Breaking malignant nuclei as a non-mitotic mechanism of taxol/paclitaxel.

Elizabeth R Smith, Xiang-Xi Xu
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引用次数: 8

Abstract

Discovered in a large-scale screening of natural plant chemicals, Taxol/paclitaxel and the taxane family of compounds are surprisingly successful anti-cancer drugs, used in treatment of the majority of solid tumors, and especially suitable for metastatic and recurrent cancer. Paclitaxel is often used in combination with platinum agents and is administrated in a dose dense regimen to treat recurrent cancer. The enthusiasm and clinical development were prompted by the discovery that Taxol binds beta-tubulins specifically found within microtubules and stabilizes the filaments, and consequently inhibits mitosis. However, questions on how paclitaxel suppresses cancer persist, as other specific mitotic inhibitors are impressive in pre-clinical studies but fail to achieve significant clinical activity. Thus, additional mechanisms, such as promoting mitotic catastrophe and impacting non-mitotic targets, have been proposed and studied. A good understanding of how paclitaxel, and additional new microtubule stabilizing agents, kill cancer cells will advance the clinical application of these common chemotherapeutic agents. A recent study provides a potential non-mitotic mechanism of paclitaxel action, that paclitaxel-induced rigid microtubules act to break malleable cancer nuclei into multiple micronuclei. Previous studies have established that cancer cells have a less sturdy, more pliable nuclear envelope due to the loss or reduction of lamin A/C proteins. Such changes in nuclear structure provide a selectivity for paclitaxel to break the nuclear membrane and kill cancer cells over non-neoplastic cells that have a sturdier nuclear envelope. The formation of multiple micronuclei appears to be an important aspect of paclitaxel in the killing of cancer cells, either by a mitotic or non-mitotic mechanism. Additionally, by binding to microtubule, paclitaxel is readily sequestered and concentrated within cells. This unique pharmacokinetic property allows the impact of paclitaxel on cells to persist for several days, even though the circulating drug level is much reduced following drug administration/infusion. The retention of paclitaxel within cells likely is another factor contributing to the efficacy of the drugs. Overall, the new understanding of Taxol/paclitaxel killing mechanism-rigid microtubule-induced multiple micronucleation-will likely provide new strategies to overcome drug resistance and for rational drug combination.

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紫杉醇/紫杉醇破坏恶性细胞核的非有丝分裂机制。
紫杉醇/紫杉醇和紫杉烷家族化合物是在天然植物化学物质的大规模筛选中发现的,是令人惊讶的成功抗癌药物,用于治疗大多数实体瘤,尤其适用于转移性和复发性癌症。紫杉醇通常与铂类药物联合使用,并以剂量密集方案给药,以治疗复发性癌症。紫杉醇与微管中特异性的β-微管蛋白结合并稳定细丝,从而抑制有丝分裂,这一发现促进了人们的热情和临床发展。然而,关于紫杉醇如何抑制癌症的问题仍然存在,因为其他特异性有丝分裂抑制剂在临床前研究中令人印象深刻,但未能达到显著的临床活性。因此,已经提出并研究了其他机制,如促进有丝分裂突变和影响非有丝分裂靶点。对紫杉醇和其他新型微管稳定剂如何杀死癌症细胞的良好理解将推动这些常见化疗药物的临床应用。最近的一项研究提供了紫杉醇作用的一种潜在的非有丝分裂机制,即紫杉醇诱导的刚性微管起到将可塑性癌症细胞核分裂成多个微核的作用。先前的研究已经证实,由于层粘连蛋白a/C蛋白的缺失或减少,癌症细胞的核膜不那么坚固,更柔韧。这种核结构的变化为紫杉醇提供了一种选择性,使其能够破坏核膜并杀死癌症细胞,而不是具有更坚固核膜的非肿瘤细胞。多个微核的形成似乎是紫杉醇通过有丝分裂或无丝分裂机制杀死癌症细胞的一个重要方面。此外,通过与微管结合,紫杉醇很容易被隔离并浓缩在细胞内。这种独特的药代动力学特性允许紫杉醇对细胞的影响持续数天,即使给药/输注后循环药物水平大大降低。紫杉醇在细胞内的保留可能是影响药物疗效的另一个因素。总的来说,对紫杉醇/紫杉醇杀伤机制的新理解——刚性微管诱导的多个微核——可能会为克服耐药性和合理的药物组合提供新的策略。
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