共查询到20条相似文献,搜索用时 9 毫秒
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肿瘤干细胞模型是关于肿瘤形成及生物学特征的一种重要观点。该模型认为肿瘤发生的核心是一群类似于成体干细胞的肿瘤细胞, 具有自我增殖和分化潜能, 称为肿瘤干细胞(Cancer stem cells, CSCs)。目前在多种肿瘤中都发现了CSCs, 其不仅能导致肿瘤发生, 还是引起肿瘤转移、复发、抗药的关键原因。因此, 研究CSC的调控机制具有重要意义。近年来的研究发现, 除了基础的遗传学因素外, 表观遗传学在CSCs的调控中同样具有重要作用。目前主要的表观遗传学机制包括DNA甲基化、组蛋白修饰、染色质重塑及miRNA等, 能有效调节基因表达及细胞表型, 也是肿瘤研究的新热点。文章主要围绕近几年CSCs的特性研究及表观遗传学线索, 阐述表观遗传学机制调控CSCs的最新进展。 相似文献
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Jumpei Yamazaki Marcos R. Estecio Yue Lu Hai Long Gabriel G. Malouf David Graber Yujia Huo Louis Ramagli Shoudan Liang Steven M. Kornblau Jaroslav Jelinek Jean-Pierre J. Issa 《Epigenetics》2013,8(1):92-104
Acute myeloid leukemia (AML) is sustained by a population of cancer stem cells (CSCs or cancer-initiating cell). The mechanisms underlying switches from CSCs to non-CSCs in vivo remain to be understood. We address this issue in AML from the aspect of epigenetics using genome-wide screening for DNA methylation and selected histone modifications. We found no major differences in DNA methylation, especially in promoter CpG islands, between CSCs and non-CSCs. By contrast, we found thousands of genes that change H3K4me3 and/or H3K27me3 status between stem and progenitor cells as well as between progenitor and mature cells. Stem cell related pathways and proliferation or metabolism related pathways characterize genes differentially enriched for H3K4me3/H3K27me3 in stem and progenitor populations. Bivalent genes in stem cells are more plastic during differentiation and are more likely to lose H3K4me3 than to lose H3K27me3, consistent with increasingly closed chromatin state with differentiation. Our data indicates that histone modifications but not promoter DNA methylation are involved in switches from CSCs to non-CSCs in AML. 相似文献
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Embryonic stem (ES) cells distinct themselves from other cell type populations by their pluripotent ability. The unique features
of ES cells are controlled by both genetic and epigenetic factors. Studies have shown that the methylation status of DNA and
histones in ES cells is quite different from that of differentiated cells and somatic stem cells. Herein, we summarized recent
advances in DNA and histone methylation studies of mammalian ES cells. The methylation status of several key pluripotent regulatory
genes is also discussed. 相似文献
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《Epigenetics》2013,8(3):468-475
The Barcelona Conference on Epigenetics and Cancer (BCEC) entitled “Challenges, opportunities and perspectives” took place November 21–22, 2013 in Barcelona. The 2013 BCEC is the first edition of a series of annual conferences jointly organized by five leading research centers in Barcelona. These centers are the Institute of Predictive and Personalized Medicine of Cancer (IMPPC), the Biomedical Campus Bellvitge with its Program of Epigenetics and Cancer Biology (PEBC), the Centre for Genomic Regulation (CRG), the Institute for Biomedical Research (IRB), and the Molecular Biology Institute of Barcelona (IBMB). Manuel Perucho and Marcus Buschbeck from the Institute of Predictive and Personalized Medicine of Cancer put together the scientific program of the first conference broadly covering all aspects of epigenetic research ranging from fundamental molecular research to drug and biomarker development and clinical application. In one and a half days, 23 talks and 50 posters were presented to a completely booked out audience counting 270 participants. 相似文献
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The Barcelona Conference on Epigenetics and Cancer (BCEC) entitled “Challenges, opportunities and perspectives” took place November 21–22, 2013 in Barcelona. The 2013 BCEC is the first edition of a series of annual conferences jointly organized by five leading research centers in Barcelona. These centers are the Institute of Predictive and Personalized Medicine of Cancer (IMPPC), the Biomedical Campus Bellvitge with its Program of Epigenetics and Cancer Biology (PEBC), the Centre for Genomic Regulation (CRG), the Institute for Biomedical Research (IRB), and the Molecular Biology Institute of Barcelona (IBMB). Manuel Perucho and Marcus Buschbeck from the Institute of Predictive and Personalized Medicine of Cancer put together the scientific program of the first conference broadly covering all aspects of epigenetic research ranging from fundamental molecular research to drug and biomarker development and clinical application. In one and a half days, 23 talks and 50 posters were presented to a completely booked out audience counting 270 participants. 相似文献
