氧、氮自由基在抗癌药物细胞毒性机制中的作用。

Journal of Cancer Science & Therapy Pub Date : 2020-01-01 Epub Date: 2020-01-24
Birandra Kumar Sinha
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引用次数: 0

摘要

由于耐药肿瘤细胞的出现,人类恶性肿瘤的成功治疗一直难以在临床上实现。尽管有各种方法来克服多药耐药,但它仍然具有挑战性和难以捉摸。因此,有必要明确和了解药物诱导肿瘤细胞杀伤的机制,以促进未来抗癌药物的开发和合理设计联合化疗方案。临床活性抗肿瘤药物拓扑替康、阿霉素、依托泊苷、丙卡嗪目前用于治疗人类肿瘤。因此,人们进行了大量的研究,以了解这些药物在实验室和临床中的作用机制。这些药物在肿瘤细胞中也被广泛代谢为各种活性物质,并产生氧自由基(ROS),引发脂质过氧化并诱导DNA损伤。然而,在临床上,ROS在细胞毒性机制中的作用尚未得到重视。除ROS外,肿瘤细胞内和体内还形成多种活性氮(reactive nitrogen species, RNS)。然而,RNS在癌症治疗中的重要性尚不清楚,并且仍然没有明确的定义。本文就目前对ROS和RNS的形成及其在各种临床活性抗癌药物中的作用机制的认识进行综述。
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Role of Oxygen and Nitrogen Radicals in the Mechanism of Anticancer Drug Cytotoxicity.

Because of the emergence of drug-resistant tumor cells, successful treatments of human malignancies have been difficult to achieve in the clinic. In spite of various approaches to overcome multi drug resistance, it has remained challenging and elusive. It is, therefore, necessary to define and understand the mechanisms of drug-induced tumor cell killing for the future development of anticancer agents and for rationally designed combination chemotherapies. The clinically active antitumor drugs, topotecan, doxorubicin, etoposide, and procarbazine are currently used for the treatment of human tumors. Therefore, a great deal research has been carried to understand mechanisms of actions of these agents both in the laboratory and in the clinic. These drugs are also extensively metabolized in tumor cells to various reactive species and generate oxygen free radical species (ROS) that initiate lipid peroxidation and induce DNA damage. However, the roles of ROS in the mechanism of cytotoxicity remain unappreciated in the clinic. In addition to ROS, various reactive nitrogen species (RNS) are also formed in tumor cells and in vivo. However, the importance of RNS in cancer treatment is not clear and has remained poorly defined. This review discusses the current understanding of the formation and the significance of ROS and RNS in the mechanisms of various clinically active anticancer drugs.

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