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拓扑异构酶I激活剂β-拉帕醌对人类肿瘤细胞中潜在致死性DNA损伤修复的抑制作用

Inhibition of potentially lethal DNA damage repair in human tumor cells by beta-lapachone, an activator of topoisomerase I.

作者信息

Boothman D A, Trask D K, Pardee A B

机构信息

Dana-Farber Cancer Institute, Harvard Medical School, Boston, Massachusetts 02115.

出版信息

Cancer Res. 1989 Feb 1;49(3):605-12.

PMID:2535961
Abstract

A 4-h posttreatment with 4 microM beta-lapachone was previously shown to enhance the lethality of X-rays against human laryngeal epidermoid carcinoma (HEp-2) cells (D. A. Boothman et al., Cancer Res., 47:5361-5366, 1988). We now show that beta-lapachone (a) activates the DNA-unwinding activity of topoisomerase I, (b) inhibits the fast component of potentially lethal damage repair (PLDR) carried out by HEp-2 cells when present during or immediately following X-irradiation, (c) specifically and synergistically enhances the cytotoxic effects of DNA-damaging agents which induce DNA strand incisions, such as neocarzinostatin or X-rays, against a radioresistant human malignant melanoma (U1-Mel) cell line, (d) does not synergistically potentiate melphalan-induced lethality against U1-Mel cells but inhibits survival recovery and increases sister chromatid exchanges, and (e) does not further enhance the lethal effects of X-rays following prolonged drug exposures, indicating that beta-lapachone modifies initially created DNA lesions or inhibits lesion repair but does not create lethal lesions by itself. beta-Lapachone accelerated the DNA-unwinding activity of topoisomerase I derived from avian erythrocytes, calf thymus, or HEp-2 cells. beta-Lapachone did not intercalate into DNA, nor did it inhibit topoisomerase II or ligation carried out by mammalian or T4 DNA ligases. Structurally similar analogues, alpha-lapachone, lapachol, and dichloroallyl lawsone, did not enhance X-ray-induced cytotoxicity nor did they activate topoisomerase I. Camptothecin, a specific inhibitor of topoisomerase I, significantly radiosensitized HEp-2 cells, in a manner similar to beta-lapachone. These results suggest a role of topoisomerase I in DNA repair. The PLDR capacity of confluent-arrested HEp-2 cells was inhibited when beta-lapachone was given immediately following or during X-irradiation. The effect decreased when the drug was added at later times. beta-Lapachone may enhance lethality by converting single- into double-stranded DNA breaks during PLDR or through DNA conformational changes which inhibit PLDR. We propose that either mechanism of enhanced lethality may result from the ability of beta-lapachone to activate topoisomerase I.

摘要

先前的研究表明,用4 microM的β-拉帕醌进行4小时的后处理可增强X射线对人喉表皮样癌(HEp-2)细胞的杀伤作用(D. A. Boothman等人,《癌症研究》,47:5361 - 5366,1988)。我们现在发现,β-拉帕醌(a)激活拓扑异构酶I的DNA解旋活性,(b)在X射线照射期间或照射后立即存在时,抑制HEp-2细胞进行的潜在致死性损伤修复(PLDR)的快速成分,(c)特异性且协同增强诱导DNA链切口的DNA损伤剂(如新制癌菌素或X射线)对耐辐射的人恶性黑色素瘤(U1-Mel)细胞系的细胞毒性作用,(d)不会协同增强美法仑对U1-Mel细胞的致死作用,但会抑制存活恢复并增加姐妹染色单体交换,并且(e)在长时间药物暴露后不会进一步增强X射线的致死作用,这表明β-拉帕醌修饰最初产生的DNA损伤或抑制损伤修复,但自身不会产生致死性损伤。β-拉帕醌加速了源自禽红细胞、小牛胸腺或HEp-2细胞的拓扑异构酶I的DNA解旋活性。β-拉帕醌不会嵌入DNA,也不会抑制哺乳动物或T4 DNA连接酶进行的拓扑异构酶II或连接反应。结构相似的类似物α-拉帕醌、拉帕醇和二氯烯丙基劳森酮既不会增强X射线诱导的细胞毒性,也不会激活拓扑异构酶I。喜树碱,一种拓扑异构酶I的特异性抑制剂,以与β-拉帕醌类似的方式显著使HEp-2细胞对辐射敏感。这些结果表明拓扑异构酶I在DNA修复中起作用。当在X射线照射后立即或照射期间给予β-拉帕醌时,汇合停滞的HEp-2细胞的PLDR能力受到抑制。当在稍后时间添加药物时,这种作用会减弱。β-拉帕醌可能通过在PLDR期间将单链DNA断裂转化为双链DNA断裂或通过抑制PLDR的DNA构象变化来增强致死性。我们提出,增强致死性的任何一种机制都可能源于β-拉帕醌激活拓扑异构酶I的能力。

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