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Shreyoshi Guha Selvam Sesili Ishfaq Hassan Mir Chinnasamy Thirunavukkarasu 《Cell biochemistry and function》2023,41(1):4-19
A metabolic problem occurs when regular functions of the body are disrupted due to an undesirable imbalance. Nonalcoholic fatty liver disease (NAFLD) is considered as one of the most common in this category. NAFLD is subclassified and progresses from lipid accumulation to cirrhosis before advancing to hepatocellular cancer. In spite of being a critical concern, the standard treatment is inadequate. Metformin, silymarin, and other nonspecific medications are used in the management of NAFLD. Aside from this available medicine, maintaining a healthy lifestyle has been emphasized as a means of combating this. Epigenetics, which has been attributed to NAFLD, is another essential feature of this disease that has emerged as a result of several sorts of research. The mechanisms by which DNA methylation, noncoding RNA, and histone modification promote NAFLD have been extensively researched. Another organelle, mitochondria, which play a pivotal role in biological processes, contributes to the global threat. Individuals with NAFLD have been documented to have a multitude of alterations and malfunctioning. Mitochondria are mainly concerned with the process of energy production and regulation of the signaling pathway on which the fate of a cell relies. Modulation of mitochondria leads to elevated lipid deposition in the liver. Further, changes in oxidation states result in an impaired balance between the antioxidant system and reactive oxygen species directly linked to mitochondria. Hence mitochondria have a definite role in potentiating NAFLD. In this regard, it is essential to consider the role of epigenetics as well as mitochondrial contribution while developing a medication or therapy with the desired accuracy. 相似文献
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上皮细胞转分化现象及其与疾病发生发展的关系,近年已成为细胞生物学、免疫学等多学科关注的聚焦点。转分化作为细胞分化发育的基本生物学现象,存在于机体诸多生理病理过程,也受表观遗传学的调控。相对于经典遗传学而言,表观遗传学作为一门新兴学科,其为生物体的基因表达调控及遗传现象提供了新的理论阐释。现知,DNA甲基化、组蛋白修饰及非编码RNA等均可导致上皮细胞基因发生表观遗传改变,与上皮细胞转分化的发生发展密切相关,并在该过程中发挥重要的调控作用。进一步阐明细胞转分化的分子基础及其表观遗传学调控机制,将有助于认识生命现象基本过程,并可为炎症性疾病、自身免疫病、器官纤维化,以及肿瘤发生与转移等机制的研究与防治,提供新的思路和应对策略。对上皮细胞转分化与表观遗传学调控关系作一简述。 相似文献
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Namihira M Kohyama J Abematsu M Nakashima K 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》2008,363(1500):2099-2109
Neural stem cells (NSCs) possess the ability to self-renew and to differentiate along neuronal and glial lineages. These processes are defined by the dynamic interplay between extracellular cues including cytokine signalling and intracellular programmes such as epigenetic modification. There is increasing evidence that epigenetic mechanisms involving, for example, changes in DNA methylation, histone modification and non-coding RNA expression are closely associated with fate specification of NSCs. These epigenetic alterations could provide coordinated systems for regulating gene expression at each step of neural cell differentiation. Here we review the roles of epigenetics in neural fate specification in the mammalian central nervous system. 相似文献
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Genomic imprinting, an epigenetic gene-marking phenomenon that occurs in the germline, leads to parental-origin-specific expression of a small subset of genes in mammals. Imprinting has a great impact on normal mammalian development, fetal growth, metabolism and adult behavior. The epigenetic imprints regarding the parental origin are established during male and female gametogenesis, passed to the zygote through fertilization, maintained throughout development and adult life, and erased in primordial germ cells before the new imprints are set. In this review, we focus on the recent discoveries on the mechanisms involved in the reprogramming and maintenance of the imprints. We also discuss the epigenetic changes that occur at imprinted loci in induced pluripotent stem cells. 相似文献
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Shagun Poddar Devesh Kesharwani Malabika Datta 《Journal of cellular physiology》2017,232(11):2938-2945