具有拓扑异构酶抑制活性的铁螯合剂及其抗癌应用。

Iron chelators with topoisomerase-inhibitory activity and their anticancer applications.

机构信息

Laboratory of Biochemistry, Division of Therapeutic Proteins, Office of Biotechnology Products, Office of Pharmaceutical Science, Center for Drug Evaluation and Research, Food and Drug Administration, Bethesda, Maryland 20892, USA.

出版信息

Antioxid Redox Signal. 2013 Mar 10;18(8):930-55. doi: 10.1089/ars.2012.4877. Epub 2012 Oct 26.

DOI:10.1089/ars.2012.4877

PMID:22900902

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3557438/

Abstract

SIGNIFICANCE

Iron and topoisomerases are abundant and essential cellular components. Iron is required for several key processes such as DNA synthesis, mitochondrial electron transport, synthesis of heme, and as a co-factor for many redox enzymes. Topoisomerases serve as critical enzymes that resolve topological problems during DNA synthesis, transcription, and repair. Neoplastic cells have higher uptake and utilization of iron, as well as elevated levels of topoisomerase family members. Separately, the chelation of iron and the cytotoxic inhibition of topoisomerase have yielded potent anticancer agents.

RECENT ADVANCES

The chemotherapeutic drugs doxorubicin and dexrazoxane both chelate iron and target topoisomerase 2 alpha (top2α). Newer chelators such as di-2-pyridylketone-4,4,-dimethyl-3-thiosemicarbazone and thiosemicarbazone -24 have recently been identified as top2α inhibitors. The growing list of agents that appear to chelate iron and inhibit topoisomerases prompts the question of whether and how these two distinct mechanisms might interplay for a cytotoxic chemotherapeutic outcome.

CRITICAL ISSUES

While iron chelation and topoisomerase inhibition each represent mechanistically advantageous anticancer therapeutic strategies, dual targeting agents present an attractive multi-modal opportunity for enhanced anticancer tumor killing and overcoming drug resistance. The commonalities and caveats of dual inhibition are presented in this review.

FUTURE DIRECTIONS

Gaps in knowledge, relevant biomarkers, and strategies for future in vivo studies with dual inhibitors are discussed.

摘要

意义

铁和拓扑异构酶是丰富且必不可少的细胞成分。铁需要参与几个关键过程，如 DNA 合成、线粒体电子传递、血红素合成以及作为许多氧化还原酶的辅助因子。拓扑异构酶是在 DNA 合成、转录和修复过程中解决拓扑问题的关键酶。肿瘤细胞对铁的摄取和利用更高，同时拓扑异构酶家族成员的水平也升高。单独地，铁螯合和拓扑异构酶的细胞毒性抑制已经产生了有效的抗癌药物。

关键问题

虽然铁螯合和拓扑异构酶抑制各自代表了有利的抗癌治疗策略，但双重靶向药物为增强抗癌肿瘤杀伤和克服耐药性提供了一种有吸引力的多模态机会。本文综述了双重抑制的共同性和注意事项。

未来方向

讨论了双重抑制剂在体内研究中的知识空白、相关生物标志物和策略。

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