High expression levels of the antioxidant enzyme thioredoxin and a marker of oxidative stress, nitrotyrosine, were related to poor prognosis in DLBCL. In FL, high-level expression of peroxiredoxin was associated with good prognosis. TP53 mutations in specific regions LSH and L3 and concurrent translocation of Bcl-2 were associated with poor prognosis in DLBCL. Not all TP53 mutations predicted survival. High expression levels of Bcl-2 and MYC were associated with poor prognosis in DLBCL. Based on the results presented here, antioxidant function may have protective roles, but also may cause resistance to treatment. TP53 mutations have prognostic roles in DLBCL, but should be further defined. Novel therapies could be developed in connection with these mechanisms. / Tiivistelmä Diffuusi suurisoluinen B-solulymfooma (DLBCL) ja follikulaarinen lymfooma (FL) ovat kaksi yleisintä lymfoomaa länsimaissa. DLBCL on aggressiivinen syöpä, joka reagoi hyvin hoitoihin, jopa 75 % paranee. Kuitenkin potilailla, joilla syöpä uusiutuu hoitojen jälkeen tai etenee hoidon aikana, on erittäin huono ennuste, noin 10-20 % näistä potilaista voidaan parantaa. FL on hyväennusteinen lymfooma, joka yleensä reagoi hyvin hoitoihin. Mediaani elossaoloaika kaikilla FL potilailla on yli 15 vuotta taudin toteamisesta. Osalla potilaista FL kuitenkin on aggressiivisempo. Oksidatiivinen stressin, TP53- mutaatioiden, MYC, Bcl-2 ja Bcl-6 -translokaatioiden on todettu olevan huonoon ennusteeseen yhteydessä olevia tekijöitä monissa syövissä, kuten lymfoomissa. Tämä väitöskirja tutki oksidatiivisen stressin ja hapetus-pelkistys reaktioon liittyvien entsyymien osuutta R-CHOP-hoidetuissa DLBCL:ssa ja FL:ssa immunohistokemian (IHC) avulla. DLBCL:ssa tutkittiin lisäksi TP53 mutaatioita, MYC, Bcl-2 ja Bcl-6 translokaatioiden roolia taudin kulussa. Korkea ekspressio oksidatiivisen stressin merkkiainetta nitrotyrosiinia ja antioksidantti thioredoksiinia olivat yhteydessä huonoon ennusteeseen DLBCL:ssa. FL:ssa runsas ilmentyminen antioksidativiisiin entsyymeihin kuuluvia peroksiredoksiineja olivat yhteydessä hyvään ennusteeseen. TP53 mutaatiot LSH ja L3 alueella ja Bcl-2 -translokaatiot yhdessä olivat yhteydessä huonoon ennusteeseen DLBCL:ssa. Kaikki TP53-mutaatiot eivät olleet assosioituneet huonoon ennusteeseen. DLBCL:ssa Bcl-2 ja MYC –proteiinien runsas ilmentyminen IHC:llä arvioituna liittyi huonoon ennusteeseen. Tulosten perusteella solujen hapetus-pelkistystilaa säätelevillä entsyymeillä voi olla dualistinen rooli, osittain suojeleva ja osittain vahingoittava lymfoomissa. TP53 -mutaatioilla voi olla ennusteellista merkitystä, mutta tämä vaatii lisää tutkimuksia.

TP53 mutaatiot

diffuusi suurisoluinen B-solulymfooma

ennuste

follikulaarinen lymfooma

immunoelektronimikroskopia

immunohistokemia

lymfooma

oksidatiivinen stressi

thioredoksiini

translokaatioanalyysit

TP53 mutations

diffuse large B-cell lymphoma

follicular lymphoma

immunoelectronmicroscopy

immunohistochemistry

lymphoma

oxidative stress

prognosis

thioredoxin

translocation analysis

Altérations génomiques des carcinomes hépatocellulaires liées au virus de l'hépatite B / Pas de titre traduit

