The Microvesicle Component of HIV-1 Inocula Modulates Dendritic Cell Infection and Maturation and Enhances Adhesion to and Activation of T Lymphocytes

HIV-1 is taken up by immature monocyte derived dendritic cells (iMDDCs) into tetraspanin rich caves from which the virus can either be transferred to T lymphocytes or enter into endosomes resulting in degradation. HIV-1 binding and fusion with the DC membrane results in low level de novo infection t...

Descripción completa

Detalles Bibliográficos
Autores principales: Mercier, Sarah K., Donaghy, Heather, Botting, Rachel A., Turville, Stuart G., Harman, Andrew N., Nasr, Najla, Ji, Hong, Kusebauch, Ulrike, Mendoza, Luis, Shteynberg, David, Sandgren, Kerrie, Simpson, Richard J., Moritz, Robert L., Cunningham, Anthony L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3798598/
https://www.ncbi.nlm.nih.gov/pubmed/24204260
http://dx.doi.org/10.1371/journal.ppat.1003700
_version_ 1782287797669855232
author Mercier, Sarah K.
Donaghy, Heather
Botting, Rachel A.
Turville, Stuart G.
Harman, Andrew N.
Nasr, Najla
Ji, Hong
Kusebauch, Ulrike
Mendoza, Luis
Shteynberg, David
Sandgren, Kerrie
Simpson, Richard J.
Moritz, Robert L.
Cunningham, Anthony L.
author_facet Mercier, Sarah K.
Donaghy, Heather
Botting, Rachel A.
Turville, Stuart G.
Harman, Andrew N.
Nasr, Najla
Ji, Hong
Kusebauch, Ulrike
Mendoza, Luis
Shteynberg, David
Sandgren, Kerrie
Simpson, Richard J.
Moritz, Robert L.
Cunningham, Anthony L.
author_sort Mercier, Sarah K.
collection PubMed
description HIV-1 is taken up by immature monocyte derived dendritic cells (iMDDCs) into tetraspanin rich caves from which the virus can either be transferred to T lymphocytes or enter into endosomes resulting in degradation. HIV-1 binding and fusion with the DC membrane results in low level de novo infection that can also be transferred to T lymphocytes at a later stage. We have previously reported that HIV-1 can induce partial maturation of iMDDCs at both stages of trafficking. Here we show that CD45(+) microvesicles (MV) which contaminate purified HIV-1 inocula due to similar size and density, affect DC maturation, de novo HIV-1 infection and transfer to T lymphocytes. Comparing iMDDCs infected with CD45-depleted HIV-1(BaL) or matched non-depleted preparations, the presence of CD45(+) MVs was shown to enhance DC maturation and ICAM-1 (CD54) expression, which is involved in DC∶T lymphocyte interactions, while restricting HIV-1 infection of MDDCs. Furthermore, in the DC culture HIV-1 infected (p24(+)) MDDCs were more mature than bystander cells. Depletion of MVs from the HIV-1 inoculum markedly inhibited DC∶T lymphocyte clustering and the induction of alloproliferation as well as limiting HIV-1 transfer from DCs to T lymphocytes. The effects of MV depletion on these functions were reversed by the re-addition of purified MVs from activated but not non-activated SUPT1.CCR5-CL.30 or primary T cells. Analysis of the protein complement of these MVs and of these HIV-1 inocula before and after MV depletion showed that Heat Shock Proteins (HSPs) and nef were the likely DC maturation candidates. Recombinant HSP90α and β and nef all induced DC maturation and ICAM-1 expression, greater when combined. These results suggest that MVs contaminating HIV-1 released from infected T lymphocytes may be biologically important, especially in enhancing T cell activation, during uptake by DCs in vitro and in vivo, particularly as MVs have been detected in the circulation of HIV-1 infected subjects.
format Online
Article
Text
id pubmed-3798598
institution National Center for Biotechnology Information
language English
publishDate 2013
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-37985982013-11-07 The Microvesicle Component of HIV-1 Inocula Modulates Dendritic Cell Infection and Maturation and Enhances Adhesion to and Activation of T Lymphocytes Mercier, Sarah K. Donaghy, Heather Botting, Rachel A. Turville, Stuart G. Harman, Andrew N. Nasr, Najla Ji, Hong Kusebauch, Ulrike Mendoza, Luis Shteynberg, David Sandgren, Kerrie Simpson, Richard J. Moritz, Robert L. Cunningham, Anthony L. PLoS Pathog Research Article HIV-1 is taken up by immature monocyte derived dendritic cells (iMDDCs) into tetraspanin rich caves from which the virus can either be transferred to T lymphocytes or enter into endosomes resulting in degradation. HIV-1 binding and fusion with the DC membrane results in low level de novo infection that can also be transferred to T lymphocytes at a later stage. We have previously reported that HIV-1 can induce partial maturation of iMDDCs at both stages of trafficking. Here we show that CD45(+) microvesicles (MV) which contaminate purified HIV-1 inocula due to similar size and density, affect DC maturation, de novo HIV-1 infection and transfer to T lymphocytes. Comparing iMDDCs infected with CD45-depleted HIV-1(BaL) or matched non-depleted preparations, the presence of CD45(+) MVs was shown to enhance DC maturation and ICAM-1 (CD54) expression, which is involved in