通过打开薯蓣皂苷元的螺缩醛环合成新型抗癌剂。

Synthesis of novel anticancer agents through opening of spiroacetal ring of diosgenin.

作者信息

Hamid A A, Hasanain Mohammad, Singh Arjun, Bhukya Balakishan, Vasudev Prema G, Sarkar Jayanta, Chanda Debabrata, Khan Feroz, Aiyelaagbe O O, Negi Arvind S

机构信息

CSIR-Central Institute of Medicinal and Aromatic Plants (CSIR-CIMAP), Kukrail Picnic Spot Road, P.O. CIMAP, Lucknow 226015, India; Department of Chemistry, University of Ilorin, Ilorin, Nigeria.

CSIR-Central Drug Research Institute (CSIR-CDRI), B.S. 10/1, Sector 10, Jankipuram Extension, Sitapur Road, Lucknow 226031, India.

出版信息

Steroids. 2014 Sep;87:108-18. doi: 10.1016/j.steroids.2014.05.025. Epub 2014 Jun 12.

DOI:10.1016/j.steroids.2014.05.025

PMID:24929045

Abstract

Diosgenin has been modified to furostane derivatives after opening the F-spiroacetal ring. The aldehyde group at C26 in derivative 8 was unexpectedly transformed to the ketone 9. The structure of ketone 9 was confirmed by spectroscopy and finally by X-ray crystallography. Five of the diosgenin derivatives showed significant anticancer activity against human cancer cell lines. The most potent molecule of this series i.e. compound 7, inhibited cellular growth by arresting the population at G0/G1 phase of cell division cycle. Cells undergo apoptosis after exposure to the derivative 7 which was evident by increase in sub G0 population in cell cycle analysis. Docking experiments showed caspase-3 and caspase-9 as possible molecular targets for these compounds. This was further validated by cleavage of PARP, a caspase target in apoptotic pathway. Compound 7 was found non-toxic up to 1000mg/kg dose in acute oral toxicity in Swiss albino mice.

摘要

薯蓣皂苷元在打开F-螺缩醛环后被修饰为呋甾烷衍生物。衍生物8中C26位的醛基意外地转化为酮9。酮9的结构通过光谱学最终通过X射线晶体学得以确认。五种薯蓣皂苷元衍生物对人癌细胞系显示出显著的抗癌活性。该系列中最有效的分子即化合物7，通过使细胞群体停滞在细胞分裂周期的G0/G1期来抑制细胞生长。细胞在暴露于衍生物7后发生凋亡，这在细胞周期分析中G0期以下细胞群体增加中得以体现。对接实验表明caspase-3和caspase-9是这些化合物可能的分子靶点。这通过凋亡途径中caspase靶点PARP的裂解得到进一步验证。在瑞士白化小鼠的急性口服毒性实验中，发现化合物7在高达1000mg/kg剂量时无毒。

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通过打开薯蓣皂苷元的螺缩醛环合成新型抗癌剂。

Synthesis of novel anticancer agents through opening of spiroacetal ring of diosgenin.

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