A clue to unprecedented strategy to HIV eradication: “Lock-in and apoptosis”

A clue to unprecedented strategy to HIV eradication: “Lock-in and apoptosis”

Abstract Despite the development of antiretroviral therapy against HIV, eradication of the virus from the body, as a means to a cure, remains in progress. A “kick and kill” strategy proposes “kick” of the latent HIV to an active HIV to eventually be “killed”. Latency-reverting agents that can perfor...

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Main Authors: Hiroshi Tateishi, Kazuaki Monde, Kensaku Anraku, Ryoko Koga, Yuya Hayashi, Halil Ibrahim Ciftci, Hasan DeMirci, Taishi Higashi, Keiichi Motoyama, Hidetoshi Arima, Masami Otsuka, Mikako Fujita
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-09129-w
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spelling doaj-155939fcd0ff43f9a3efc384ff4476452020-12-08T02:53:44ZengNature Publishing GroupScientific Reports2045-23222017-08-01711810.1038/s41598-017-09129-wA clue to unprecedented strategy to HIV eradication: “Lock-in and apoptosis”Hiroshi TateishiKazuaki Monde0Kensaku Anraku1Ryoko Koga2Yuya Hayashi3Halil Ibrahim Ciftci4Hasan DeMirci5Taishi Higashi6Keiichi Motoyama7Hidetoshi Arima8Masami Otsuka9Mikako Fujita10Department of Microbiology, Faculty of Life Sciences, Kumamoto UniversityDepartment of Medical Technology, Kumamoto Health Science UniversityDepartment of Bioorganic Medicinal Chemistry, Faculty of Life Sciences, Kumamoto UniversityDepartment of Physical Pharmaceutics, Faculty of Life Sciences, Kumamoto UniversityDepartment of Bioorganic Medicinal Chemistry, Faculty of Life Sciences, Kumamoto UniversityStanford PULSE Institute, SLAC National Accelerator Laboratory, Menlo ParkDepartment of Physical Pharmaceutics, Faculty of Life Sciences, Kumamoto UniversityDepartment of Physical Pharmaceutics, Faculty of Life Sciences, Kumamoto UniversityDepartment of Physical Pharmaceutics, Faculty of Life Sciences, Kumamoto UniversityDepartment of Bioorganic Medicinal Chemistry, Faculty of Life Sciences, Kumamoto UniversityResearch Institute for Drug Discovery, School of Pharmacy, Kumamoto UniversityAbstract Despite the development of antiretroviral therapy against HIV, eradication of the virus from the body, as a means to a cure, remains in progress. A “kick and kill” strategy proposes “kick” of the latent HIV to an active HIV to eventually be “killed”. Latency-reverting agents that can perform the “kick” function are under development and have shown promise. Management of the infected cells not to produce virions after the “kick” step is important to this strategy. Here we show that a newly synthesized compound, L-HIPPO, captures the HIV-1 protein Pr55Gag and intercepts its function to translocate the virus from the cytoplasm to the plasma membrane leading to virion budding. The infecting virus thus “locked-in” subsequently induces apoptosis of the host cells. This “lock-in and apoptosis” approach performed by our novel compound in HIV-infected cells provides a means to bridge the gap between the “kick” and “kill” steps of this eradication strategy. By building upon previous progress in latency reverting agents, our compound appears to provide a promising step toward the goal of HIV eradication from the body.https://doi.org/10.1038/s41598-017-09129-w
collection DOAJ
language English
format Article
sources DOAJ
author Hiroshi Tateishi
Kazuaki Monde
Kensaku Anraku
Ryoko Koga
Yuya Hayashi
Halil Ibrahim Ciftci
Hasan DeMirci
Taishi Higashi
Keiichi Motoyama
Hidetoshi Arima
Masami Otsuka
Mikako Fujita
spellingShingle Hiroshi Tateishi
Kazuaki Monde
Kensaku Anraku
Ryoko Koga
Yuya Hayashi
Halil Ibrahim Ciftci
Hasan DeMirci
Taishi Higashi
Keiichi Motoyama
Hidetoshi Arima
Masami Otsuka
Mikako Fujita
A clue to unprecedented strategy to HIV eradication: “Lock-in and apoptosis”
Scientific Reports
author_facet Hiroshi Tateishi
Kazuaki Monde
Kensaku Anraku
Ryoko Koga
Yuya Hayashi
Halil Ibrahim Ciftci
Hasan DeMirci
Taishi Higashi
Keiichi Motoyama
Hidetoshi Arima
Masami Otsuka
Mikako Fujita
author_sort Hiroshi Tateishi
title A clue to unprecedented strategy to HIV eradication: “Lock-in and apoptosis”
title_short A clue to unprecedented strategy to HIV eradication: “Lock-in and apoptosis”
title_full A clue to unprecedented strategy to HIV eradication: “Lock-in and apoptosis”
title_fullStr A clue to unprecedented strategy to HIV eradication: “Lock-in and apoptosis”
title_full_unstemmed A clue to unprecedented strategy to HIV eradication: “Lock-in and apoptosis”
title_sort clue to unprecedented strategy to hiv eradication: “lock-in and apoptosis”
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-08-01
description Abstract Despite the development of antiretroviral therapy against HIV, eradication of the virus from the body, as a means to a cure, remains in progress. A “kick and kill” strategy proposes “kick” of the latent HIV to an active HIV to eventually be “killed”. Latency-reverting agents that can perform the “kick” function are under development and have shown promise. Management of the infected cells not to produce virions after the “kick” step is important to this strategy. Here we show that a newly synthesized compound, L-HIPPO, captures the HIV-1 protein Pr55Gag and intercepts its function to translocate the virus from the cytoplasm to the plasma membrane leading to virion budding. The infecting virus thus “locked-in” subsequently induces apoptosis of the host cells. This “lock-in and apoptosis” approach performed by our novel compound in HIV-infected cells provides a means to bridge the gap between the “kick” and “kill” steps of this eradication strategy. By building upon previous progress in latency reverting agents, our compound appears to provide a promising step toward the goal of HIV eradication from the body.
url https://doi.org/10.1038/s41598-017-09129-w
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