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  2. Evaluation of an octahydroisochromene scaffold used as a novel SARS 3CL protease inhibitor

Evaluation of an octahydroisochromene scaffold used as a novel SARS 3CL protease inhibitor

  • Bioorg Med Chem. 2020 Feb 15;28(4):115273. doi: 10.1016/j.bmc.2019.115273.
Shin-Ichiro Yoshizawa 1 Yasunao Hattori 2 Kazuya Kobayashi 1 Kenichi Akaji 3
Affiliations

Affiliations

  • 1 Department of Medicinal Chemistry, Kyoto Pharmaceutical University, Yamashina-ku, Kyoto 607-8412, Japan.
  • 2 Center for Instrumental Analysis, Kyoto Pharmaceutical University, Yamashina-ku, Kyoto 607-8412, Japan.
  • 3 Department of Medicinal Chemistry, Kyoto Pharmaceutical University, Yamashina-ku, Kyoto 607-8412, Japan. Electronic address: akaji@mb.kyoto-phu.ac.jp.
Abstract

An octahydroisochromene scaffold has been introduced into a known SARS 3CL protease inhibitor as a novel hydrophobic core to interact with the S2 pocket of the protease. An alkyl or aryl substituent was also introduced at the 1-position of the octahydroisochromene scaffold and expected to introduce additional interactions with the protease. Sharpless-Katsuki asymmetric epoxidation and Sharpless asymmetric dihydroxylation were employed to construct the octahydroisochromene scaffold. The introductions of the P1 site His-al and the substituent at 1-position was achieved using successive reductive amination reactions. Our initial evaluations of the diastereo-isomeric mixtures (16a-d) revealed that the octahydroisochromene moiety functions as a core hydrophobic scaffold for the S2 pocket of the protease and the substituent at the 1-position may form additional interactions with the protease. The inhibitory activities of the diastereoisomerically-pure inhibitors (3a-d) strongly suggest that a specific stereo-isomer of the octahydroisochromene scaffold, (1S, 3S) 3b, directs the P1 site imidazole, the warhead aldehyde, and substituent at the 1-position of the fused ring to their appropriate pockets in the protease.

Keywords

Fused ring scaffold; Inhibitor; Octahydroisochromene; SARS 3CL protease.

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