类固醇中的远程功能化反应、发现和应用。

IF 2.1 4区 医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Steroids Pub Date : 2024-01-24 DOI:10.1016/j.steroids.2023.109362
Paul B. Reese
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引用次数: 0

摘要

本研究综述了 2001 年至 2022 年期间发表的有关类固醇偏远位点功能化的研究成果,以及利用这种技术生成具有生物活性的化合物的情况。在分析的第一部分,报告了活化被认为是偏远位点的既定方法和新方法。一系列以锰(主要)、铑、钌和锇为中心的卟啉作为催化剂,在以 PIDA 为氧化剂的情况下,实现了 C-1、-5、-6、-7、-11、-14、-15、-16、-17、-20、-24 和-25 的羟基化。二氧环己烷被用于在 5、12、14、15、16、17、20、24 和 25 位置(大部分为三级中心)插入羟基。C-12 和 -16 位的醇被进一步氧化成酮。在这一时期发现并发展起来的舍内克氧化法彻底改变了具有 17 个酮基的类固醇在 C-12 位的选择性官能化。在以铁为中心的 PDP 和 MCP 催化剂、过氧化氢和乙酸的作用下,底物往往会在 C-6 和 -12 处发生羟基化反应,并进一步氧化成酮。据报道,利用更现代的苏亚雷斯条件(在碘和 PIDA 存在下进行辐照)进行的次卤酸反应可促进羟基从现有醇氧的五个原子处插入。类固醇-3β-重氮乙酸酯在使用二铑为中心的催化剂加热时往往会分解,同时活化四个或五个原子以外的碳。据观察,铬基和铁基醋酸盐可使 C-5 和 -25 功能化。其他涉及环裂解和卤化、酮辐照以及醚的 α-羟基化的反应也在研究之列。本研究的第二部分介绍了利用现成的类固醇合成具有显著生物活性的化合物。环丙胺、头孢他汀-1、利他嗪 B 和三种多羟基孕甾醇(pergularin、utendin 和 tomentogenin)是按顺序生成的,其中一个关键步骤是利用舍奈克反应在 C-12 处进行羟基化。在制备可的松苷 A、红豆杉苷核心、桉叶油醇 A、5,6-二氢白果苷元 C 以及clinostatins A 和 B 的过程中,一个关键步骤是利用次卤化物化学反应对 C-18 或 -19 进行官能化。xestobergsterol A、pavonin-4-aglycone 和 ouagabagenin 的合成路线包括酮辐照在生成 Δ14 或 C-19 活化类固醇过程中起作用的转化。自由基中继反应生成了 17α-氯甾烷,是产生焦胆酸的关键。在合成环柠檬醇的过程中,四乙酸铅反应是 C-19 功能化的关键。
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Remote functionalization reactions in steroids: discovery and application

Research published between 2001 and 2022 on the functionalization of remote positions of steroids, as well as the use of this technique in the generation of biologically active compounds has been reviewed. In the first section of the analysis established and novel methods for activation of sites deemed to be remote were reported. A series of manganese- (mainly), rhodium-, ruthenium- and osmium-centered porphyrins as catalysts in the presence of PIDA as oxidant have effected hydroxylation at C-1, -5, -6, -7, -11, -14, -15, -16, -17, -20, -24 and -25. Dioxiranes have been utilized in inserting hydroxyl groups at the 5, 12, 14, 15, 16, 17, 20, 24 and 25 positions (tertiary centers for the most part). Alcohols at C-12 and -16 were oxidized further to ketones. The Schönecker oxidation, discovered and developed during the period, has revolutionized the selective functionalization at C-12 of steroids possessing a 17-keto group. In the presence of iron-centered PDP- and MCP-based catalysts, hydrogen peroxide and acetic acid, substrates tended to be hydroxylated at C-6 and -12, with further oxidation to ketones often accompanying this reaction. The hypohalite reaction, utilizing the more modern Suarez conditions (irradiation in the presence of iodine and PIDA), was reported to facilitate the insertion of a hydroxyl moiety five atoms away from an existing alcohol oxygen. Steroidal-3β-diazoacetates tend to decompose on heating with di-rhodium-centered catalysts while activating carbons four or five atoms away. Chromium- and iron-based acetates were observed to functionalize C-5 and -25. Other reactions involving ring cleavage and halogenation, ketone irradiation and α-hydroxylation of ethers were also covered.

The syntheses of compounds with marked biological activity from readily available steroids is described in the second section of the study. Cyclopamine, cephalostatin-1, ritterazine B and three polyhydroxypregnanaes (pergularin, utendin and tomentogenin) were generated in sequences in which a key step required hydroxylation at C-12 using the Schönecker reaction. A crucial stage in the preparation of cortistatin A, the saundersioside core, eurysterol A, 5,6-dihydroglaucogenin C, as well as clinostatins A and B involved the functionalization of C-18 or -19 utilizing hypohalite chemistry. The synthetic route to xestobergsterol A, pavonin-4-aglycone and ouagabagenin included a transformation where ketone irradiation played a part in either producing a Δ14 or a C-19 activated steroid. The radical relay reaction, where a 17α-chloro-steroid was formed, was central in the generation of pythocholic acid. The lead tetraacetate reaction was pivotal in the functionalization of C-19 during the synthesis of cyclocitrinol.

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来源期刊
Steroids
Steroids 医学-内分泌学与代谢
CiteScore
5.10
自引率
3.70%
发文量
120
审稿时长
73 days
期刊介绍: STEROIDS is an international research journal devoted to studies on all chemical and biological aspects of steroidal moieties. The journal focuses on both experimental and theoretical studies on the biology, chemistry, biosynthesis, metabolism, molecular biology, physiology and pharmacology of steroids and other molecules that target or regulate steroid receptors. Manuscripts presenting clinical research related to steroids, steroid drug development, comparative endocrinology of steroid hormones, investigations on the mechanism of steroid action and steroid chemistry are all appropriate for submission for peer review. STEROIDS publishes both original research and timely reviews. For details concerning the preparation of manuscripts see Instructions to Authors, which is published in each issue of the journal.
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