Mining for humoral correlates of HIV control and latent reservoir size.

Mining for humoral correlates of HIV control and latent reservoir size.

While antiretroviral therapy (ART) has effectively revolutionized HIV care, the virus is never fully eliminated. Instead, immune dysfunction, driven by persistent non-specific immune activation, ensues and progressively leads to premature immunologic aging. Current biomarkers monitoring immunologic...

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Main Authors: Jishnu Das, Anush Devadhasan, Caitlyn Linde, Tom Broge, Jessica Sassic, Max Mangano, Sean O'Keefe, Todd Suscovich, Hendrik Streeck, Alivelu Irrinki, Chris Pohlmeyer, Gundula Min-Oo, Shu Lin, Joshua A Weiner, Thomas Cihlar, Margaret E Ackerman, Boris Julg, Steven Deeks, Douglas A Lauffenburger, Galit Alter
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-10-01
Series:PLoS Pathogens
Online Access:https://doi.org/10.1371/journal.ppat.1008868
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spelling doaj-3c9af2d7b9184bf88ad5e6cbfa43eb892021-07-13T04:30:51ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742020-10-011610e100886810.1371/journal.ppat.1008868Mining for humoral correlates of HIV control and latent reservoir size.Jishnu DasAnush DevadhasanCaitlyn LindeTom BrogeJessica SassicMax ManganoSean O'KeefeTodd SuscovichHendrik StreeckAlivelu IrrinkiChris PohlmeyerGundula Min-OoShu LinJoshua A WeinerThomas CihlarMargaret E AckermanBoris JulgSteven DeeksDouglas A LauffenburgerGalit AlterWhile antiretroviral therapy (ART) has effectively revolutionized HIV care, the virus is never fully eliminated. Instead, immune dysfunction, driven by persistent non-specific immune activation, ensues and progressively leads to premature immunologic aging. Current biomarkers monitoring immunologic changes encompass generic inflammatory biomarkers, that may also change with other infections or disease states, precluding the antigen-specific monitoring of HIV-infection associated changes in disease. Given our growing appreciation of the significant changes in qualitative and quantitative properties of disease-specific antibodies in HIV infection, we used a systems approach to explore humoral profiles associated with HIV control. We found that HIV-specific antibody profiles diverge by spontaneous control of HIV, treatment status, viral load and reservoir size. Specifically, HIV-specific antibody profiles representative of changes in viral load were largely quantitative, reflected by differential HIV-specific antibody levels and Fc-receptor binding. Conversely, HIV-specific antibody features that tracked with reservoir size exhibited a combination of quantitative and qualitative changes marked by more distinct subclass selection profiles and unique HIV-specific Fc-glycans. Our analyses suggest that HIV-specific antibody Fc-profiles provide antigen-specific resolution on both cell free and cell-associated viral loads, pointing to potentially novel biomarkers to monitor reservoir activity.https://doi.org/10.1371/journal.ppat.1008868
collection DOAJ
language English
format Article
sources DOAJ
author Jishnu Das
Anush Devadhasan
Caitlyn Linde
Tom Broge
Jessica Sassic
Max Mangano
Sean O'Keefe
Todd Suscovich
Hendrik Streeck
Alivelu Irrinki
Chris Pohlmeyer
Gundula Min-Oo
Shu Lin
Joshua A Weiner
Thomas Cihlar
Margaret E Ackerman
Boris Julg
Steven Deeks
Douglas A Lauffenburger
Galit Alter
spellingShingle Jishnu Das
Anush Devadhasan
Caitlyn Linde
Tom Broge
Jessica Sassic
Max Mangano
Sean O'Keefe
Todd Suscovich
Hendrik Streeck
Alivelu Irrinki
Chris Pohlmeyer
Gundula Min-Oo
Shu Lin
Joshua A Weiner
Thomas Cihlar
Margaret E Ackerman
Boris Julg
Steven Deeks
Douglas A Lauffenburger
Galit Alter
Mining for humoral correlates of HIV control and latent reservoir size.
PLoS Pathogens
author_facet Jishnu Das
Anush Devadhasan
Caitlyn Linde
Tom Broge
Jessica Sassic
Max Mangano
Sean O'Keefe
Todd Suscovich
Hendrik Streeck
Alivelu Irrinki
Chris Pohlmeyer
Gundula Min-Oo
Shu Lin
Joshua A Weiner
Thomas Cihlar
Margaret E Ackerman
Boris Julg
Steven Deeks
Douglas A Lauffenburger
Galit Alter
author_sort Jishnu Das
title Mining for humoral correlates of HIV control and latent reservoir size.
title_short Mining for humoral correlates of HIV control and latent reservoir size.
title_full Mining for humoral correlates of HIV control and latent reservoir size.
title_fullStr Mining for humoral correlates of HIV control and latent reservoir size.
title_full_unstemmed Mining for humoral correlates of HIV control and latent reservoir size.
title_sort mining for humoral correlates of hiv control and latent reservoir size.
publisher Public Library of Science (PLoS)
series PLoS Pathogens
issn 1553-7366
1553-7374
publishDate 2020-10-01
description While antiretroviral therapy (ART) has effectively revolutionized HIV care, the virus is never fully eliminated. Instead, immune dysfunction, driven by persistent non-specific immune activation, ensues and progressively leads to premature immunologic aging. Current biomarkers monitoring immunologic changes encompass generic inflammatory biomarkers, that may also change with other infections or disease states, precluding the antigen-specific monitoring of HIV-infection associated changes in disease. Given our growing appreciation of the significant changes in qualitative and quantitative properties of disease-specific antibodies in HIV infection, we used a systems approach to explore humoral profiles associated with HIV control. We found that HIV-specific antibody profiles diverge by spontaneous control of HIV, treatment status, viral load and reservoir size. Specifically, HIV-specific antibody profiles representative of changes in viral load were largely quantitative, reflected by differential HIV-specific antibody levels and Fc-receptor binding. Conversely, HIV-specific antibody features that tracked with reservoir size exhibited a combination of quantitative and qualitative changes marked by more distinct subclass selection profiles and unique HIV-specific Fc-glycans. Our analyses suggest that HIV-specific antibody Fc-profiles provide antigen-specific resolution on both cell free and cell-associated viral loads, pointing to potentially novel biomarkers to monitor reservoir activity.
url https://doi.org/10.1371/journal.ppat.1008868
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