Epigenomic heterogeneity as a source of tumour evolution

IF 32.4 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY Energy & Environmental Science Pub Date : 2024-10-16 DOI:10.1038/s41568-024-00757-9

Marthe Laisné, Mathieu Lupien, Céline Vallot

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Abstract

In the past decade, remarkable progress in cancer medicine has been achieved by the development of treatments that target DNA sequence variants. However, a purely genetic approach to treatment selection is hampered by the fact that diverse cell states can emerge from the same genotype. In multicellular organisms, cell-state heterogeneity is driven by epigenetic processes that regulate DNA-based functions such as transcription; disruption of these processes is a hallmark of cancer that enables the emergence of defective cell states. Advances in single-cell technologies have unlocked our ability to quantify the epigenomic heterogeneity of tumours and understand its mechanisms, thereby transforming our appreciation of how epigenomic changes drive cancer evolution. This Review explores the idea that epigenomic heterogeneity and plasticity act as a reservoir of cell states and therefore as a source of tumour evolution. Best practices to quantify epigenomic heterogeneity and explore its various causes and consequences are discussed, including epigenomic reprogramming, stochastic changes and lasting memory. The design of new therapeutic approaches to restrict epigenomic heterogeneity, with the long-term objective of limiting cancer development and progression, is also addressed.

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表观基因组异质性是肿瘤演变的源头

在过去的十年中，通过开发针对 DNA 序列变异的治疗方法，癌症医学取得了显著进展。然而，由于同一基因型可产生不同的细胞状态，因此纯遗传的治疗选择方法受到了阻碍。在多细胞生物体中，细胞状态的异质性是由调控 DNA 功能（如转录）的表观遗传过程驱动的；这些过程的破坏是癌症的一个特征，它使有缺陷的细胞状态得以出现。单细胞技术的进步使我们有能力量化肿瘤的表观基因组异质性并了解其机制，从而改变我们对表观基因组变化如何驱动癌症进化的认识。本综述探讨了表观基因组异质性和可塑性是细胞状态的储存库，因此也是肿瘤进化的源泉这一观点。本综述讨论了量化表观基因组异质性和探索其各种原因和后果的最佳做法，包括表观基因组重编程、随机变化和持久记忆。此外，还讨论了限制表观基因组异质性的新治疗方法的设计问题，其长期目标是限制癌症的发展和恶化。

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来源期刊

Energy & Environmental Science 化学-工程：化工

CiteScore

50.50

自引率

2.20%

发文量

349

审稿时长

2.2 months

期刊介绍： Energy & Environmental Science, a peer-reviewed scientific journal, publishes original research and review articles covering interdisciplinary topics in the (bio)chemical and (bio)physical sciences, as well as chemical engineering disciplines. Published monthly by the Royal Society of Chemistry (RSC), a not-for-profit publisher, Energy & Environmental Science is recognized as a leading journal. It boasts an impressive impact factor of 8.500 as of 2009, ranking 8th among 140 journals in the category "Chemistry, Multidisciplinary," second among 71 journals in "Energy & Fuels," second among 128 journals in "Engineering, Chemical," and first among 181 scientific journals in "Environmental Sciences." Energy & Environmental Science publishes various types of articles, including Research Papers (original scientific work), Review Articles, Perspectives, and Minireviews (feature review-type articles of broad interest), Communications (original scientific work of an urgent nature), Opinions (personal, often speculative viewpoints or hypotheses on current topics), and Analysis Articles (in-depth examination of energy-related issues).