A Macaque Model to Study Vaginal HSV-2/Immunodeficiency Virus Co-Infection and the Impact of HSV-2 on Microbicide Efficacy

BACKGROUND: Herpes simplex virus type-2 (HSV-2) infection enhances the transmission and acquisition of human immunodeficiency virus (HIV). This occurs in symptomatic and asymptomatic stages of HSV-2 infection, suggesting that obvious herpetic lesions are not required to increase HIV spread. An anima...

Descripción completa

Detalles Bibliográficos
Autores principales: Crostarosa, Federica, Aravantinou, Meropi, Akpogheneta, Onome J., Jasny, Edith, Shaw, Andrew, Kenney, Jessica, Piatak, Michael, Lifson, Jeffrey D., Teitelbaum, Aaron, Hu, Lieyu, Chudolij, Anne, Zydowsky, Thomas M., Blanchard, James, Gettie, Agegnehu, Robbiani, Melissa
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2009
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2787245/
https://www.ncbi.nlm.nih.gov/pubmed/20011586
http://dx.doi.org/10.1371/journal.pone.0008060
_version_ 1782174891547557888
author Crostarosa, Federica
Aravantinou, Meropi
Akpogheneta, Onome J.
Jasny, Edith
Shaw, Andrew
Kenney, Jessica
Piatak, Michael
Lifson, Jeffrey D.
Teitelbaum, Aaron
Hu, Lieyu
Chudolij, Anne
Zydowsky, Thomas M.
Blanchard, James
Gettie, Agegnehu
Robbiani, Melissa
author_facet Crostarosa, Federica
Aravantinou, Meropi
Akpogheneta, Onome J.
Jasny, Edith
Shaw, Andrew
Kenney, Jessica
Piatak, Michael
Lifson, Jeffrey D.
Teitelbaum, Aaron
Hu, Lieyu
Chudolij, Anne
Zydowsky, Thomas M.
Blanchard, James
Gettie, Agegnehu
Robbiani, Melissa
author_sort Crostarosa, Federica
collection PubMed
description BACKGROUND: Herpes simplex virus type-2 (HSV-2) infection enhances the transmission and acquisition of human immunodeficiency virus (HIV). This occurs in symptomatic and asymptomatic stages of HSV-2 infection, suggesting that obvious herpetic lesions are not required to increase HIV spread. An animal model to investigate the underlying causes of the synergistic action of the two viruses and where preventative strategies can be tested under such complex physiological conditions is currently unavailable. METHODOLOGY/PRINCIPAL FINDINGS: We set out to establish a rhesus macaque model in which HSV-2 infection increases the susceptibility to vaginal infection with a model immunodeficiency virus (simian-human immunodeficiency virus, SHIV-RT), and to more stringently test promising microbicides. HSV-2 exposure significantly increased the frequency of vaginal SHIV-RT infection (n = 6). Although cervical lesions were detected in only ∼10% of the animals, long term HSV-2 DNA shedding was detected (in 50% of animals followed for 2 years). Vaginal HSV-2 exposure elicited local cytokine/chemokine (n = 12) and systemic low-level HSV-2-specific adaptive responses in all animals (n = 8), involving CD4(+) and CD8(+) HSV-specific T cells (n = 5). Local cytokine/chemokine responses were lower in co-infected animals, while simian immunodeficiency virus (SIV)-specific adaptive responses were comparable in naïve and HSV-2-infected animals (n = 6). Despite the increased frequency of SHIV-RT infection, a new generation microbicide gel, comprised of Carraguard® and a non-nucleoside reverse transcriptase inhibitor MIV-150 (PC-817), blocked vaginal SHIV-RT infection in HSV-2-exposed animals (n = 8), just as in naïve animals. CONCLUSIONS/SIGNIFICANCE: We established a unique HSV-2 macaque model that will likely facilitate research to define how HSV-2 increases HIV transmission, and enable more rigorous evaluation of candidate anti-viral approaches in vivo.
format Text
id pubmed-2787245
institution National Center for Biotechnology Information
language English
publishDate 2009
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-27872452009-12-11 A Macaque Model to Study Vaginal HSV-2/Immunodeficiency Virus Co-Infection and the Impact of HSV-2 on Microbicide Efficacy Crostarosa, Federica Aravantinou, Meropi Akpogheneta, Onome J. Jasny, Edith Shaw, Andrew Kenney, Jessica Piatak, Michael Lifson, Jeffrey D. Teitelbaum, Aaron Hu, Lieyu Chudolij, Anne Zydowsky, Thomas M. Blanchard, James Gettie, Agegnehu Robbiani, Melissa PLoS One Research Article BACKGROUND: Herpes simplex virus type-2 (HSV-2) infection enhances the transmission and acquisition of human immunodeficiency virus (HIV). This occurs in symptomatic and asymptomatic stages of HSV-2 infection, suggesting that obvious herpetic lesions are not required to increase HIV spread. An animal model to investigate the underlying causes of the synergistic action of the two viruses and where preventative strategies can be tested under such complex physiological conditions is currently unavailable. METHODOLOGY/PRINCIPAL FINDINGS: We set out to establish a rhesus macaque model in which HSV-2 infection increases the susceptibility to vaginal infection with a model immunodeficiency virus (simian-human immunodeficiency virus, SHIV-RT), and to more stringently test promising microbicides. HSV-2 