脑胶质瘤MGMT、hMLH1和hMSH2基因启动子甲基化状态研究

目的：探讨脑胶质瘤患者O6-甲基鸟嘌呤-DNA甲基转移酶基因MGMT和错配修复基因hMLH1、hMSH2启动子CpG岛甲基化状态,及其在烷化剂化疗中的意义。方法：采用甲基化特异性PCR（MSP）方法检测39例脑胶质瘤和6例正常脑组织MGMT、hMLH1和hMSH2基因启动子区的甲基化状态,免疫组化方法测定蛋白表达。结果：脑胶质瘤患者组织MGMT、hMLH1和hMSH2基因启动子区甲基化发生率分别为46.2%、10.3%和20.5%,3种基因启动子未甲基化模式与其对应蛋白表达模式相似,并与患者性别、年龄、病理类型和病理分级无明显相关性。回顾性分析患者资料,显示39例脑胶质瘤患者中,MGMT基因甲基化的患者生存期显著高于MGMT基因未甲基化患者（P〈0.05,Log-rank检验）。结论：MGMT及错配修复基因甲基化是脑胶质瘤发生过程中常见的分子事件,可能与肿瘤的发生有关;检测MGMT、hMLH1和hMSH2基因启动子甲基化状态,在判断脑胶质瘤患者预后和预测烷化剂化疗耐药性中可能具有重要意义。     

结直肠癌中DNA甲基化研究进展

CpG岛是人类基因组中富含CpG二核苷酸的DNA序列,主要位于基因启动子区,大小约为100-1000bp,与约60％编码基因相关。DNA中CpG岛甲基化可导致抑癌基因的表观遗传学转录失活,直接参与肿瘤的发生机制。近年来,甲基化已成为表观遗传学研究的焦点。我们简要综述了DNA甲基化在结直肠癌中的研究进展。     

小鼠骨髓细胞中p16和Ralb基因启动区CpG岛的甲基化位点分析

抑癌基因p16和白血病致癌因子Ralb与白血病的发生密切相关,其启动子区CpG岛的甲基化对基因表达具有重要作用.本文旨在分析p16、Ralb基因启动子区CpG岛甲基化位点信息,并比较这两个基因在小鼠骨髓细胞和原代培养的骨髓细胞中甲基化状态的差异.运用"MethPrimer"软件预测p16、Ralb基因启动子区的CpG岛,设计甲基化特异性引物.利用重亚硫酸盐测序法(BSP)检测甲基化位点信息.结果显示,p16有1个CpG岛,岛上21个CpG位点全部未发生甲基化;Ralb有2个CpG岛,CpG岛1上的5个CpG位点全部呈甲基化状态,而CpG岛2上的17个CpG位点全部呈非甲基化状态,且小鼠骨髓细胞和体外原代培养的骨髓细胞中两基因的甲基化状态一致.表明p16、Ralb基因甲基化状态未受外界培养条件的影响而改变,提示在与两基因甲基化相关的研究中体外试验可替代体内试验.     

脑胶质瘤患者组织和血清MGMT、hMLH1和hMSH2基因启动子甲基化状态检测

目的探讨脑胶质瘤患者组织和血清中MGMT、hMLH1和hMSH2基因启动子CpG岛甲基化发生率及相关性。方法甲基化特异性PCR（MSP）检测39例脑胶质瘤组织样本及32例预处理的脑胶质瘤血清样本中MGMT、hMLH1和hMSH2基因启动子区的甲基化状态。结果脑胶质瘤组织MGMT、hMLH1和hMSH2基因启动子区甲基化发生率分别为46．2％、10．3％和20．5％,肿瘤组织中至少有一种基因甲基化的发生率为64．1％（25／39）;在脑胶质瘤患者外周循环血液中检测到了相关基因甲基化系列,并且与组织中基因甲基化发生率明显相关。结论MGMT、hMLH1和hMSH2基因启动子甲基化是脑胶质瘤发生过程中常见的分子事件,血清中相关基因DNA甲基化检测有可能为脑胶质瘤诊断和个体化化疗提供一种稳定的无创性检测指标。     

