肿瘤抑制基因与乳腺癌。

T A Buchholz, M M Weil, M D Story, E A Strom, W A Brock, M D McNeese
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引用次数: 37

摘要

大多数乳腺癌病例的遗传决定因素仍然难以捉摸。然而,肿瘤抑制基因(如p53、BRCA1、BRCA2或ATM)的突变已被确定为乳腺癌发生的一种机制。已经确定,p53、BRCA1和BRCA2的遗传突变显著增加乳腺癌风险,尽管遗传ATM突变的重要性存在争议。p53的零星突变在乳腺癌细胞中也很常见。这些基因突变导致的确切缺陷尚未得到充分描述。虽然这些基因的功能不同,但它们都参与DNA损伤后基因组稳定性的维持。破坏这四种基因功能的突变可能会对DNA损伤的处理方式产生不利影响。很可能通过这种机制增加了患乳腺癌的风险。在本文中,我们回顾了p53、BRCA1、BRCA2和ATM突变与乳腺癌发展的相关性,并回顾了体外、体内和临床数据,探讨了这些突变影响基因组完整性和DNA损伤修复的机制。
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Tumor suppressor genes and breast cancer.

The genetic determinants for most breast cancer cases remain elusive. However, a mutation in a tumor suppressor gene, such as p53, BRCA1, BRCA2, or ATM, has been determined to be one mechanism of breast carcinogenesis. It has been established that inherited mutations in p53, BRCA1, and BRCA2 significantly contribute to breast cancer risk, although the importance of an inherited ATM mutation is controversial. Sporadic mutations in p53 are also common in breast cancer cells. The precise deficiencies that result from these genetic mutations have yet to be fully described. Although the functions of these genes are different, they are all involved in the maintenance of genomic stability after DNA damage. Mutations that impair the function of these four genes may adversely affect the manner in which DNA damage is processed. It is likely that the risk of breast cancer development is increased through this mechanism. In this article, we review the relevancy of p53, BRCA1, BRCA2, and ATM mutations to breast cancer development, and review the in vitro, in vivo, and clinical data exploring the mechanisms by which these mutations affect genomic integrity and DNA damage repair.

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