DC∶T lymphocyte interactions, while restricting HIV-1 infection of MDDCs. Furthermore, in the DC culture HIV-1 infected (p24(+)) MDDCs were more mature than bystander cells. Depletion of MVs from the HIV-1 inoculum markedly inhibited DC∶T lymphocyte clustering and the induction of alloproliferation as well as limiting HIV-1 transfer from DCs to T lymphocytes. The effects of MV depletion on these functions were reversed by the re-addition of purified MVs from activated but not non-activated SUPT1.CCR5-CL.30 or primary T cells. Analysis of the protein complement of these MVs and of these HIV-1 inocula before and after MV depletion showed that Heat Shock Proteins (HSPs) and nef were the likely DC maturation candidates. Recombinant HSP90α and β and nef all induced DC maturation and ICAM-1 expression, greater when combined. These results suggest that MVs contaminating HIV-1 released from infected T lymphocytes may be biologically important, especially in enhancing T cell activation, during uptake by DCs in vitro and in vivo, particularly as MVs have been detected in the circulation of HIV-1 infected subjects. Public Library of Science 2013-10-17 /pmc/articles/PMC3798598/ /pubmed/24204260 http://dx.doi.org/10.1371/journal.ppat.1003700 Text en © 2013 Mercier et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Mercier, Sarah K.
Donaghy, Heather
Botting, Rachel A.
Turville, Stuart G.
Harman, Andrew N.
Nasr, Najla
Ji, Hong
Kusebauch, Ulrike
Mendoza, Luis
Shteynberg, David
Sandgren, Kerrie
Simpson, Richard J.
Moritz, Robert L.
Cunningham, Anthony L.
The Microvesicle Component of HIV-1 Inocula Modulates Dendritic Cell Infection and Maturation and Enhances Adhesion to and Activation of T Lymphocytes
title The Microvesicle Component of HIV-1 Inocula Modulates Dendritic Cell Infection and Maturation and Enhances Adhesion to and Activation of T Lymphocytes
title_full The Microvesicle Component of HIV-1 Inocula Modulates Dendritic Cell Infection and Maturation and Enhances Adhesion to and Activation of T Lymphocytes
title_fullStr The Microvesicle Component of HIV-1 Inocula Modulates Dendritic Cell Infection and Maturation and Enhances Adhesion to and Activation of T Lymphocytes
title_full_unstemmed The Microvesicle Component of HIV-1 Inocula Modulates Dendritic Cell Infection and Maturation and Enhances Adhesion to and Activation of T Lymphocytes
title_short The Microvesicle Component of HIV-1 Inocula Modulates Dendritic Cell Infection and Maturation and Enhances Adhesion to and Activation of T Lymphocytes
title_sort microvesicle component of hiv-1 inocula modulates dendritic cell infection and maturation and enhances adhesion to and activation of t lymphocytes
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3798598/
https://www.ncbi.nlm.nih.gov/pubmed/24204260
http://dx.doi.org/10.1371/journal.ppat.1003700
work_keys_str_mv AT merciersarahk themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT donaghyheather themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT bottingrachela themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT turvillestuartg themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT harmanandrewn themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT nasrnajla themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT jihong themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT kusebauchulrike themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT mendozaluis themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT shteynbergdavid themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT sandgrenkerrie themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT simpsonrichardj themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT moritzrobertl themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT cunninghamanthonyl themicrovesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT merciersarahk microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT donaghyheather microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT bottingrachela microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT turvillestuartg microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT harmanandrewn microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT nasrnajla microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT jihong microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT kusebauchulrike microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT mendozaluis microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT shteynbergdavid microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT sandgrenkerrie microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT simpsonrichardj microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT moritzrobertl microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes
AT cunninghamanthonyl microvesiclecomponentofhiv1inoculamodulatesdendriticcellinfectionandmaturationandenhancesadhesiontoandactivationoftlymphocytes

Ejemplares similares