肺癌相关基因甲基化谱研究进展

近年来,细胞基因组的表观遗传学(epigenetics)改变在肿瘤发生发展中的作用日益受到国内外学者的关注。基因启动子区域CpG岛的甲基化导致的基因表达的失活是表观遗传学改变的重要方式之一。大量的研究表明,肺癌中存在多种抑癌基因或促凋亡基因启动子甲基化,并证实这些基因的甲基化与肺癌的发生、发展相关。这些研究为原发性肺癌的早期诊断和疾病监测找到了新的分子标志物。现对与肺癌发生相关基因甲基化的研究现状作一综述。     

子宫内膜异位症中hMLH1、hMSH2基因启动子区的甲基化研究

目的：探讨错配修复基因1（hMLH1）、错配修复基因2（hMSH2）启动子区甲基化与子宫内膜异位症的关系。方法：采用甲基化特异性PCR方法检测23例子宫内膜异位症组织和20例正常子宫内膜中hMLH1、hMSH2基因启动子区的甲基化状态。结果：hMLH1基因在子宫内膜异位症中的甲基化率为39％（9/23）,在正常子宫内膜组织中的甲基化率为5％（1／20）,两者比较,差异有统计学意义（P〈0．05）;hMSH2基因在子宫内膜异位症中的甲基化率为8％（2／23）,在正常子宫内膜组织中的甲基化率为5％（1／20）,两者比较,无明显差异（P〉0．05）。结论：hMLH1基因启动子区甲基化可能与子宫内膜异位症发病有关;hMSH2基因启动子区甲基化与子宫内膜异位症之间不存在显著联系。     

DNA甲基化与基因表达调节

DNA异常甲基化是一种表观遗传改变,常发生在启动子区的CpG岛。某些基因甲基化与基因表达密切相关,在生命过程中扮演着重要功能。一方面,DNA甲基化与高等动物的生长发育密切相关,另一方面,DNA甲基化和其他生命过程也有重要的联系。如X染色体失活、基因组印记、发育调控及细胞分化和肿瘤发生发展中起重要作用。     

p16基因甲基化与表达在子宫内膜癌中的意义

肿瘤抑制基因p16定位于9号染色体短臂2区1带,编码细胞周期调节蛋白p16,p16基因失活将导致细胞增殖失控。研究证实肿瘤抑制基因启动子区域5CpG岛甲基化是导致转录水平上基因失活的重要机制。为了研究p16基因甲基化状态及其表达异常与子宫内膜癌发生的关系,采用甲基化特异性PCR(MSP)、免疫组化及PCR方法检测62例子宫内膜癌及相应癌旁组织、10例相应年龄正常子宫内膜中p16基因5′cpG岛甲基化状态、p16蛋白表达及p16基因外显子E,和E：表达缺失情况。结果表明癌旁及正常子宫内膜p16基因无甲基化,且无p16蛋白、外显子1和2的表达异常。62例子宫内膜癌中,15例甲基化,占24、2％;33例p16蛋白表达下降或无表达,占54．8％;p16基因外显子1缺失率16．1％(10／62),外显子2缺失率为30．6％(19／62),两者均缺失9．68％(6／62),至少其中1种缺失46、6％(29／62)。提示P16基因失活在子宫内膜癌中多见且与病理分级、临床分期密切相关。D16基因甲基化在子宫内膜癌的发生中起着重要作用。MSP法测定基因甲基化状态准确且简便可行。     

