Development of an efficient semisynthetic modification of FR901459 via a novel regioselective N, O-acyl migration

[Display omitted] HCV utilizes cellular protein cyclophilins in the virus replication cycle and cyclophilin inhibitors have become a new class of anti-HCV agents. In our screening of natural products, we identified a unique cyclosporin analogue, FR901459, as a cyclophilin inhibitor with potent anti-...

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Veröffentlicht in:	Bioorganic & medicinal chemistry letters 2020-07, Vol.30 (14), p.127251-127251, Article 127251
Hauptverfasser:	Makino, Takuya, Yoshimura, Seiji, Yamanaka, Toshio, Sawada, Masae, Barrett, David
Format:	Artikel
Sprache:	eng
Schlagworte:	Cyclophilin inhibitor Cyclosporin A FR901459 HCV N, O-acyl migration Semi-synthesis
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creator	Makino, Takuya Yoshimura, Seiji Yamanaka, Toshio Sawada, Masae Barrett, David
description	[Display omitted] HCV utilizes cellular protein cyclophilins in the virus replication cycle and cyclophilin inhibitors have become a new class of anti-HCV agents. In our screening of natural products, we identified a unique cyclosporin analogue, FR901459, as a cyclophilin inhibitor with potent anti-HCV activity. In this work, we developed an efficient synthetic methodology to prepare FR901459 derivatives via an N, O-acyl migration reaction. This method allows us to efficiently manipulate the amino acid residues at the 3 position while avoiding lengthy total synthesis for each compound. By using this methodology, we discovered 4, which has superior anti-HCV activity and decreased immunosuppressive activity compared to FR901459.
doi_str_mv	10.1016/j.bmcl.2020.127251
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subjects	Cyclophilin inhibitor Cyclosporin A FR901459 HCV N, O-acyl migration Semi-synthesis
title	Development of an efficient semisynthetic modification of FR901459 via a novel regioselective N, O-acyl migration
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