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Mobilization of HIV Spread by Diaphanous 2 Dependent Filopodia in Infected Dendritic Cells

Paramount to the success of persistent viral infection is the ability of viruses to navigate hostile environments en route to future targets. In response to such obstacles, many viruses have developed the ability of establishing actin rich-membrane bridges to aid in future infections. Herein through...

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Autores principales: Aggarwal, Anupriya, Iemma, Tina L., Shih, Ivy, Newsome, Timothy P., McAllery, Samantha, Cunningham, Anthony L., Turville, Stuart G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3369929/
https://www.ncbi.nlm.nih.gov/pubmed/22685410
http://dx.doi.org/10.1371/journal.ppat.1002762
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author Aggarwal, Anupriya
Iemma, Tina L.
Shih, Ivy
Newsome, Timothy P.
McAllery, Samantha
Cunningham, Anthony L.
Turville, Stuart G.
author_facet Aggarwal, Anupriya
Iemma, Tina L.
Shih, Ivy
Newsome, Timothy P.
McAllery, Samantha
Cunningham, Anthony L.
Turville, Stuart G.
author_sort Aggarwal, Anupriya
collection PubMed
description Paramount to the success of persistent viral infection is the ability of viruses to navigate hostile environments en route to future targets. In response to such obstacles, many viruses have developed the ability of establishing actin rich-membrane bridges to aid in future infections. Herein through dynamic imaging of HIV infected dendritic cells, we have observed how viral high-jacking of the actin/membrane network facilitates one of the most efficient forms of HIV spread. Within infected DC, viral egress is coupled to viral filopodia formation, with more than 90% of filopodia bearing immature HIV on their tips at extensions of 10 to 20 µm. Live imaging showed HIV filopodia routinely pivoting at their base, and projecting HIV virions at µm.sec(−1) along repetitive arc trajectories. HIV filopodial dynamics lead to up to 800 DC to CD4 T cell contacts per hour, with selection of T cells culminating in multiple filopodia tethering and converging to envelope the CD4 T-cell membrane with budding HIV particles. Long viral filopodial formation was dependent on the formin diaphanous 2 (Diaph2), and not a dominant Arp2/3 filopodial pathway often associated with pathogenic actin polymerization. Manipulation of HIV Nef reduced HIV transfer 25-fold by reducing viral filopodia frequency, supporting the potency of DC HIV transfer was dependent on viral filopodia abundance. Thus our observations show HIV corrupts DC to CD4 T cell interactions by physically embedding at the leading edge contacts of long DC filopodial networks.
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spelling pubmed-33699292012-06-08 Mobilization of HIV Spread by Diaphanous 2 Dependent Filopodia in Infected Dendritic Cells Aggarwal, Anupriya Iemma, Tina L. Shih, Ivy Newsome, Timothy P. McAllery, Samantha Cunningham, Anthony L. Turville, Stuart G. PLoS Pathog Research Article Paramount to the success of persistent viral infection is the ability of viruses to navigate hostile environments en route to future targets. In response to such obstacles, many viruses have developed the ability of establishing actin rich-membrane bridges to aid in future infections. Herein through dynamic imaging of HIV infected dendritic cells, we have observed how viral high-jacking of the actin/membrane network facilitates one of the most efficient forms of HIV spread. Within infected DC, viral egress is coupled to viral filopodia formation, with more than 90% of filopodia bearing immature HIV on their tips at extensions of 10 to 20 µm. Live imaging showed HIV filopodia routinely pivoting at their base, and projecting HIV virions at µm.sec(−1) along repetitive arc trajectories. HIV filopodial dynamics lead to up to 800 DC to CD4 T cell contacts per hour, with selection of T cells culminating in multiple filopodia tethering and converging to envelope the CD4 T-cell membrane with budding HIV particles. Long viral filopodial formation was dependent on the formin diaphanous 2 (Diaph2), and not a dominant Arp2/3 filopodial pathway often associated with pathogenic actin polymerization. Manipulation of HIV Nef reduced HIV transfer 25-fold by reducing viral filopodia frequency, supporting the potency of DC HIV transfer was dependent on viral filopodia abundance. Thus our observations show HIV corrupts DC to CD4 T cell interactions by physically embedding at the leading edge contacts of long DC filopodial networks. Public Library of Science 2012-06-07 /pmc/articles/PMC3369929/ /pubmed/22685410 http://dx.doi.org/10.1371/journal.ppat.1002762 Text en Aggarwal 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
Aggarwal, Anupriya
Iemma, Tina L.
Shih, Ivy
Newsome, Timothy P.
McAllery, Samantha
Cunningham, Anthony L.
Turville, Stuart G.
Mobilization of HIV Spread by Diaphanous 2 Dependent Filopodia in Infected Dendritic Cells
title Mobilization of HIV Spread by Diaphanous 2 Dependent Filopodia in Infected Dendritic Cells
title_full Mobilization of HIV Spread by Diaphanous 2 Dependent Filopodia in Infected Dendritic Cells
title_fullStr Mobilization of HIV Spread by Diaphanous 2 Dependent Filopodia in Infected Dendritic Cells
title_full_unstemmed Mobilization of HIV Spread by Diaphanous 2 Dependent Filopodia in Infected Dendritic Cells
title_short Mobilization of HIV Spread by Diaphanous 2 Dependent Filopodia in Infected Dendritic Cells
title_sort mobilization of hiv spread by diaphanous 2 dependent filopodia in infected dendritic cells
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3369929/
https://www.ncbi.nlm.nih.gov/pubmed/22685410
http://dx.doi.org/10.1371/journal.ppat.1002762
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