Apoptosis and cancer chemotherapy.

Behring Institute Mitteilungen Pub Date : 1996-10-01

C M Chresta, E L Arriola, J A Hickman

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Abstract

Cytotoxic drugs currently remain as the basis for the chemotherapy of metastatic cancer. Why they fail to kill sufficient tumour cells in the major human solid cancers, such as the carcinomas, is suggested in this review to be due to the inherent inability of these cells to engage apoptosis after drug-induced damage. As a paradigm for drug resistant cancers, the resistance of bladder carcinoma cell lines to DNA damaging drugs is described here in terms of their response to the topoisomerase II poison etoposide. 60%-70% of bladder carcinomas have mutant p53; this can prevent the detection of and response to DNA damage. In vitro studies with a bladder carcinoma cell line containing a wild type p53 showed that it underwent a G1 checkpoint after etoposide, potentially allowing DNA damage repair, as well as apoptosis. In lines with mutant or non-functional p53 there is no checkpoint and no apoptosis. All lines showed constitutive expression of bcl-2 and bcl-XL (the suppressors of apoptosis) with low and non-inducible levels of bax (a promoter of apoptosis). Taken together, this menu of gene expression is more favourable to survival than apoptosis after the imposition of drug-induced DNA damage and may contribute to their inherent drug resistance.

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细胞凋亡和癌症化疗。

细胞毒性药物目前仍是转移性癌症化疗的基础。在主要的人类实体癌(如癌)中，为什么它们不能杀死足够的肿瘤细胞，这篇综述认为是由于这些细胞在药物诱导损伤后固有的无法参与凋亡。作为耐药癌症的一个范例，膀胱癌细胞系对DNA损伤药物的耐药性在这里被描述为它们对拓扑异构酶II毒性依托泊苷的反应。60%-70%的膀胱癌有p53突变体;这可以防止对DNA损伤的检测和反应。含有野生型p53的膀胱癌细胞系的体外研究表明，依托泊苷后，它经历了G1检查点，可能允许DNA损伤修复和细胞凋亡。突变或无功能p53细胞系中没有检查点，也没有细胞凋亡。所有细胞系均表达bcl-2和bcl-XL(细胞凋亡抑制因子)，bax(细胞凋亡促进因子)表达水平低且不可诱导。综上所述，在药物诱导的DNA损伤后，这种基因表达方式比细胞凋亡更有利于存活，并可能有助于它们固有的耐药性。

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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Behring Institute Mitteilungen

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