Population Dynamics is a Cancer Driver.

IF 3.3 3区医学 Q2 ONCOLOGY

Carcinogenesis Pub Date : 2024-06-06 DOI:10.1093/carcin/bgae038

Mariana Dos Santos Oliveira, Marcelo de C Griebeler, Bernardo Henz, Filipe Ferreira Dos Santos, Gabriela D A Guardia, Helena B Conceição, Pedro A F Galante, Darlan C Minussi, Manuel M Oliveira, Guido Lenz

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引用次数: 0

Abstract

Most tissues are continuously renovated through the division of stem cells and the death of old or damaged cells, which is known as cell turnover rate (CTOR). Despite being in steady state, tissues have different population dynamics and leading to diverse clonality levels. Here, we propose and test that cell population dynamics can be a cancer driver. We employed the evolutionary software esiCancer to show that CTOR, within a range comparable to what is observed in human tissues, can amplify the risk of a mutation due to ancestral selection (ANSEL). In a high CTOR tissue, a mutated ancestral cell is likely to be selected and persist over generations, which leads to a scenario of elevated ANSEL profile, characterized by few niches of large clones, which does not occur in low CTOR. We found that CTOR is significantly associated with the risk of developing cancer, even when correcting for mutation load, indicating that population dynamics per se is a cancer driver. This concept is central to understanding cancer risk and for the design of new therapeutic interventions that minimize the contribution of ANSEL in cancer growth.

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人口动态是癌症的驱动因素。

大多数组织通过干细胞的分裂和老化或受损细胞的死亡不断更新，这被称为细胞更替率（CTOR）。尽管组织处于稳定状态，但它们的细胞群动态各不相同，导致克隆水平各异。在此，我们提出并验证了细胞群动态可能是癌症驱动因素。我们利用进化软件 esiCancer 显示，在与人体组织中观察到的情况相当的范围内，CTOR 可以放大由于祖先选择（ANSEL）而导致的突变风险。在高 CTOR 组织中，突变的祖先细胞很可能会被选择并持续数代，从而导致 ANSEL 曲线升高，其特点是大克隆的壁龛很少，而在低 CTOR 组织中不会出现这种情况。我们发现，即使校正了突变负荷，CTOR 仍与患癌风险显著相关，这表明种群动态本身就是癌症的驱动因素。这一概念对于理解癌症风险和设计新的治疗干预措施（最大限度地减少 ANSEL 在癌症生长中的作用）至关重要。

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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来源期刊

Carcinogenesis 医学-肿瘤学

CiteScore

9.20

自引率

2.10%

发文量

审稿时长

1 months

期刊介绍： Carcinogenesis: Integrative Cancer Research is a multi-disciplinary journal that brings together all the varied aspects of research that will ultimately lead to the prevention of cancer in man. The journal publishes papers that warrant prompt publication in the areas of Biology, Genetics and Epigenetics (including the processes of promotion, progression, signal transduction, apoptosis, genomic instability, growth factors, cell and molecular biology, mutation, DNA repair, genetics, etc.), Cancer Biomarkers and Molecular Epidemiology (including genetic predisposition to cancer, and epidemiology), Inflammation, Microenvironment and Prevention (including molecular dosimetry, chemoprevention, nutrition and cancer, etc.), and Carcinogenesis (including oncogenes and tumor suppressor genes in carcinogenesis, therapy resistance of solid tumors, cancer mouse models, apoptosis and senescence, novel therapeutic targets and cancer drugs).