乳腺癌中beclin1基因下调机制的研究

目的探讨beclin1在乳腺癌中的可能下调机制。方法用Real-time RT-PCR检测34例乳腺癌中be-clin1 mRNA的表达;Q-PCR分析beclin1是否存在基因的缺失;亚硫酸氢钠测序法检测beclin1基因启动子区域的CpG岛甲基化。结果乳腺癌组织中beclin1的mRNA表达水平与癌旁组织比较显著下调（P=0.005）;Q-PCR发现62%的肿瘤标本中beclin1基因存在缺失;在6例乳腺癌mRNA表达下调的乳腺癌标本中发现启动子区域异常的DNA甲基化。结论beclin1基因的缺失和启动子区域的异常甲基化可能是其在肿瘤细胞中失活的两种机制。     

宫颈癌中相关基因启动子高甲基化研究进展

本文主要从分子水平介绍了在宫颈癌发生发展过程中抑癌基因的甲基化的作用.以往认为人乳头状病毒高危型的的感染是导致宫颈癌发生的主要因素.随着科技的发展,宫颈癌组织中抑癌基因的甲基化越来越备受关注.既往认为基因内突变和染色体物质缺失是肿瘤抑制基因失活的主要原因.但是,启动子CPG岛异常甲基化导致的基因失活在肿瘤发生发展过程中起着非常重要的作用现已确切证明,DNA甲基化是肿瘤抑制基因失活的第三种机制,而且在某些情况下是抑癌基因失活的惟一机制.对宫颈癌组织中的对相关抑癌基因甲基化的筛选并作为标记应用在检测宫颈癌中,这在防止宫颈癌的发生起到重大作用,还可有望作为宫颈癌治疗疗效检测的一项手段.     

DNA methylation analysis using bisulfite treatment and PCR-single-strand conformation polymorphism in colorectal cancer showing microsatellite instability.

The combination of bisulfite treatment and PCR-single-strand DNA conformation polymorphism (SSCP) analysis is proposed for quantitative methylation assay. We applied this procedure to the methylation analysis of the hMLH1 promoter region in colorectal cancer. An analysis of mixtures of known amounts of methylated and unmethylated DNA revealed a linear relation. Using a calibration curve, proportions of methylated DNA were calculated. The hMLH1 promoter region was highly methylated in about 80% of microsatellite instability (MSI) (+) colorectal cancers, but in none of the MSI(-) colorectal cancers. A significant correlation existed between hypermethylation of the hMLH1 promoter and MSI, as in previous reports. In conclusion, bisulfite-PCR-SSCP (BiPS) analysis could be applied to the rapid identification of methylation status in multiple samples, quantification of methylation differences, and detection of methylation heterogeneity in amplified DNA fragments.     

Methylation of CpG dinucleotides in the open reading frame of a testicular germ cell-specific intronless gene,Tact1/Actl7b,represses its expression in somatic cells

Methylation of CpG islands spanning promoter regions is associated with control of gene expression. However, it is considered that methylation of exonic CpG islands without promoter is not related to gene expression, because such exonic CpG islands are usually distant from the promoter. Whether methylation of exonic CpG islands near the promoter, as in the case of a CpG-rich intronless gene, causes repression of the promoter remains unknown. To gain insight into this issue, we investigated the distribution and methylation status of CpG dinucleotides in the mouse Tact1/Actl7b gene, which is intronless and expressed exclusively in testicular germ cells. The region upstream to the gene was poor in CpG, with CpG dinucleotides absent from the core promoter. However, a CpG island was found inside the open reading frame (ORF). Analysis of the methylation status of the Tact1/Actl7b gene including the 5′-flanking area demonstrated that all CpG sites were methylated in somatic cells, whereas these sites were unmethylated in the Tact1/Actl7b-positive testis. Trans fection experiments with in vitro-methylated constructs indicated that methylation of the ORF but not 5′ upstream repressed Tact1/Actl7b promoter activity in somatic cells. Similar effects of ORF methylation on the promoter activity were observed in testicular germ cells. These are the first results indicating that methylation of the CpG island in the ORF represses its promoter in somatic cells and demethylation is necessary for gene expression in spermatogenic cells.     

