战略氧化还原接力使生物活性卡烯内酯哇巴因的可扩展合成成为可能。
Strategic redox relay enables a scalable synthesis of ouabagenin, a bioactive cardenolide.
机构信息
Department of Chemistry, The Scripps Research Institute, La Jolla, CA 92037, USA.
出版信息
Science. 2013 Jan 4;339(6115):59-63. doi: 10.1126/science.1230631.
Abstract
Here, we report on a scalable route to the polyhydroxylated steroid ouabagenin with an unusual take on the age-old practice of steroid semisynthesis. The incorporation of both redox and stereochemical relays during the design of this synthesis resulted in efficient access to more than 500 milligrams of a key precursor toward ouabagenin-and ultimately ouabagenin itself-and the discovery of innovative methods for carbon-hydrogen (C-H) and carbon-carbon activation and carbon-oxygen bond homolysis. Given the medicinal relevance of the cardenolides in the treatment of congestive heart failure, a variety of ouabagenin analogs could potentially be generated from the key intermediate as a means of addressing the narrow therapeutic index of these molecules. This synthesis also showcases an approach to bypass the historically challenging problem of selective C-H oxidation of saturated carbon centers in a controlled fashion.
摘要
在这里,我们报告了一种可扩展的方法,用于合成多羟基甾体化合物 ouabagenin,这是对古老的甾体半合成方法的一种独特尝试。在设计该合成过程中,引入了氧化还原和立体化学接力,从而高效地获得了超过 500 毫克的关键前体,最终得到了 ouabagenin 及其自身,并且发现了用于碳-氢键 (C-H) 和碳-碳键激活以及碳-氧键均裂的创新方法。鉴于强心苷类药物在治疗充血性心力衰竭方面的医学相关性,各种 ouabagenin 类似物可以从关键中间体中生成,作为解决这些分子治疗指数狭窄的一种手段。该合成还展示了一种方法,可以以可控的方式绕过历史上具有挑战性的饱和碳中心选择性 C-H 氧化问题。
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