散发性乳腺癌的遗传学。

A J Brenner, C M Aldaz
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摘要

乳腺癌是一种复杂的疾病,其中发生了许多遗传畸变。目前尚不清楚,如果有的话,这些异常是乳腺肿瘤发生的诱因。然而,根据目前公认的乳腺癌是一个多步骤过程的观点,从正常乳腺上皮细胞到侵袭性肿瘤细胞的进展可能需要特定的异常。图3显示了主要基于流行病学和组织病理学研究的假定乳腺癌进展模型示意图(Page和DuPont, 1992)。方法学的进步使我们能够更精确地确定其中一些畸变的大致年表,以及每种畸变在恶性肿瘤形成中可能起的作用。简单地说,人们可以推测,在有丝分裂刺激存在的情况下,细胞周期控制的早期丧失,使细胞不受控制地分裂。在缺乏野生型p53的情况下,这种不受控制的增殖将产生高度的基因组不稳定性。随着增殖的继续,会出现许多额外的染色体异常,并且随着不同亚群的出现,肿瘤异质性会增加,从而逐渐向更具侵袭性的表型进化。然而,要全面了解乳腺癌基因进化背后的关键因素,还有很多事情要做。只有通过分析浸润前和假定的乳腺癌早期阶段,我们才能确定最可能的基因组异常序列。
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The genetics of sporadic breast cancer.

Breast cancer is a complex disease in which numerous genetic aberrations occur. It is unclear which, if any, of these abnormalities are causative of breast tumorigenesis. However, on the basis of the currently accepted view of breast cancer as a multistep process, it is possible that specific abnormalities may be required in the progression from a normal breast epithelial cell to an invasive tumor cell. Figure 3 shows a schematic putative model of breast cancer progression based primarily on epidemiological and histopathological studies (Page and DuPont, 1992). Advances in methodology have allowed us to more precisely determine the approximate chronology of some of these aberrations and the possible roles each plays in the formation of malignancy. Simplistically, one could speculate that it is the early loss of cell cycle control in the presence of a mitogenic stimulus that allows a cell to divide unchecked. Such uncontrolled proliferation in the absence of wild type p53 would yield a high level of genomic instability. As proliferation continues, numerous additional chromosomal abnormalities occur, and increased tumor heterogeneity would be observed as distinct subpopulations emerge in the evolution toward a progressively more aggressive phenotype. However, much still remains to be learned to gain a full understanding of the key players behind the genetic evolution of breast cancer. Only by analyzing preinvasive and putative early stages of breast cancer will we be able to characterize the most probable sequence of genomic abnormalities.

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