健康组织和恶性肿瘤前期组织中的克隆演化:早期癌症拦截策略的意义。

Jayant K Rane, Alexander M Frankell, Clare E Weeden, Charles Swanton
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摘要

组织学上正常的人体组织随着年龄的增长会积累大量的突变负荷。无论是在快速增殖的组织中,还是在萎缩后的组织中,抑或是在干细胞与其分化后的后代相比,突变的程度和范围都不相上下。其中一些突变增加了适存性,产生的克隆有时可取代组织的整个表面积。与癌症相比,组织学正常组织中的体细胞突变主要是单核苷酸变异。但有趣的是,这些突变的存在和孤立的正克隆选择仍然是实体组织中未来潜在癌症转化的一个不良指标。组织学正常组织中常见的克隆扩增突变也并不总是代表相应组织癌症中最常见的早期突变,这表明选择压力存在差异。初步证据表明,基质和免疫系统会随着年龄的增长而共同进化,这可能会影响选择动态。在这篇综述中,我们将详细探讨组织学上正常和恶性肿瘤前期人类体细胞组织的突变情况,并讨论可决定其中正向选择突变命运的细胞内在因素和环境因素。精确定位这些癌症转化的决定因素将有助于制定早期癌症干预和预防策略。
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Clonal Evolution in Healthy and Premalignant Tissues: Implications for Early Cancer Interception Strategies.

Histologically normal human tissues accumulate significant mutational burden with age. The extent and spectra of mutagenesis are comparable both in rapidly proliferating and post-mitotic tissues and in stem cells compared with their differentiated progeny. Some of these mutations provide increased fitness, giving rise to clones which, at times, can replace the entire surface area of tissues. Compared with cancer, somatic mutations in histologically normal tissues are primarily single-nucleotide variations. Interestingly though, the presence of these mutations and positive clonal selection in isolation remains a poor indicator of potential future cancer transformation in solid tissues. Common clonally expanded mutations in histologically normal tissues also do not always represent the most frequent early mutations in cancers of corresponding tissues, indicating differences in selection pressures. Preliminary evidence implies that stroma and immune system co-evolve with age, which may impact selection dynamics. In this review, we will explore the mutational landscape of histologically normal and premalignant human somatic tissues in detail and discuss cell-intrinsic and environmental factors that can determine the fate of positively selected mutations within them. Precisely pinpointing these determinants of cancer transformation would aid development of early cancer interventional and prevention strategies.

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