exposure significantly increased the frequency of vaginal SHIV-RT infection (n = 6). Although cervical lesions were detected in only ∼10% of the animals, long term HSV-2 DNA shedding was detected (in 50% of animals followed for 2 years). Vaginal HSV-2 exposure elicited local cytokine/chemokine (n = 12) and systemic low-level HSV-2-specific adaptive responses in all animals (n = 8), involving CD4(+) and CD8(+) HSV-specific T cells (n = 5). Local cytokine/chemokine responses were lower in co-infected animals, while simian immunodeficiency virus (SIV)-specific adaptive responses were comparable in naïve and HSV-2-infected animals (n = 6). Despite the increased frequency of SHIV-RT infection, a new generation microbicide gel, comprised of Carraguard® and a non-nucleoside reverse transcriptase inhibitor MIV-150 (PC-817), blocked vaginal SHIV-RT infection in HSV-2-exposed animals (n = 8), just as in naïve animals. CONCLUSIONS/SIGNIFICANCE: We established a unique HSV-2 macaque model that will likely facilitate research to define how HSV-2 increases HIV transmission, and enable more rigorous evaluation of candidate anti-viral approaches in vivo. Public Library of Science 2009-11-30 /pmc/articles/PMC2787245/ /pubmed/20011586 http://dx.doi.org/10.1371/journal.pone.0008060 Text en Crostarosa 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
Crostarosa, Federica
Aravantinou, Meropi
Akpogheneta, Onome J.
Jasny, Edith
Shaw, Andrew
Kenney, Jessica
Piatak, Michael
Lifson, Jeffrey D.
Teitelbaum, Aaron
Hu, Lieyu
Chudolij, Anne
Zydowsky, Thomas M.
Blanchard, James
Gettie, Agegnehu
Robbiani, Melissa
A Macaque Model to Study Vaginal HSV-2/Immunodeficiency Virus Co-Infection and the Impact of HSV-2 on Microbicide Efficacy
title A Macaque Model to Study Vaginal HSV-2/Immunodeficiency Virus Co-Infection and the Impact of HSV-2 on Microbicide Efficacy
title_full A Macaque Model to Study Vaginal HSV-2/Immunodeficiency Virus Co-Infection and the Impact of HSV-2 on Microbicide Efficacy
title_fullStr A Macaque Model to Study Vaginal HSV-2/Immunodeficiency Virus Co-Infection and the Impact of HSV-2 on Microbicide Efficacy
title_full_unstemmed A Macaque Model to Study Vaginal HSV-2/Immunodeficiency Virus Co-Infection and the Impact of HSV-2 on Microbicide Efficacy
title_short A Macaque Model to Study Vaginal HSV-2/Immunodeficiency Virus Co-Infection and the Impact of HSV-2 on Microbicide Efficacy
title_sort macaque model to study vaginal hsv-2/immunodeficiency virus co-infection and the impact of hsv-2 on microbicide efficacy
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2787245/
https://www.ncbi.nlm.nih.gov/pubmed/20011586
http://dx.doi.org/10.1371/journal.pone.0008060
work_keys_str_mv AT crostarosafederica amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT aravantinoumeropi amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT akpoghenetaonomej amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT jasnyedith amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT shawandrew amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT kenneyjessica amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT piatakmichael amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT lifsonjeffreyd amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT teitelbaumaaron amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT hulieyu amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT chudolijanne amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT zydowskythomasm amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT blanchardjames amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT gettieagegnehu amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT robbianimelissa amacaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT crostarosafederica macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT aravantinoumeropi macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT akpoghenetaonomej macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT jasnyedith macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT shawandrew macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT kenneyjessica macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT piatakmichael macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT lifsonjeffreyd macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT teitelbaumaaron macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT hulieyu macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT chudolijanne macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT zydowskythomasm macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT blanchardjames macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT gettieagegnehu macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy
AT robbianimelissa macaquemodeltostudyvaginalhsv2immunodeficiencyviruscoinfectionandtheimpactofhsv2onmicrobicideefficacy

Ejemplares similares