通过骨架修饰发现强效且肌肉选择性雄激素受体调节剂。

Discovery of potent and muscle selective androgen receptor modulators through scaffold modifications.

作者信息

Li James J, Sutton James C, Nirschl Alexandra, Zou Yan, Wang Haixia, Sun Chongqing, Pi Zulan, Johnson Rebecca, Krystek Stanley R, Seethala Ramakrishna, Golla Rajasree, Sleph Paul G, Beehler Blake C, Grover Gary J, Fura Aberra, Vyas Viral P, Li Cindy Y, Gougoutas Jack Z, Galella Michael A, Zahler Robert, Ostrowski Jacek, Hamann Lawrence G

机构信息

Discovery Chemistry, Computer Assisted Drug Design, Metabolic Disease Research, Metabolism and Pharmacokinetics, Discovery Analytical Sciences, Bristol-Myers Squibb Pharmaceutical Research Institute, Princeton, New Jersey 08543-5400, USA.

出版信息

J Med Chem. 2007 Jun 28;50(13):3015-25. doi: 10.1021/jm070312d. Epub 2007 Jun 7.

DOI:10.1021/jm070312d

PMID:17552509

Abstract

A novel series of imidazolin-2-ones were designed and synthesized as highly potent, orally active and muscle selective androgen receptor modulators (SARMs), with most of the compounds exhibiting low nM in vitro potency in androgen receptor (AR) binding and functional assays. Once daily oral treatment with the lead compound 11a (AR Ki = 0.9 nM, EC50 = 1.8 nM) for 14 days induced muscle growth with an ED50 of 0.09 mg/kg, providing approximately 50-fold selectivity over prostate growth in an orchidectomized rat model. Pharmacokinetic studies in rats demonstrated that the lead compound 11a had oral bioavailability of 65% and a plasma half-life of 5.5 h. On the basis of their preclinical profiles, the SARMs in this series are expected to provide beneficial anabolic effects on muscle with minimal androgenic effects on prostate tissue.

摘要

设计并合成了一系列新型咪唑啉-2-酮，作为高效、口服活性且肌肉选择性雄激素受体调节剂（SARMs），大多数化合物在雄激素受体（AR）结合和功能测定中表现出低纳摩尔级的体外活性。先导化合物11a（AR Ki = 0.9 nM，EC50 = 1.8 nM）每日一次口服给药14天可诱导肌肉生长，ED50为0.09 mg/kg，在去势大鼠模型中对前列腺生长的选择性约为50倍。大鼠体内药代动力学研究表明，先导化合物11a的口服生物利用度为65%，血浆半衰期为5.5小时。基于其临床前特征，该系列SARMs有望对肌肉产生有益的合成代谢作用，而对前列腺组织的雄激素作用最小。

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通过骨架修饰发现强效且肌肉选择性雄激素受体调节剂。

Discovery of potent and muscle selective androgen receptor modulators through scaffold modifications.

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