Design, Synthesis and Characterization of HIV-1 CA-Targeting Small Molecules: Conformational Restriction of PF74

Small molecules targeting the PF74 binding site of the HIV-1 capsid protein (CA) confer potent and mechanistically unique antiviral activities. Structural modifications of PF74 could further the understanding of ligand binding modes, diversify ligand chemical classes, and allow identification of new...

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Autores principales: Sahani, Rajkumar Lalji, Diana-Rivero, Raquel, Vernekar, Sanjeev Kumar V., Wang, Lei, Du, Haijuan, Zhang, Huanchun, Castaner, Andres Emanuelli, Casey, Mary C., Kirby, Karen A., Tedbury, Philip R., Xie, Jiashu, Sarafianos, Stefan G., Wang, Zhengqiang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8000227/
https://www.ncbi.nlm.nih.gov/pubmed/33804121
http://dx.doi.org/10.3390/v13030479
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author Sahani, Rajkumar Lalji
Diana-Rivero, Raquel
Vernekar, Sanjeev Kumar V.
Wang, Lei
Du, Haijuan
Zhang, Huanchun
Castaner, Andres Emanuelli
Casey, Mary C.
Kirby, Karen A.
Tedbury, Philip R.
Xie, Jiashu
Sarafianos, Stefan G.
Wang, Zhengqiang
author_facet Sahani, Rajkumar Lalji
Diana-Rivero, Raquel
Vernekar, Sanjeev Kumar V.
Wang, Lei
Du, Haijuan
Zhang, Huanchun
Castaner, Andres Emanuelli
Casey, Mary C.
Kirby, Karen A.
Tedbury, Philip R.
Xie, Jiashu
Sarafianos, Stefan G.
Wang, Zhengqiang
author_sort Sahani, Rajkumar Lalji
collection PubMed
description Small molecules targeting the PF74 binding site of the HIV-1 capsid protein (CA) confer potent and mechanistically unique antiviral activities. Structural modifications of PF74 could further the understanding of ligand binding modes, diversify ligand chemical classes, and allow identification of new variants with balanced antiviral activity and metabolic stability. In the current work, we designed and synthesized three series of PF74-like analogs featuring conformational constraints at the aniline terminus or the phenylalanine carboxamide moiety, and characterized them using a biophysical thermal shift assay (TSA), cell-based antiviral and cytotoxicity assays, and in vitro metabolic stability assays in human and mouse liver microsomes. These studies showed that the two series with the phenylalanine carboxamide moiety replaced by a pyridine or imidazole ring can provide viable hits. Subsequent SAR identified an improved analog 15 which effectively inhibited HIV-1 (EC(50) = 0.31 μM), strongly stabilized CA hexamer (ΔTm = 8.7 °C), and exhibited substantially enhanced metabolic stability (t(1/2) = 27 min for 15 vs. 0.7 min for PF74). Metabolic profiles from the microsomal stability assay also indicate that blocking the C5 position of the indole ring could lead to increased resistance to oxidative metabolism.
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spelling pubmed-80002272021-03-28 Design, Synthesis and Characterization of HIV-1 CA-Targeting Small Molecules: Conformational Restriction of PF74 Sahani, Rajkumar Lalji Diana-Rivero, Raquel Vernekar, Sanjeev Kumar V. Wang, Lei Du, Haijuan Zhang, Huanchun Castaner, Andres Emanuelli Casey, Mary C. Kirby, Karen A. Tedbury, Philip R. Xie, Jiashu Sarafianos, Stefan G. Wang, Zhengqiang Viruses Article Small molecules targeting the PF74 binding site of the HIV-1 capsid protein (CA) confer potent and mechanistically unique antiviral activities. Structural modifications of PF74 could further the understanding of ligand binding modes, diversify ligand chemical classes, and allow identification of new variants with balanced antiviral activity and metabolic stability. In the current work, we designed and synthesized three series of PF74-like analogs featuring conformational constraints at the aniline terminus or the phenylalanine carboxamide moiety, and characterized them using a biophysical thermal shift assay (TSA), cell-based antiviral and cytotoxicity assays, and in vitro metabolic stability assays in human and mouse liver microsomes. These studies showed that the two series with the phenylalanine carboxamide moiety replaced by a pyridine or imidazole ring can provide viable hits. Subsequent SAR identified an improved analog 15 which effectively inhibited HIV-1 (EC(50) = 0.31 μM), strongly stabilized CA hexamer (ΔTm = 8.7 °C), and exhibited substantially enhanced metabolic stability (t(1/2) = 27 min for 15 vs. 0.7 min for PF74). Metabolic profiles from the microsomal stability assay also indicate that blocking the C5 position of the indole ring could lead to increased resistance to oxidative metabolism. MDPI 2021-03-15 /pmc/articles/PMC8000227/ /pubmed/33804121 http://dx.doi.org/10.3390/v13030479 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) ).
spellingShingle Article
Sahani, Rajkumar Lalji
Diana-Rivero, Raquel
Vernekar, Sanjeev Kumar V.
Wang, Lei
Du, Haijuan
Zhang, Huanchun
Castaner, Andres Emanuelli
Casey, Mary C.
Kirby, Karen A.
Tedbury, Philip R.
Xie, Jiashu
Sarafianos, Stefan G.
Wang, Zhengqiang
Design, Synthesis and Characterization of HIV-1 CA-Targeting Small Molecules: Conformational Restriction of PF74
title Design, Synthesis and Characterization of HIV-1 CA-Targeting Small Molecules: Conformational Restriction of PF74
title_full Design, Synthesis and Characterization of HIV-1 CA-Targeting Small Molecules: Conformational Restriction of PF74
title_fullStr Design, Synthesis and Characterization of HIV-1 CA-Targeting Small Molecules: Conformational Restriction of PF74
title_full_unstemmed Design, Synthesis and Characterization of HIV-1 CA-Targeting Small Molecules: Conformational Restriction of PF74
title_short Design, Synthesis and Characterization of HIV-1 CA-Targeting Small Molecules: Conformational Restriction of PF74
title_sort design, synthesis and characterization of hiv-1 ca-targeting small molecules: conformational restriction of pf74
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8000227/
https://www.ncbi.nlm.nih.gov/pubmed/33804121
http://dx.doi.org/10.3390/v13030479
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