Chou Ting-Chao, Zhang Xiuguo, Zhong Zi-Yang, Li Yong, Feng Li, Eng Sara, Myles David R, Johnson Robert, Wu Nian, Yin Ye Ingrid, Wilson Rebecca M, Danishefsky Samuel J
Preclinical Pharmacology Laboratory, Memorial Sloan-Kettering Cancer Center, 1275 York Avenue, New York, NY 10065, USA.
Proc Natl Acad Sci U S A. 2008 Sep 2;105(35):13157-62. doi: 10.1073/pnas.0804773105. Epub 2008 Aug 28.
The epothilones represent a promising class of natural product-based antitumor drug candidates. Although these compounds operate through a microtubule stabilization mechanism similar to that of taxol, the epothilones offer a major potential therapeutic advantage in that they retain their activity against multidrug-resistant cell lines. We have been systematically synthesizing and evaluating synthetic epothilone congeners that are not accessible through modification of the natural product itself. We report herein the results of biological investigations directed at two epothilone congeners: iso-fludelone and iso-dehydelone. Iso-fludelone, in particular, exhibits a number of properties that render it an excellent candidate for preclinical development, including biological stability, excellent solubility in water, and remarkable potency relative to other epothilones. In nude mouse xenograft settings, iso-fludelone was able to achieve therapeutic cures against a number of human cancer cell lines, including mammarian-MX-1, ovarian-SK-OV-3, and the fast-growing, refractory, subcutaneous neuroblastoma-SK-NAS. Strong therapeutic effect was observed against drug-resistant lung-A549/taxol and mammary-MCF-7/Adr xenografts. In addition, iso-fludelone was shown to exhibit a significant therapeutic effect against an intracranially implanted SK-NAS tumor.
埃坡霉素是一类很有前景的基于天然产物的抗肿瘤候选药物。尽管这些化合物通过与紫杉醇类似的微管稳定机制发挥作用,但埃坡霉素具有一个主要的潜在治疗优势,即它们对多药耐药细胞系仍保持活性。我们一直在系统地合成和评估通过天然产物本身修饰无法获得的合成埃坡霉素类似物。我们在此报告针对两种埃坡霉素类似物异氟德洛内酯和异脱氢洛内酯的生物学研究结果。特别是异氟德洛内酯,它具有许多特性,使其成为临床前开发的优秀候选药物,包括生物稳定性、在水中的优异溶解性以及相对于其他埃坡霉素而言显著的效力。在裸鼠异种移植模型中,异氟德洛内酯能够治愈多种人类癌细胞系,包括乳腺-MX-1、卵巢-SK-OV-3以及快速生长、难治的皮下神经母细胞瘤-SK-NAS。对耐药性肺-A549/紫杉醇和乳腺-MCF-7/阿霉素异种移植瘤也观察到了强烈的治疗效果。此外,异氟德洛内酯对颅内植入的SK-NAS肿瘤显示出显著的治疗效果。