T35

Q3 Medicine
F. Kisseljov, S. Vinokurova, N. Kisseljova, L. Pavlova, M. Fedorova, A. Katargin, A. Petrenko, L. Korolenkova
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引用次数: 0

Abstract

Epigenetics investigates mechanisms that control inheritance of gene expression program during somatic cell divisions. These mechanisms include regulation by DNA methylation, histone post-translational modifications and nucleosome positioning, functioning of regulatory non-coding RNAs, control of alternative splicing of mRNA precursors and high-order chromatin organization. Genome-wide loss of epigenetic stability and increased epigenetic plasticity are common features of all tumor types. In normal tissues epigenetic plasticity allow cells to response on environment signals. Thus, in tumor cells its constitutive activation leads to epigenetic heterogeneity that are the additional hallmark of the most of the classical cancers. Cervical cancers are one of the most interesting models for the analysis of the role of epigenetic changes in tumor progression. These types of tumors are associated with infection of human papilloma viruses of so-called high-risk group (HR-HPV) and characterized by well-defined stages of malignant conversion from intraepithelial neoplasias to carcinomas. The viral DNA can persist in episomal form or integrates into the host-cell genome.

Cellular genomes encode genetic information in their linear sequence, but appropriate gene expression requires chromosomes to fold into dynamic complex three-dimensional structures. Scaffold/matrix attachment regions (S/MARs) are specialized genomic DNA sequences that take part in organization of these structures. We demonstrated that methylation of S/MARs was required for their attachment to nuclear matrix and that methylation status of S/MARs was changed in cervical cancer cell compared to normal cells.

DNA methylation plays an important role in the regulation of gene expression. We found that methylation of the regulatory sequences in the HPV16 genome specifically changes in transformed compared to the normal cervical epithelial cells. Next, we showed that methylation of the transcription factor binding sites modulates the viral oncogene expression. These data suggest that the HPV16 genome methylation may represent an important mechanism that initiates the development of HPV-associated tumors.

Using next generation sequencing, we identified pattern of differentially expressed microRNAs in clinical samples of the cervical lesions. We confirmed expression of microRNAs that have been described previously as well as identified new microRNAs that can be potentially involved in the development and progression of cervical cancer. Spectrum of differentially expressed microRNAs includes microRNAs targeting tumor-suppressor genes as well as oncogenes.

Telomerase is a key regulator of cell proliferation. This enzyme is silent in normal cells and activated in most of the tumors. Few forms of RNA (hTERT), encoded by telomerase gene were detected in different tumor cells and among them three forms (alfa, beta and gamma) are most well pronounced. We found that in cervical tumors expression of all three forms are significantly increased. In some cases, we also observe higher level of hTERT expression in neighboring “normal tissue”. The correlation between expression levels of these three forms varied on different stages of the disease (three stages on intraepithelial neoplasias and carcinomas). The function of these three hTERT forms is still not well understood.

T35
表观遗传学研究体细胞分裂过程中基因表达程序的遗传控制机制。这些机制包括DNA甲基化、组蛋白翻译后修饰和核小体定位、调节性非编码rna的功能、mRNA前体选择性剪接的控制和高阶染色质组织。表观遗传稳定性的全基因组丧失和表观遗传可塑性的增加是所有肿瘤类型的共同特征。在正常组织中,表观遗传可塑性允许细胞对环境信号作出反应。因此,在肿瘤细胞中,其组成性激活导致表观遗传异质性,这是大多数经典癌症的额外标志。子宫颈癌是分析表观遗传变化在肿瘤进展中的作用的最有趣的模型之一。这些类型的肿瘤与所谓的高危人群(HR-HPV)的人乳头瘤病毒感染有关,其特征是从上皮内瘤变到癌的恶性转化的明确阶段。病毒DNA可以以附体形式存在或整合到宿主细胞基因组中。细胞基因组以其线性序列编码遗传信息,但适当的基因表达需要染色体折叠成动态复杂的三维结构。支架/基质附着区(S/MARs)是参与这些结构组织的特殊基因组DNA序列。我们证明了S/MARs的甲基化是其附着于核基质所必需的,并且与正常细胞相比,S/MARs的甲基化状态在宫颈癌细胞中发生了变化。DNA甲基化在基因表达调控中起着重要作用。我们发现,与正常宫颈上皮细胞相比,转化后的HPV16基因组中调控序列的甲基化发生了特异性变化。接下来,我们发现转录因子结合位点的甲基化调节了病毒癌基因的表达。这些数据表明,HPV16基因组甲基化可能是启动hpv相关肿瘤发展的重要机制。使用下一代测序,我们确定了宫颈病变临床样本中差异表达的microrna模式。我们证实了先前描述的microrna的表达,并鉴定了可能参与宫颈癌发生和进展的新microrna。差异表达的microRNAs谱包括靶向肿瘤抑制基因的microRNAs和靶向癌基因的microRNAs。端粒酶是细胞增殖的关键调控因子。这种酶在正常细胞中是沉默的,在大多数肿瘤中被激活。端粒酶基因编码的RNA (hTERT)在不同的肿瘤细胞中检测到几种形式,其中三种形式(α、β和γ)最为明显。我们发现在宫颈肿瘤中这三种形式的表达都显著增加。在某些情况下,我们还观察到邻近“正常组织”中hTERT的表达水平较高。这三种表达水平的相关性在疾病的不同阶段有所不同(上皮内瘤变和癌的三个阶段)。这三种hTERT形式的功能仍然没有得到很好的理解。
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来源期刊
Ejc Supplements
Ejc Supplements 医学-肿瘤学
自引率
0.00%
发文量
0
审稿时长
3.7 months
期刊介绍: EJC Supplements is an open access companion journal to the European Journal of Cancer. As an open access journal, all published articles are subject to an Article Publication Fee. Immediately upon publication, all articles in EJC Supplements are made openly available through the journal''s websites. EJC Supplements will consider for publication the proceedings of scientific symposia, commissioned thematic issues, and collections of invited articles on preclinical and basic cancer research, translational oncology, clinical oncology and cancer epidemiology and prevention. Authors considering the publication of a supplement in EJC Supplements are requested to contact the Editorial Office of the EJC to discuss their proposal with the Editor-in-Chief. EJC Supplements is an official journal of the European Organisation for Research and Treatment of Cancer (EORTC), the European CanCer Organisation (ECCO) and the European Society of Mastology (EUSOMA).
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