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Cannogenol and Related Cardiotonic Steroids: Concise Synthesis and their Anticancer Activity Evaluation
[摘要] Small molecules that are approved as drugs are largely the result of extensive synthetic efforts. A robust synthetic method is required to access the natural products and their analogs to study their biological activities. This thesis largely focuses on the synthesis of cardiotonic steroids, the steroids that are known for the treatment of heart conditions and more recently has shown promising prospect in anticancer studies against various human cancer cell lines. Furthermore, the anti-cancer activities of the molecules of this class were studied and substantial data on structure-activity relationship (SAR) were obtained. In addition, this thesis also presents an anion binding catalysis, the process by which anions are selectively transported between membranes in human body, of a new class of catalyst thiophosphoramide that showed promising ability to bind with anions.The first chapter describes the utility of three hydrogen-bond donor, thiophosphoramide-based catalyst anion binding catalysis. The study illustrates that the thiophosphoramide-based HBDs could significantly accelerate Cu(II)-catalyzed reactions of potassium carboxylates with diaryliodonium salts. The scope of counterion on both the diaryliodonium salt and the copper salt is explored, followed by the application of this method in a wide-variety of carboxylic acid including some naturally available carboxylic acid.The second chapter introduces cardiotonic steroids and the discusses the relevant prior synthesis.Impressive synthesis of digitoxigenin by Yoshii and Nakada followed by the synthesis of strophanthidin by Yoshii and Kočovsky are discussed in detail. The total synthesis of cannogenol-3-O-α-L-rhamnoside that will be discussed in following chapter is inspired by the work previously published by Nagorny and coworkers on enantioselective synthesis of oxygenated steroids by copper-catalyzed Michael reaction followed by double aldol reaction and the utilization of this method in the total synthesis of 19-hydroxysermentogenin and trewianin aglycone are discussed in this chaper. The third chapter describes the development of a robust and divergent synthetic pathway to access natural product of the class called cardiotonic steroids. The chapter highlights the first enantioselective total synthesis of two cardiotonic steroids that have been recently of interest because of their anti-cancer activities: 1) cannogenol 2) cannogenol-3-O-α-L-rhamnoside. The challenges during the development of this method, that could provide analogs with different heterocycles and sugar moieties with minimum deviations, are described in detail.Finally, the fourth chapter focuses on the generation of natural products and analogs using the method developed in chapter 3. Another natural product cannogenol-3-O-glucopyranoside and an analog of cannogenol-3-O-α-L-rhamnoside with alkyne incorporation in the sugar moiety for the target identification studies were synthesized.In addition to the molecules synthesized in our group, other commercial steroids of diverse functional group at different part of the molecule were collected. The collaboration with Dr. Yimon Aye’s group at Cornell University presented us with significant structure-activity relationship (SAR) data. In addition, an analog of strophanthidin with amine incorporation instead of alcohol at C19 was synthesized by reductive amination of aldehyde.
[发布日期]  [发布机构] University of Michigan
[效力级别] total synthesis [学科分类] 
[关键词] Cardiotonic steroids;total synthesis;organocatalysis;thiophosphoramide;total synthesis of steroids;Chemistry;Science;Chemistry [时效性] 
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