Immunotherapy with DNA vaccine and live attenuated rubella/SIV gag vectors plus early ART can prevent SIVmac251 viral rebound in acutely infected rhesus macaques.

Immunotherapy with DNA vaccine and live attenuated rubella/SIV gag vectors plus early ART can prevent SIVmac251 viral rebound in acutely infected rhesus macaques.

Anti-retroviral therapy (ART) has been highly successful in controlling HIV replication, reducing viral burden, and preventing both progression to AIDS and viral transmission. Yet, ART alone cannot cure the infection. Even after years of successful therapy, ART withdrawal leads inevitably to viral r...

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Main Authors: Konstantin Virnik, Margherita Rosati, Alexei Medvedev, Aaron Scanlan, Gabrielle Walsh, Frances Dayton, Kate E Broderick, Mark Lewis, Yvonne Bryson, Jeffrey D Lifson, Ruth M Ruprecht, Barbara K Felber, Ira Berkower
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0228163
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author Konstantin Virnik
Margherita Rosati
Alexei Medvedev
Aaron Scanlan
Gabrielle Walsh
Frances Dayton
Kate E Broderick
Mark Lewis
Yvonne Bryson
Jeffrey D Lifson
Ruth M Ruprecht
Barbara K Felber
Ira Berkower
author_facet Konstantin Virnik
Margherita Rosati
Alexei Medvedev
Aaron Scanlan
Gabrielle Walsh
Frances Dayton
Kate E Broderick
Mark Lewis
Yvonne Bryson
Jeffrey D Lifson
Ruth M Ruprecht
Barbara K Felber
Ira Berkower
author_sort Konstantin Virnik
collection DOAJ
description Anti-retroviral therapy (ART) has been highly successful in controlling HIV replication, reducing viral burden, and preventing both progression to AIDS and viral transmission. Yet, ART alone cannot cure the infection. Even after years of successful therapy, ART withdrawal leads inevitably to viral rebound within a few weeks or months. Our hypothesis: effective therapy must control both the replicating virus pool and the reactivatable latent viral reservoir. To do this, we have combined ART and immunotherapy to attack both viral pools simultaneously. The vaccine regimen consisted of DNA vaccine expressing SIV Gag, followed by a boost with live attenuated rubella/gag vectors. The vectors grow well in rhesus macaques, and they are potent immunogens when used in a prime and boost strategy. We infected rhesus macaques by high dose mucosal challenge with virulent SIVmac251 and waited three days to allow viral dissemination and establishment of a reactivatable viral reservoir before starting ART. While on ART, the control group received control DNA and empty rubella vaccine, while the immunotherapy group received DNA/gag prime, followed by boosts with rubella vectors expressing SIV gag over 27 weeks. Both groups had a vaccine "take" to rubella, and the vaccine group developed antibodies and T cells specific for Gag. Five weeks after the last immunization, we stopped ART and monitored virus rebound. All four control animals eventually had a viral rebound, and two were euthanized for AIDS. One control macaque did not rebound until 2 years after ART release. In contrast, there was only one viral rebound in the vaccine group. Three out of four vaccinees had no viral rebound, even after CD8 depletion, and they remain in drug-free viral remission more than 2.5 years later. The strategy of early ART combined with immunotherapy can produce a sustained SIV remission in macaques and may be relevant for immunotherapy of HIV in humans.
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spelling doaj.art-a5d64ab2c3e94bdd92d5f3a09c3ae7802022-12-21T19:17:21ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01153e022816310.1371/journal.pone.0228163Immunotherapy with DNA vaccine and live attenuated rubella/SIV gag vectors plus early ART can prevent SIVmac251 viral rebound in acutely infected rhesus macaques.Konstantin VirnikMargherita RosatiAlexei MedvedevAaron ScanlanGabrielle WalshFrances DaytonKate E BroderickMark LewisYvonne BrysonJeffrey D LifsonRuth M RuprechtBarbara K FelberIra BerkowerAnti-retroviral therapy (ART) has been highly successful in controlling HIV replication, reducing viral burden, and preventing both progression to AIDS and viral transmission. Yet, ART alone cannot cure the infection. Even after years of successful therapy, ART withdrawal leads inevitably to viral rebound within a few weeks or months. Our hypothesis: effective therapy must control both the replicating virus pool and the reactivatable latent viral reservoir. To do this, we have combined ART and immunotherapy to attack both viral pools simultaneously. The vaccine regimen consisted of DNA vaccine expressing SIV Gag, followed by a boost with live attenuated rubella/gag vectors. The vectors grow well in rhesus macaques, and they are potent immunogens when used in a prime and boost strategy. We infected rhesus macaques by high dose mucosal challenge with virulent SIVmac251 and waited three days to allow viral dissemination and establishment of a reactivatable viral reservoir before starting ART. While on ART, the control group received control DNA and empty rubella vaccine, while the immunotherapy group received DNA/gag prime, followed by boosts with rubella vectors expressing SIV gag over 27 weeks. Both groups had a vaccine "take" to rubella, and the vaccine group developed antibodies and T cells specific for Gag. Five weeks after the last immunization, we stopped ART and monitored virus rebound. All four control animals eventually had a viral rebound, and two were euthanized for AIDS. One control macaque did not rebound until 2 years after ART release. In contrast, there was only one viral rebound in the vaccine group. Three out of four vaccinees had no viral rebound, even after CD8 depletion, and they remain in drug-free viral remission more than 2.5 years later. The strategy of early ART combined with immunotherapy can produce a sustained SIV remission in macaques and may be relevant for immunotherapy of HIV in humans.https://doi.org/10.1371/journal.pone.0228163
spellingShingle Konstantin Virnik
Margherita Rosati
Alexei Medvedev
Aaron Scanlan
Gabrielle Walsh
Frances Dayton
Kate E Broderick
Mark Lewis
Yvonne Bryson
Jeffrey D Lifson
Ruth M Ruprecht
Barbara K Felber
Ira Berkower
Immunotherapy with DNA vaccine and live attenuated rubella/SIV gag vectors plus early ART can prevent SIVmac251 viral rebound in acutely infected rhesus macaques.
PLoS ONE
title Immunotherapy with DNA vaccine and live attenuated rubella/SIV gag vectors plus early ART can prevent SIVmac251 viral rebound in acutely infected rhesus macaques.
title_full Immunotherapy with DNA vaccine and live attenuated rubella/SIV gag vectors plus early ART can prevent SIVmac251 viral rebound in acutely infected rhesus macaques.
title_fullStr Immunotherapy with DNA vaccine and live attenuated rubella/SIV gag vectors plus early ART can prevent SIVmac251 viral rebound in acutely infected rhesus macaques.
title_full_unstemmed Immunotherapy with DNA vaccine and live attenuated rubella/SIV gag vectors plus early ART can prevent SIVmac251 viral rebound in acutely infected rhesus macaques.
title_short Immunotherapy with DNA vaccine and live attenuated rubella/SIV gag vectors plus early ART can prevent SIVmac251 viral rebound in acutely infected rhesus macaques.
title_sort immunotherapy with dna vaccine and live attenuated rubella siv gag vectors plus early art can prevent sivmac251 viral rebound in acutely infected rhesus macaques
url https://doi.org/10.1371/journal.pone.0228163
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