Department of Integrative Biology and Pharmacology, University of Texas Medical School, PO Box 20708, Houston, TX 77225, USA.
Mol Cancer Ther. 2010 Feb;9(2):327-35. doi: 10.1158/1535-7163.MCT-09-0674. Epub 2010 Jan 26.
The involvement of tubulin mutations as a cause of clinical drug resistance has been intensely debated in recent years. In the studies described here, we used transfection to test whether beta1-tubulin mutations and polymorphisms found in cancer patients are able to confer resistance to drugs that target microtubules. Three of four mutations (A185T, A248V, R306C, but not G437S) that we tested caused paclitaxel resistance, as indicated by the following observations: (a) essentially 100% of cells selected in paclitaxel contained transfected mutant tubulin; (b) paclitaxel resistance could be turned off using tetracycline to turn off transgene expression; (c) paclitaxel resistance increased as mutant tubulin production increased. All the paclitaxel resistance mutations disrupted microtubule assembly, conferred increased sensitivity to microtubule-disruptive drugs, and produced defects in mitosis. The results are consistent with a mechanism in which tubulin mutations alter microtubule stability in a way that counteracts drug action. These studies show that human tumor cells can acquire spontaneous mutations in beta1-tubulin that cause resistance to paclitaxel, and suggest that patients with some polymorphisms in beta1-tubulin may require higher drug concentrations for effective therapy.
近年来,微管蛋白突变作为临床药物耐药性的原因一直备受争议。在本研究中,我们通过转染实验来测试在癌症患者中发现的β1-微管蛋白突变和多态性是否能够赋予其对微管靶向药物的耐药性。我们测试的四个突变中的三个(A185T、A248V、R306C,但不是 G437S)导致紫杉醇耐药,如下观察结果所示:(a)基本上 100%在紫杉醇中选择的细胞都包含转染的突变微管蛋白;(b)使用四环素关闭转基因表达可以关闭紫杉醇耐药性;(c)随着突变微管蛋白产量的增加,紫杉醇耐药性增加。所有紫杉醇耐药性突变均破坏微管组装,增加对微管破坏药物的敏感性,并导致有丝分裂缺陷。结果与这样一种机制一致,即微管蛋白突变以一种对抗药物作用的方式改变微管稳定性。这些研究表明,人类肿瘤细胞可以自发获得导致紫杉醇耐药的β1-微管蛋白突变,并表明β1-微管蛋白的一些多态性患者可能需要更高的药物浓度才能进行有效的治疗。