The etiology of clonal mosaicism in human aging and disease

Aging and cancer Pub Date : 2023-02-17 DOI:10.1002/aac2.12061

Sanne Massaar, Mathijs A. Sanders

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引用次数: 2

Abstract

Our DNA is consistently assaulted by a variety of intrinsic and extrinsic mutational factors. Fortunately, DNA repair provides for protective barriers that limit the full manifestation of DNA damage. Yet, DNA repair represents no panacea as DNA damage continuously slips through these erected defenses and materializes as mutation, which can have undesirable consequences as seen for cancer. Acquisition of early driver mutations can engender mutated stem cells with increased cellular fitness resulting in clonal expansion (CE) and increased risk of malignant disease. Tissue clonal mosaicism as observed in the elderly is therefore the natural outcome of continuous driver mutation acquisition in stem cells and their subsequent clonal outgrowth. Hence, a major emerging theme is that CE is an idiosyncrasy of the aging human tissue. This phenomenon can have diverse health consequences that we here divide into three categories: cancer, non-cancer morbidity, and disease protection. This review outlines current day knowledge on clonal outgrowth, how it relates to health and aging, and how in the framework of DNA repair deficiencies these subjects are consolidated.

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人类衰老和疾病中克隆嵌合的病因

我们的DNA一直受到各种内在和外在突变因素的攻击。幸运的是，DNA修复提供了保护性屏障，限制了DNA损伤的充分表现。然而，DNA修复并不是灵丹妙药，因为DNA损伤不断地通过这些建立的防御系统，并以突变的形式具体化，这可能会对癌症产生不良后果。获得早期驱动突变可以产生细胞适应性增强的突变干细胞，导致克隆扩增（CE）和恶性疾病风险增加。因此，在老年人中观察到的组织克隆镶嵌是干细胞中连续驱动突变获取及其随后克隆生长的自然结果。所以，一个主要的新兴主题是CE是衰老人体组织的一种特性。这种现象可能会对健康产生不同的影响，我们将其分为三类：癌症、非癌症发病率和疾病保护。这篇综述概述了目前关于克隆生长的知识，它如何与健康和衰老有关，以及如何在DNA修复缺陷的框架内巩固这些主题。

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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