Amaddeo, Giuliana

14 October 2013

Contexte: Le carcinome hépatocellulaire (CHC) est la plus fréquent des tumeurs primitives du foie. Près de 50% des CHC sont causés par une infection par le virus de l'hépatite B (VHB). Au cours des différents stades de l’infection par le VHB, des multiples altérations génétiques et/ou chromosomiques s'accumulent et favorisent ainsi le développement tumoral. Objectives: a) étudier, in vitro et in vivo, le rôle potentiel d’un nouveau gène susceptible d’être impliqué dans la carcinogénèse hépatique : IRF-2 (Interferon regulatory factor 2). Ce gène a été identifié comme fréquemment délété par analyse CGH-SNP dans les CHC liés à l’infection par le VHB. b) caractériser une série de CHC liés au VHB en étudiant le statut viral, les altérations génétiques et l’expression de différents gènes afin de mieux comprendre le rôle du VHB dans l’hépato-carcinogenèse et comparer ces différents paramètres avec une série de CHC non liés au VHB. Résultats : a) Dans une série de 125 CHC, Sandrine Imbeaud, au sein du laboratoire, a effectué une analyse CGH-SNP microarray et a identifié une région commune de délétion homozygote localisée en 4q34.3-35 comprenant le gène IRF-2 dans 4 échantillons. Nous avons ensuite mis en évidence par séquençage des mutations somatiques inactivatrices dans 2 autres tumeurs. In vitro, la sousexpression d’IRF-2 a entrainé une augmentation de la prolifération cellulaire et sa sur-expression a induit une promotion de l'apoptose cellulaire. In vivo, l’extinction d’IRF-2 était responsable de la formation de tumeurs de grande taille. Les 6 tumeurs inactivées pour IRF-2 étaient associées au VHB (p = 0.0003), et les mutations de TP53 et d’IRF-2 étaient mutuellement exclusives. La sousexpression de IRF-2 induisait une sous-expression de TP53 et une forte corrélation entre les expressions protéiques de p53 et de IRF-2 a été observée (r2 = 0,72, p = 0,004). En plus, on a observé que l’expression des gènes cibles directs de TP53 était modulée par le niveau d‘expression d’IRF-2. Nous avons émise l'hypothèse que IRF-2 pourrait altérer la fonction de p53 car IRF-2 est connue pour se lier à MDM2, un régulateur négatif de l’expression de p53. Le traitement des cellules inactivées pour IRF-2 avec MG132, un inhibiteur du protéasome, a induit la restauration de l'expression de p53. In vivo, le traitement avec bortézomib, un inhibiteur du proteasome utilisé en oncologie, a entrainé une régression des tumeurs inactivées pour IRF-2. b) Nous avons caractérisé sur le plan clinique et moléculaire une série de CHC liés au VHB et, ensuite, nous avons comparé nos résultats avec ceux d’une série de CHC liés à autres étiologies. Nous avons montré que les CHC liés au VHB présentaient des caractéristiques cliniques et pathologiques différentes de celles des CHC non liés au VHB : ils survenaient chez des patients plus jeunes (P < 0.0001), d'origine Africaine ou Asiatique (P < 0.0001), avec un taux sérique d'alpha-foeto protéine élevé (P = 0.008) et étaient sur le plan histologique des tumeurs peu différenciés (P = 0.04). Nous avons identifié des mutations inactivatrices du gène HBX dans 71% des tumeurs et dans 33% des tissus non tumoraux adjacents (P < 0.0001). Dans 63% des cas, le nombre de copies virales dans les tumeurs était plus faible que dans les tissus non tumoraux adjacents (P < 0.0001). Le gène TP53 était le gène le plus fréquemment muté dans les CHC liés au VHB (41%, P = 0.0002), avec des mutations R249S présentes dans 14 échantillons (16%, p < 0.0001). Ce type de mutation est classiquement associé à l'aflatoxine B1. Nous avons observé que les mutations de TP53 étaient un prédicteur indépendant de survie uniquement pour les patients infectés par le VHB. Enfin, ... / Pas de résumé en anglais / Introduzione: Il carcinoma epatocellulare (HCC) è il tumore primitivo più comune del fegato. Nel mondo, quasi il 50% di tutti gli HCC sono causati dal virus dell'epatite B (HBV). Durante le fasi dell’ infezione da HBV, si possono accumulare alterazioni genetiche e / o cromosomiche e quindi promuovere lo sviluppo del tumore. Obiettivi: a) analizzare in vitro e in vivo il ruolo potenziale di un nuovo gene potenzialmente coinvolto nella carcinogenesi epatica: IRF-2 (Interferon regulatory factor 2). Questo gene è stato identificato mediante l’analisi CGH-SNP come frequentemente deleto negli HCC correlati all’ HBV. b) caratterizzare una cohorte di HCC correlati all’HBV studiandone lo stato virale, le alterazioni genetiche e l’espressione di differenti geni al fine di comprendere meglio il ruolo di HBV nella carcinogenesis epatocellulare e confrontare questi parametri con una cohorte di HCC a diversa eziologia. Risultati: a) In laboratorio, Sandrine Imbeaud ha condotto un'analisi SNP-CGH microarray su una cohorte di 125 HCC che ha evidenziato una regione deleta in maniera omozigote localizzata sul braccio lungo del cromosoma 4 (4q34.3-35) in 4 campioni tumorali. La regione comprende un unico gene: IRF2. In altri due campioni sono state identificate mutazioni somatiche inattivatrici mediante sequenziamento della regione codante di IRF-2. In vitro, la soppressione di IRF-2 ha indotto un aumento della proliferazione cellulare, al contrario, la sua sovra-espressione ha causato un aumento dell’apoptosi cellulare. In vivo, la soppressione di IRF-2 è responsabile della formazione di tumori più grandi nei topi nude. I 6 tumori mutati per IRF2 sono tutti correlati all’ HBV (p = 0,0003. Nella cohorte di tumori studiati, le mutazioni di TP53 e di IRF-2 erano vicendevolmente esclusive. Inoltre, la soppressione dell’espressione della proteina IRF-2 induceva una riduzione dell’espressione della proteina p53 ed una stretta correlazione tra l’espressione delle due proteine è stata osservata (r2 = 0,72, p = 0,004). Inoltre, abbiamo dimostrato che il livello di espressione di IRF-2 è in grado di modulare l'espressione di alcuni geni target di TP53. Abbiamo, quindi, ipotizzato che IRF2 possa alterare la funzione di p53. Come è noto IRF2 può legarsi a MDM2, un regolatore negativo di p53 che induce la sua degradazione proteasomica. Il trattamento di cellule inattivate per IRF2 con MG132, un inibitore del proteasoma, induceva il restauro dell’espressione di p53. In vivo, il trattamento con bortezomib, chemioterapico inibitore del proteasoma, ha determinato la regressione del tumore inattivato per IRF2. b) 86 HCC correlati all’HBV sono stati caratterizzati dal punto di vista clinico e molecolare ed in seguito sono stati confrontati una serie di 90 HCC correlati ad altre eziologie. Gli HCC correlati all’HBV hanno delle caratteristiche cliniche e patologiche diverse da quelle degli HCC d’altra eziologia: insorgenza in pazienti più giovani (p <0,0001), di origine africana o asiatica (P <0.0001), alfa-fetoproteina sierica elevata (P = 0.008) e scarsa differenziazione istologica (P = 0,04). Mutazioni inattivatrici del gene HBX sono state identificate nel 71% dei tumori e il 33% dei tessuti non tumorali adiacenti (P <0.0001). Nel 63% dei casi, il numero di copie virali nel tessuto tumorale era inferiore rispetto al tessuto non tumorale adiacente (p <0,0001). Il gene TP53 è stato il gene più frequentemente mutato nella serie di HCC correlati a HBV (41%, p = 0,0002), con una considerevole presenza di mutazioni al codone 249 (R249S) (16%, p <0,0001). Questo tipo di mutazione è associate classicamente all’ aflatossina B1. Abbiamo osservato, inoltre, che TP53 mutato era un predittore indipendente di sopravvivenza solo per i pazienti infetti da HBV. Infine, ...

