Institute of Cancer Therapeutics, Faculty of Life Sciences, University of Bradford, Bradford BD7 1DP, U.K.
Institute of Cancer Therapeutics, Faculty of Life Sciences, University of Bradford, Bradford BD7 1DP, U.K.
Biochem Pharmacol. 2022 Jul;201:115095. doi: 10.1016/j.bcp.2022.115095. Epub 2022 May 20.
Despite significant preclinical promise as anticancer agents, vascular-disrupting agents have yet to fulfil their clinical potential due to systemic toxicities. ICT2588 is a tumour-selective MT1-MMP-targeted prodrug of azademethylcolchicine, ICT2552. We investigate activation of ICT2588 and subsequent release of ICT2552 in tumour cells, and examine its ability to induce G2/M cell cycle arrest. We also explore synergism between ICT2588 and ATR inhibition, since colchicine, in addition to its vascular-disrupting properties, is known to induce G2/M arrest, DNA damage, and trigger apoptosis. Several ATR inhibitors are currently undergoing clinical evaluation. The cellular activation of ICT2588 was observed to correlate with MT1-MMP expression, with selective release of ICT2552 not compromised by cellular uptake and prodrug activation mechanisms. ICT2588 induced G2/M arrest, and triggered apoptosis in MT1-MMP-expressing cells, but not in cells lacking MT1-MMP expression, while ICT2552 itself induced G2/M arrest and triggered apoptosis in both cell lines. Interestingly, we uncovered that the intracellular release and accumulation dynamics of ICT2552 subsequent to prodrug activation provided synergism with an ATR inhibitor in a way not observed with direct administration of ICT2552. These findings have important potential implications for clinical combinations of ICT2588 and DNA repair inhibitors.
尽管作为抗癌药物,血管破坏剂具有重要的临床前前景,但由于其全身毒性,尚未发挥其临床潜力。ICT2588 是一种肿瘤选择性 MT1-MMP 靶向阿扎美司他汀前药,ICT2552。我们研究了 ICT2588 在肿瘤细胞中的激活及其随后释放 ICT2552 的情况,并研究了其诱导 G2/M 细胞周期停滞的能力。我们还探讨了 ICT2588 与 ATR 抑制的协同作用,因为除了血管破坏特性外,秋水仙碱还已知能诱导 G2/M 停滞、DNA 损伤和触发细胞凋亡。目前有几种 ATR 抑制剂正在进行临床评估。观察到 ICT2588 的细胞激活与 MT1-MMP 表达相关,ICT2552 的选择性释放不受细胞摄取和前药激活机制的影响。ICT2588 在表达 MT1-MMP 的细胞中诱导 G2/M 停滞并触发细胞凋亡,但在缺乏 MT1-MMP 表达的细胞中则不会,而 ICT2552 本身在两种细胞系中均诱导 G2/M 停滞并触发细胞凋亡。有趣的是,我们发现,继前药激活后 ICT2552 的细胞内释放和积累动力学与 ATR 抑制剂协同作用,这种协同作用与直接给予 ICT2552 时观察到的协同作用不同。这些发现对 ICT2588 与 DNA 修复抑制剂的临床联合应用具有重要的潜在意义。
