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通过抑制 PI3K/Akt 通路发现新型抗肿瘤一氧化氮供体β-榄香烯杂合化合物。

Discovery of novel antitumor nitric oxide-donating β-elemene hybrids through inhibiting the PI3K/Akt pathway.

机构信息

State Key Laboratory of Natural Medicines and Department of Medicinal Chemistry, China Pharmaceutical University, 24 Tong Jia Xiang, Nanjing 210009, PR China.

Jiangsu Key Laboratory of Drug Screening, China Pharmaceutical University, 24 Tong Jia Xiang, Nanjing 210009, PR China.

出版信息

Eur J Med Chem. 2017 Jul 28;135:414-423. doi: 10.1016/j.ejmech.2017.04.045. Epub 2017 Apr 20.

DOI:10.1016/j.ejmech.2017.04.045
PMID:28463784
Abstract

A series of novel furoxan-based NO-donating β-elemene hybrids were designed and synthesized to improve the anticancer efficacy of natural β-elemene. The bioassay results indicated that all of the target compounds exhibited significantly improved antiproliferative activities against three cancer cell lines (SGC-7901, HeLa and U87) compared to parent compound β-elemene. Interestingly, these compounds displayed excellent sensitivity to U87 cells with IC values ranging from 173 to 2 nM. Moreover, most compounds produced high levels of NO in vitro, and the antitumor activity of 11a in U87 cells was markedly attenuated by an NO scavenger (hemoglobin or carboxy-PTIO). Further mechanism studies revealed that 11a caused the G2 phase arrest of the cell cycle and induced apoptosis of U87 cells by preventing the activation of the PI3K/Akt pathway. Moreover, 11a significantly suppressed the tumor growth in H22 liver cancer xenograft mouse model with a tumor inhibitory ratio (TIR) of 64.8%, which was superior to that of β-elemene (TIR, 49.6%) at the same dose of 60 mg/kg. Together, the remarkable biological profiles of these novel NO-donating β-elemene derivatives may make them promising candidates for the intervention of human cancers.

摘要

一系列新型呋咱基一氧化氮供体型β-榄香烯类化合物被设计并合成,以提高天然β-榄香烯的抗癌功效。生物测定结果表明,与母体化合物β-榄香烯相比,所有目标化合物对三种癌细胞系(SGC-7901、HeLa 和 U87)的增殖均表现出显著改善的抑制活性。有趣的是,这些化合物对 U87 细胞表现出极好的敏感性,IC 值范围为 173 至 2 nM。此外,大多数化合物在体外产生高水平的一氧化氮,并且 U87 细胞中 11a 的抗肿瘤活性明显被一氧化氮清除剂(血红蛋白或羧基-PTIO)减弱。进一步的机制研究表明,11a 通过阻止 PI3K/Akt 通路的激活,导致细胞周期 G2 期停滞并诱导 U87 细胞凋亡。此外,11a 显著抑制 H22 肝癌异种移植小鼠模型中的肿瘤生长,肿瘤抑制率(TIR)为 64.8%,在相同剂量 60mg/kg 时优于β-榄香烯(TIR,49.6%)。总之,这些新型一氧化氮供体型β-榄香烯衍生物的显著生物学特征可能使它们成为人类癌症干预的有前途的候选药物。

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