铱催化醇的α-选择性氘代反应。

Iridium-catalyzed α-selective deuteration of alcohols.

作者信息

Itoga Moeko, Yamanishi Masako, Udagawa Taro, Kobayashi Ayane, Maekawa Keiko, Takemoto Yoshiji, Naka Hiroshi

机构信息

Graduate School of Pharmaceutical Sciences, Kyoto University Kyoto 606-8501 Japan

Department of Chemistry and Biomolecular Science, Faculty of Engineering, Gifu University Yanagido 1-1 Gifu 501-1193 Japan.

出版信息

Chem Sci. 2022 Jul 6;13(30):8744-8751. doi: 10.1039/d2sc01805e. eCollection 2022 Aug 4.

DOI:10.1039/d2sc01805e

PMID:35975159

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9350590/

Abstract

The development of chemoselective C(sp)-H deuteration is of particular interest in synthetic chemistry. We herein report the α-selective, iridium(iii)-bipyridonate-catalyzed hydrogen(H)/deuterium(D) isotope exchange of alcohols using deuterium oxide (DO) as the primary deuterium source. This method enables the direct, chemoselective deuteration of primary and secondary alcohols under basic or neutral conditions without being affected by coordinative functional groups such as imidazole and tetrazole. Successful substrates for deuterium labelling include the pharmaceuticals losartan potassium, rapidosept, guaifenesin, and diprophylline. The deuterated losartan potassium shows higher stability towards the metabolism by CYP2C9 than the protiated analogue. Kinetic and DFT studies indicate that the direct deuteration proceeds through dehydrogenation of alcohol to the carbonyl intermediate, conversion of [Ir-H] to [Ir-D] with DO, and deuteration of the carbonyl intermediate to give the α-deuterated product.

摘要

化学选择性C(sp)-H氘代反应的发展在合成化学中备受关注。我们在此报告了以氧化氘（D₂O）作为主要氘源，通过α-选择性、铱(III)-联吡啶酮催化实现醇的氢（H）/氘（D）同位素交换反应。该方法能够在碱性或中性条件下，对伯醇和仲醇进行直接、化学选择性氘代，且不受咪唑和四唑等配位官能团的影响。成功用于氘标记的底物包括药物氯沙坦钾、速福达、愈创甘油醚和二羟丙茶碱。氘代氯沙坦钾比其质子化类似物对CYP2C9介导的代谢表现出更高的稳定性。动力学和密度泛函理论研究表明，直接氘代反应通过醇脱氢生成羰基中间体、[Ir-H]与D₂O转化为[Ir-D]以及羰基中间体氘代生成α-氘代产物的过程进行。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a511/9350590/0a511f1d0926/d2sc01805e-f2.jpg

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铱催化醇的α-选择性氘代反应。

Iridium-catalyzed α-selective deuteration of alcohols.

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