Methylation-mediated silencing of TMS1/ASC is accompanied by histone hypoacetylation and CpG island-localized changes in chromatin architecture.

Aberrant methylation of CpG-dense islands in the promoter regions of genes is an acquired epigenetic alteration associated with the silencing of tumor suppressor genes in human cancers. In a screen for endogenous targets of methylation-mediated gene silencing, we identified a novel CpG island-associated gene, TMS1, which is aberrantly methylated and silenced in response to the ectopic expression of DNA methyltransferase-1. TMS1 functions in the regulation of apoptosis and is frequently methylated and silenced in human breast cancers. In this study, we characterized the methylation pattern and chromatin architecture of the TMS1 locus in normal fibroblasts and determined the changes associated with its progressive methylation. In normal fibroblasts expressing TMS1, the CpG island is defined by an unmethylated domain that is separated from densely methylated flanking DNA by distinct 5' and 3' boundaries. Analysis of the nucleoprotein architecture of the locus in intact nuclei revealed three DNase I-hypersensitive sites that map within the CpG island. Strikingly, two of these sites coincided with the 5'- and 3'-methylation boundaries. Methylation of the TMS1 CpG island was accompanied by loss of hypersensitive site formation, hypoacetylation of histones H3 and H4, and gene silencing. This altered chromatin structure was confined to the CpG island and occurred without significant changes in methylation, histone acetylation, or hypersensitive site formation at a fourth DNase I-hypersensitive site 2 kb downstream of the TMS1 CpG island. The data indicate that there are sites of protein binding and/or structural transitions that define the boundaries of the unmethylated CpG island in normal cells and that aberrant methylation overcomes these boundaries to direct a local change in chromatin structure, resulting in gene silencing.     

A reinvestigation of somatic hypermethylation at the PTEN CpG island in cancer cell lines

Background

PTEN is an important tumour suppressor gene that is mutated in Cowden syndrome as well as various sporadic cancers. CpG island hypermethylation is another route to tumour suppressor gene inactivation, however, the literature regarding PTEN hypermethylation in cancer is controversial. Furthermore, investigation of the methylation status of the PTEN CpG island is challenging due to sequence homology with the PTEN pseudogene, PTENP1. PTEN shares a CpG island promoter with another gene known as KLLN. Here we present a thorough reinvestigation of the methylation status of the PTEN CpG island in DNA from colorectal, breast, ovarian, glioma, lung and haematological cancer cell lines.

Results

Using a range of bisulphite-based PCR assays we investigated 6 regions across the PTEN CpG island. We found that regions 1-4 were not methylated in cancer cell lines (0/36). By allelic bisulphite sequencing and pyrosequencing methylation was detected in regions 5 and 6 in colorectal, breast and haematological cancer cell lines. However, methylation detected in this region was associated with the PTENP1 promoter and not the PTEN CpG island.

Conclusions

We show that methylation of the PTEN CpG island is a rare event in cancer cell lines and that apparent methylation most likely originates from homologous regions of the PTENP1 pseudogene promoter. Future studies should utilize assays that reliably discriminate between PTEN and PTENP1 to avoid data misinterpretation.     

基于模糊理论预测CpG岛新方法

启动子区域的CpG岛的异常甲基化是识别癌症的重要标志之一。目前已经建立的一些CpG岛的预测思想和方法都有自身的缺点,基于模糊理论的预测思想从贴进度的角度来判定CpG岛,能更容易地找到被以往方法所忽略的具有更多生物学意义的CpG岛。本研究通过构建属于CpG岛集合的隶属函数,计算候选序列的隶属度,找出所有的可接受隶属程度的CpG岛。将该方法应用于UCSC数据库中的一段序列（hg18．chr1．31618510.31623510.-1000）进行预测,发现提高了预测的精确度。可见应用模糊理论预测CpG岛具有一定的可行性,利用选取不同的截集,可以得到更为精确的CpG岛。