Carcinome hépatocellulaire

Virus de l’hépatite B

Séquençage à haut débit

IRF-2

TP53

Beta-catenine

HBx

Carcinoma epatocellulare

Virus dell’epatite B

New generation sequencing

IRF-2

TP53

WNT-beta catenin

HBx

616.994

Dynamique des changements de la longueur des télomères individuels et de leur architecture nucléaire dans les cellules néoplasiques

Samassékou, Oumar

January 2011

Telomeres play an important role in carcinogenesis. They assure immortalization of tumor cells by maintaining their length through the activation of telomerase or the alternative lengthening of telomere. Despite these mechanisms, telomeres of tumor cells are generally shorter than those of normal cells. In cancer cells, short telomeres promote chromosomal instability, which is one of the aggravating factors of neoplastic process. Also, the nuclear architecture of telomeres can be altered during carcinogenesis and cause genomic instability. To further understand the roles of telomeres in cancer, we studied the length of individual telomeres and their nuclear architecture in neoplastic cells. Using chronic myeloid leukemia (CML) as a model, we established the first length profile of all individual telomeres in cancer. We found that telomeres on chromosome arms Xp, 18p and 5p were among the longest while the shortest were on 21p and 21q . Also, by comparing with normal cells, we established that individual telomeres of CML cells had different shortening rates. Moreover, we noted the presence of long telomeres on some specific chromosome arms in CML cells. These data led us to explore different mechanisms of telomere length maintenance in CML cells and we showed that both telomerase and the ALT can be used to maintain their telomere length. Finally, the use of LoVo cell line, from colon carcinoma, allowed us to show that the profile of individual telomere length can be dissimilar in different cancers; and specific mutations of TP53 influence this profile in a same cancer cell. Therefore, the profile of individual telomere length of a cancer cell is defined by the genetic background of the individual, the tumor type, and the nature of the mutations. The study of nuclear architecture of telomeres was done in three different settings. First, we explored impacts on nuclear architecture of telomeres after exposing normal cells to DNA-damaging agents. We particularly observed the presence of telomeric aggregates and a change in the position of telomeres in response to UVB exposure. Next, we showed that remodeling of the nuclear architecture of telomeres could occur as early as the first clinical phase of CML. Moreover, we categorized CML cells into two groups according to the number of telomeric aggregates. Finally, we showed that the mutation TP53-R175H lead to greater alteration of the nuclear organization of telomeres and a genomic instability than the other studied TP53 mutations. The work, presented here, fosters our understanding on the involvement of telomeres in carcinogenesis and will serve as foundation for future studies on length of individual telomeres and their nuclear architecture in cancers.

Gènes du capuchon télomérique

Instabilité génomique

Dommages télomériques

TP53

Leucémie myéloïde chronique

Architecture nucléaire des télomères

Longueur des télomères individuels