A Novel Class of HIV-1 Inhibitors Targeting the Vpr-Induced G2-Arrest in Macrophages by New Yeast- and Cell-Based High-Throughput Screening

The human immunodeficiency virus type 1 (HIV-1) accessory protein, Vpr, arrests the cell cycle of the G2 phase, and this Vpr-mediated G2 arrest is implicated in an efficient HIV-1 spread in monocyte-derived macrophages. Here, we screened new candidates for Vpr-targeting HIV-1 inhibitors by using fis...

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Autores principales: Sato, Hirotaka, Murakami, Tomoyuki, Matsuura, Ryosuke, Abe, Masako, Matsuoka, Seiji, Yashiroda, Yoko, Yoshida, Minoru, Akari, Hirofumi, Nagasawa, Yosuke, Takei, Masami, Aida, Yoko
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9227106/
https://www.ncbi.nlm.nih.gov/pubmed/35746791
http://dx.doi.org/10.3390/v14061321
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author Sato, Hirotaka
Murakami, Tomoyuki
Matsuura, Ryosuke
Abe, Masako
Matsuoka, Seiji
Yashiroda, Yoko
Yoshida, Minoru
Akari, Hirofumi
Nagasawa, Yosuke
Takei, Masami
Aida, Yoko
author_facet Sato, Hirotaka
Murakami, Tomoyuki
Matsuura, Ryosuke
Abe, Masako
Matsuoka, Seiji
Yashiroda, Yoko
Yoshida, Minoru
Akari, Hirofumi
Nagasawa, Yosuke
Takei, Masami
Aida, Yoko
author_sort Sato, Hirotaka
collection PubMed
description The human immunodeficiency virus type 1 (HIV-1) accessory protein, Vpr, arrests the cell cycle of the G2 phase, and this Vpr-mediated G2 arrest is implicated in an efficient HIV-1 spread in monocyte-derived macrophages. Here, we screened new candidates for Vpr-targeting HIV-1 inhibitors by using fission yeast- and mammalian cell-based high-throughput screening. First, fission yeast strains expressing the HIV-1 Vpr protein were generated and then treated for 48 h with 20 μM of a synthetic library, including 140,000 chemical compounds. We identified 268 compounds that recovered the growth of Vpr-overexpressing yeast. The selected compounds were then tested in mammalian cells, and those displaying high cytotoxicity were excluded from further cell cycle analysis and imaging-based screening. A flow cytometry analysis confirmed that seven compounds recovered from the Vpr-induced G2 arrest. The cell toxicity and inhibitory effect of HIV-1 replication in human monocyte-derived macrophages (MDM) were examined, and three independent structural compounds, VTD227, VTD232, and VTD263, were able to inhibit HIV-1 replication in MDM. Furthermore, we showed that VTD227, but not VTD232 and VTD263, can directly bind to Vpr. Our results indicate that three new compounds and their derivatives represent new drugs targeting HIV-1 replication and can be potentially used in clinics to improve the current antiretroviral therapy.
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spelling pubmed-92271062022-06-25 A Novel Class of HIV-1 Inhibitors Targeting the Vpr-Induced G2-Arrest in Macrophages by New Yeast- and Cell-Based High-Throughput Screening Sato, Hirotaka Murakami, Tomoyuki Matsuura, Ryosuke Abe, Masako Matsuoka, Seiji Yashiroda, Yoko Yoshida, Minoru Akari, Hirofumi Nagasawa, Yosuke Takei, Masami Aida, Yoko Viruses Article The human immunodeficiency virus type 1 (HIV-1) accessory protein, Vpr, arrests the cell cycle of the G2 phase, and this Vpr-mediated G2 arrest is implicated in an efficient HIV-1 spread in monocyte-derived macrophages. Here, we screened new candidates for Vpr-targeting HIV-1 inhibitors by using fission yeast- and mammalian cell-based high-throughput screening. First, fission yeast strains expressing the HIV-1 Vpr protein were generated and then treated for 48 h with 20 μM of a synthetic library, including 140,000 chemical compounds. We identified 268 compounds that recovered the growth of Vpr-overexpressing yeast. The selected compounds were then tested in mammalian cells, and those displaying high cytotoxicity were excluded from further cell cycle analysis and imaging-based screening. A flow cytometry analysis confirmed that seven compounds recovered from the Vpr-induced G2 arrest. The cell toxicity and inhibitory effect of HIV-1 replication in human monocyte-derived macrophages (MDM) were examined, and three independent structural compounds, VTD227, VTD232, and VTD263, were able to inhibit HIV-1 replication in MDM. Furthermore, we showed that VTD227, but not VTD232 and VTD263, can directly bind to Vpr. Our results indicate that three new compounds and their derivatives represent new drugs targeting HIV-1 replication and can be potentially used in clinics to improve the current antiretroviral therapy. MDPI 2022-06-16 /pmc/articles/PMC9227106/ /pubmed/35746791 http://dx.doi.org/10.3390/v14061321 Text en © 2022 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 (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Sato, Hirotaka
Murakami, Tomoyuki
Matsuura, Ryosuke
Abe, Masako
Matsuoka, Seiji
Yashiroda, Yoko
Yoshida, Minoru
Akari, Hirofumi
Nagasawa, Yosuke
Takei, Masami
Aida, Yoko
A Novel Class of HIV-1 Inhibitors Targeting the Vpr-Induced G2-Arrest in Macrophages by New Yeast- and Cell-Based High-Throughput Screening
title A Novel Class of HIV-1 Inhibitors Targeting the Vpr-Induced G2-Arrest in Macrophages by New Yeast- and Cell-Based High-Throughput Screening
title_full A Novel Class of HIV-1 Inhibitors Targeting the Vpr-Induced G2-Arrest in Macrophages by New Yeast- and Cell-Based High-Throughput Screening
title_fullStr A Novel Class of HIV-1 Inhibitors Targeting the Vpr-Induced G2-Arrest in Macrophages by New Yeast- and Cell-Based High-Throughput Screening
title_full_unstemmed A Novel Class of HIV-1 Inhibitors Targeting the Vpr-Induced G2-Arrest in Macrophages by New Yeast- and Cell-Based High-Throughput Screening
title_short A Novel Class of HIV-1 Inhibitors Targeting the Vpr-Induced G2-Arrest in Macrophages by New Yeast- and Cell-Based High-Throughput Screening
title_sort novel class of hiv-1 inhibitors targeting the vpr-induced g2-arrest in macrophages by new yeast- and cell-based high-throughput screening
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9227106/
https://www.ncbi.nlm.nih.gov/pubmed/35746791
http://dx.doi.org/10.3390/v14061321
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