Adams D J, Dewhirst M W, Flowers J L, Gamcsik M P, Colvin O M, Manikumar G, Wani M C, Wall M E
Department of Medicine, Duke University, Durham, NC 27710, USA.
Cancer Chemother Pharmacol. 2000;46(4):263-71. doi: 10.1007/s002800000157.
Camptothecin (CPT) is a specific inhibitor of the nuclear enzyme topoisomerase I, which is involved in cellular DNA replication and transcription. Topoisomerase I is therefore an attractive target for anticancer drug development, and two analogues of CPT, topotecan (TPT) and irinotecan (CPT-11), have demonstrated significant antitumor activity in the clinic. This activity is limited, however, by lability of the CPT E ring lactone, which forms the inactive hydroxy acid at physiological pH. The reaction is reversible at acidic pH, which provides a rationale for selectivity, because many solid tumors create an acidic extracellular environment while maintaining a normal intracellular pH.
To exploit the tumor-selective pH gradient to improve the efficacy of CPT-based chemotherapy.
CPT analogues were evaluated by growth inhibition assay in three human breast cancer cell lines that had been adapted to in vitro culture at acidic pH versus the respective cells cultured at physiological pH. The MCF-7, MDA-MB-231, and MCF-7/hc cell lines represent the hormone-dependent and hormone-independent stages of the disease, and a MCF-7 variant that is resistant to the alkylating agent 4-hydroperoxycyclophosphamide (4-HC), respectively. Antiproliferative activity of SN-38 (the active metabolite of CPT-11), and TPT was compared to that of CPT and two CPT analogues, 10,11-methylenedioxy-CPT (MDC), and the alkylating derivative, 7-chloromethyl-10,11-MDC (CMMDC).
In general, MDC was the most potent and TPT or CPT the least potent analogue, regardless of pH. However, if the comparison was based on magnitude of potentiation by pH, a different rank order emerged. CPT was modulated 4-fold; MDC, SN-38, and TPT were each modulated 5- to 6-fold, while the activity of CMMDC was increased 10- to 11-fold by acidic pH in MCF-7 lines, and 65-fold in MDA-MB-231 cells. Thus MDC was the superior CPT analogue based on potency, but CMMDC was the best candidate for pH modulation. Drug specificity was also observed. While the alkylating agent, 4-HC, was 2- to 3-fold more active at acidic pH, modulation was not observed for 5-fluorouracil, doxorubicin, or paclitaxel. Preliminary mechanism studies indicated that pH modulation of CPT analogues was directly correlated to intracellular levels of glutathione. In addition, protein-associated DNA strand breaks were more rapidly induced at acidic pH.
These results suggest that CPT-based drug development and resulting chemotherapy could benefit from evaluation of differential activity at acidic versus physiological pH. Analogues have been identified that could have improved therapeutic indices based on the pH gradient that selectively exists in human tumors.
喜树碱(CPT)是核酶拓扑异构酶I的特异性抑制剂,该酶参与细胞DNA复制和转录。因此,拓扑异构酶I是抗癌药物开发的一个有吸引力的靶点,CPT的两种类似物,拓扑替康(TPT)和伊立替康(CPT-11),已在临床上显示出显著的抗肿瘤活性。然而,这种活性受到CPT E环内酯不稳定的限制,该内酯在生理pH值下会形成无活性的羟基酸。该反应在酸性pH值下是可逆的,这为选择性提供了理论依据,因为许多实体瘤会产生酸性细胞外环境,同时保持细胞内pH值正常。
利用肿瘤选择性pH梯度提高基于CPT的化疗疗效。
通过生长抑制试验在三种人乳腺癌细胞系中评估CPT类似物,这些细胞系已适应在酸性pH值下进行体外培养,与在生理pH值下培养的相应细胞进行比较。MCF-7、MDA-MB-231和MCF-7/hc细胞系分别代表该疾病的激素依赖性和激素非依赖性阶段,以及对烷化剂4-氢过氧环磷酰胺(4-HC)耐药的MCF-7变体。将SN-38(CPT-11的活性代谢物)和TPT的抗增殖活性与CPT以及两种CPT类似物10,11-亚甲二氧基-CPT(MDC)和烷化衍生物7-氯甲基-10,11-MDC(CMMDC)的抗增殖活性进行比较。
总体而言,无论pH值如何,MDC是最有效的类似物,TPT或CPT是最无效的类似物。然而,如果基于pH值增强的幅度进行比较,则会出现不同的排名顺序。CPT被调节了4倍;MDC、SN-38和TPT各自被调节了5至6倍,而在MCF-7细胞系中,CMMDC的活性在酸性pH值下增加了10至11倍,在MDA-MB-231细胞中增加了65倍。因此,基于效力,MDC是 superior CPT类似物,但CMMDC是pH调节的最佳候选物。还观察到了药物特异性。虽然烷化剂4-HC在酸性pH值下的活性高2至3倍,但未观察到5-氟尿嘧啶、阿霉素或紫杉醇的调节作用。初步机制研究表明,CPT类似物的pH调节与细胞内谷胱甘肽水平直接相关。此外,在酸性pH值下,蛋白质相关的DNA链断裂诱导得更快。
这些结果表明,基于CPT药物开发及由此产生的化疗可能会受益于对酸性与生理pH值下差异活性的评估。已鉴定出的类似物可能基于人类肿瘤中选择性存在的pH梯度而具有改善的治疗指数。
