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DNA 结合型抗癌药物:一靶两用。

DNA-Binding Anticancer Drugs: One Target, Two Actions.

机构信息

Auckland Cancer Society Research Centre, Faculty of Medical Sciences, The University of Auckland, Auckland 1023, New Zealand.

出版信息

Molecules. 2021 Jan 21;26(3):552. doi: 10.3390/molecules26030552.

DOI:10.3390/molecules26030552
PMID:33494466
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7866126/
Abstract

Amsacrine, an anticancer drug first synthesised in 1970 by Professor Cain and colleagues, showed excellent preclinical activity and underwent clinical trial in 1978 under the auspices of the US National Cancer Institute, showing activity against acute lymphoblastic leukaemia. In 1984, the enzyme DNA topoisomerase II was identified as a molecular target for amsacrine, acting to poison this enzyme and to induce DNA double-strand breaks. One of the main challenges in the 1980s was to determine whether amsacrine analogues could be developed with activity against solid tumours. A multidisciplinary team was assembled in Auckland, and Professor Denny played a leading role in this approach. Among a large number of drugs developed in the programme, -[2-(dimethylamino)-ethyl]-acridine-4-carboxamide (DACA), first synthesised by Professor Denny, showed excellent activity against a mouse lung adenocarcinoma. It underwent clinical trial, but dose escalation was prevented by ion channel toxicity. Subsequent work led to the DACA derivative SN 28049, which had increased potency and reduced ion channel toxicity. Mode of action studies suggested that both amsacrine and DACA target the enzyme DNA topoisomerase II but with a different balance of cellular consequences. As primarily a topoisomerase II poison, amsacrine acts to turn the enzyme into a DNA-damaging agent. As primarily topoisomerase II catalytic inhibitors, DACA and SN 28049 act to inhibit the segregation of daughter chromatids during anaphase. The balance between these two actions, one cell cycle phase specific and the other nonspecific, together with pharmacokinetic, cytokinetic and immunogenic considerations, provides links between the actions of acridine derivatives and anthracyclines such as doxorubicin. They also provide insights into the action of cytotoxic DNA-binding drugs.

摘要

安吖啶,一种抗癌药物,于 1970 年由 Cain 教授及其同事首次合成,具有优异的临床前活性,并于 1978 年在美国国家癌症研究所的支持下进行了临床试验,对急性淋巴细胞白血病具有活性。1984 年,酶 DNA 拓扑异构酶 II 被确定为安吖啶的分子靶标,作用于毒害该酶并诱导 DNA 双链断裂。20 世纪 80 年代的主要挑战之一是确定是否可以开发具有针对实体瘤活性的安吖啶类似物。一个多学科的团队在奥克兰成立,Denny 教授在这一方法中发挥了领导作用。在该计划开发的大量药物中,-[2-(二甲基氨基)-乙基]-吖啶-4-甲酰胺(DACA),由 Denny 教授首次合成,对小鼠肺腺癌表现出优异的活性。它进行了临床试验,但由于离子通道毒性而阻止了剂量递增。随后的工作导致了 DACA 衍生物 SN 28049 的开发,它具有更高的效力和降低的离子通道毒性。作用机制研究表明,安吖啶和 DACA 均靶向酶 DNA 拓扑异构酶 II,但细胞后果的平衡不同。作为主要的拓扑异构酶 II 毒物,安吖啶将酶转化为 DNA 损伤剂。作为主要的拓扑异构酶 II 催化抑制剂,DACA 和 SN 28049 作用于抑制后期染色体分离的子染色单体。这两种作用之间的平衡,一种是细胞周期相特异性的,另一种是非特异性的,以及药代动力学、细胞动力学和免疫原性的考虑,为吖啶衍生物和阿霉素等蒽环类药物的作用提供了联系。它们还为细胞毒性 DNA 结合药物的作用提供了深入的了解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a0e0/7866126/9fe9b89e0e1d/molecules-26-00552-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a0e0/7866126/6cc8a5dc50cc/molecules-26-00552-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a0e0/7866126/9fe9b89e0e1d/molecules-26-00552-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a0e0/7866126/6cc8a5dc50cc/molecules-26-00552-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a0e0/7866126/9fe9b89e0e1d/molecules-26-00552-g002.jpg

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