Arai Hirokazu, Watanabe Bunta, Nakagawa Yoshiaki, Miyagawa Hisashi
Division of Applied Life Sciences, Graduate School of Agriculture, Kyoto University, Kyoto 606-8502, Japan.
Steroids. 2008 Dec 22;73(14):1452-64. doi: 10.1016/j.steroids.2008.08.005. Epub 2008 Sep 2.
A series of ponasterone A (PNA) derivatives with various steroid moieties were synthesized to measure their binding activity to the ecdysone receptors of Drosophila Kc cells. The activity of compounds was evaluated by determining the concentration required to give the 50% inhibition (IC(50) in M) of the incorporation of [(3)H]PNA to Drosophila Kc cells. Compounds with no functional groups such as OH and CO group in the steroid skeleton moiety were inactive. By the introduction of functional groups such as the OH and the CO group in the steroidal structure, these compounds became active. Some compounds containing the A/B-trans ring fusion, which is different from that (A/B-cis) of ecdysteroids were also active. The oxidation of CH(2) at 6-position to CO, enhanced the activity 19 times, but the activity was erased by the reduction of oxo to OH group at 6-position. The activity was enhanced about 250 times by the conversion of A/B ring configuration from trans [(20R,22R)-2beta,3beta,20,22-tetrahydroxy-5alpha-cholestan-6-one: pIC(50)=4.84] to cis [(20R,22R)-2beta,3beta,20,22-tetrahydroxy-5beta-cholestan-6-one: pIC(50)=7.23]. The latter cis-type compound which is the most potent among compounds synthesized in this study was equipotent to the natural molting hormone, 20-hydroxyecdysone, even though it is 1/50 of PNA.
合成了一系列带有不同甾体部分的蜕皮甾酮A(PNA)衍生物,以测定它们与果蝇Kc细胞蜕皮激素受体的结合活性。通过测定使[(3)H]PNA掺入果蝇Kc细胞的量受到50%抑制(IC(50),单位为M)所需的浓度来评估化合物的活性。在甾体骨架部分没有OH和CO等官能团的化合物没有活性。通过在甾体结构中引入OH和CO等官能团,这些化合物变得有活性。一些含有与蜕皮甾类不同的A/B-反式环稠合(A/B-顺式)的化合物也有活性。6位的CH(2)氧化为CO,活性增强了19倍,但6位的羰基还原为OH基团后活性消失。通过将A/B环构型从反式[(20R,22R)-2β,3β,20,22-四羟基-5α-胆甾烷-6-酮:pIC(50)=4.84]转变为顺式[(20R,22R)-2β,3β,20,22-四羟基-5β-胆甾烷-6-酮:pIC(50)=7.23],活性增强了约250倍。在本研究合成的化合物中,最有效的后者顺式化合物与天然蜕皮激素20-羟基蜕皮酮等效,尽管它是PNA的1/50。
