Histone modifications in cancer biology and prognosis.

Siavash K Kurdistani
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引用次数: 97

Abstract

Cancer is a disease of genome sequence alterations as well as epigenetic changes. Epigenetics refers in part to the mechanisms by which histones affect various DNA-based processes, such as gene regulation. Histones are proteins around which the DNA wraps itself to form chromatin--the physiologically relevant form of the human genome. Histones are modified extensively by posttranslational modifications that alter chromatin structure and serve to recruit to or exclude protein complexes from DNA. Aberrations in histone modifications occur frequently in cancer including changes in their levels and distribution at gene promoters, gene coding regions, repetitive DNA sequences, and other genomic elements. Locus-specific alterations in histone modifications may have adverse effects on expression of nearby genes but so far have not been shown to have clinical utility. Cancer cells also exhibit alterations in global levels of specific histone modifications, generating an additional layer of epigenetic heterogeneity at the cellular level in tumor tissues. Unlike locus-specific changes, the cellular epigenetic heterogeneity can be used to define previously unrecognized subsets of cancer patients with distinct clinical outcomes. In general, increased prevalence of cells with lower global levels of histone modifications is prognostic of poorer clinical outcome such as increased risk of tumor recurrence and/or decreased survival probability. Prognostic utility of histone modifications has been demonstrated independently for multiple cancers including those of prostate, lung, kidney, breast, ovary, and pancreas, suggesting a fundamental association between global histone modification levels and tumor aggressiveness, regardless of cancer tissue of origin. Cellular levels of histone modifications may also predict response to certain chemotherapeutic agents, serving as predictive biomarkers that could inform clinical decisions on choice and course of therapy. The challenge before us is to understand how global levels of histone modifications are established and maintained and what their mechanistic links are to the cancer clinical behavior.

组蛋白修饰在癌症生物学和预后中的作用。
癌症是一种基因组序列改变和表观遗传改变的疾病。表观遗传学部分是指组蛋白影响各种基于dna的过程的机制,如基因调控。组蛋白是DNA包裹自身形成染色质的蛋白质,染色质是人类基因组的生理相关形式。组蛋白通过翻译后修饰广泛修饰,改变染色质结构,并从DNA中招募或排除蛋白质复合物。组蛋白修饰的畸变在癌症中经常发生,包括它们在基因启动子、基因编码区、重复DNA序列和其他基因组元件上的水平和分布的变化。组蛋白修饰的位点特异性改变可能对附近基因的表达产生不利影响,但迄今为止尚未显示出具有临床效用。癌细胞也表现出特定组蛋白修饰的全球水平的改变,在肿瘤组织的细胞水平上产生额外的表观遗传异质性。与基因座特异性改变不同,细胞表观遗传异质性可用于定义以前未被识别的具有不同临床结果的癌症患者亚群。一般来说,整体组蛋白修饰水平较低的细胞患病率增加预示着较差的临床结果,如肿瘤复发风险增加和/或生存概率降低。组蛋白修饰在多种癌症(包括前列腺癌、肺癌、肾癌、乳腺癌、卵巢癌和胰腺癌)中的预后作用已被独立证明,这表明无论癌症组织起源如何,整体组蛋白修饰水平与肿瘤侵袭性之间存在根本关联。组蛋白修饰的细胞水平也可以预测对某些化疗药物的反应,作为预测性生物标志物,可以为临床决定治疗的选择和过程提供信息。摆在我们面前的挑战是了解全局水平的组蛋白修饰是如何建立和维持的,以及它们与癌症临床行为的机制联系是什么。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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