Anti-α4 Antibody Treatment Blocks Virus Traffic to the Brain and Gut Early, and Stabilizes CNS Injury Late in Infection

Four SIV-infected monkeys with high plasma virus and CNS injury were treated with an anti-α4 blocking antibody (natalizumab) once a week for three weeks beginning on 28 days post-infection (late). Infection in the brain and gut were quantified, and neuronal injury in the CNS was assessed by MR spect...

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Autores principales: Campbell, Jennifer H., Ratai, Eva-Maria, Autissier, Patrick, Nolan, David J., Tse, Samantha, Miller, Andrew D., González, R. Gilberto, Salemi, Marco, Burdo, Tricia H., Williams, Kenneth C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4263764/
https://www.ncbi.nlm.nih.gov/pubmed/25502752
http://dx.doi.org/10.1371/journal.ppat.1004533
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author Campbell, Jennifer H.
Ratai, Eva-Maria
Autissier, Patrick
Nolan, David J.
Tse, Samantha
Miller, Andrew D.
González, R. Gilberto
Salemi, Marco
Burdo, Tricia H.
Williams, Kenneth C.
author_facet Campbell, Jennifer H.
Ratai, Eva-Maria
Autissier, Patrick
Nolan, David J.
Tse, Samantha
Miller, Andrew D.
González, R. Gilberto
Salemi, Marco
Burdo, Tricia H.
Williams, Kenneth C.
author_sort Campbell, Jennifer H.
collection PubMed
description Four SIV-infected monkeys with high plasma virus and CNS injury were treated with an anti-α4 blocking antibody (natalizumab) once a week for three weeks beginning on 28 days post-infection (late). Infection in the brain and gut were quantified, and neuronal injury in the CNS was assessed by MR spectroscopy, and compared to controls with AIDS and SIV encephalitis. Treatment resulted in stabilization of ongoing neuronal injury (NAA/Cr by 1H MRS), and decreased numbers of monocytes/macrophages and productive infection (SIV p28(+), RNA(+)) in brain and gut. Antibody treatment of six SIV infected monkeys at the time of infection (early) for 3 weeks blocked monocyte/macrophage traffic and infection in the CNS, and significantly decreased leukocyte traffic and infection in the gut. SIV – RNA and p28 was absent in the CNS and the gut. SIV DNA was undetectable in brains of five of six early treated macaques, but proviral DNA in guts of treated and control animals was equivalent. Early treated animals had low-to-no plasma LPS and sCD163. These results support the notion that monocyte/macrophage traffic late in infection drives neuronal injury and maintains CNS viral reservoirs and lesions. Leukocyte traffic early in infection seeds the CNS with virus and contributes to productive infection in the gut. Leukocyte traffic early contributes to gut pathology, bacterial translocation, and activation of innate immunity.
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spelling pubmed-42637642014-12-19 Anti-α4 Antibody Treatment Blocks Virus Traffic to the Brain and Gut Early, and Stabilizes CNS Injury Late in Infection Campbell, Jennifer H. Ratai, Eva-Maria Autissier, Patrick Nolan, David J. Tse, Samantha Miller, Andrew D. González, R. Gilberto Salemi, Marco Burdo, Tricia H. Williams, Kenneth C. PLoS Pathog Research Article Four SIV-infected monkeys with high plasma virus and CNS injury were treated with an anti-α4 blocking antibody (natalizumab) once a week for three weeks beginning on 28 days post-infection (late). Infection in the brain and gut were quantified, and neuronal injury in the CNS was assessed by MR spectroscopy, and compared to controls with AIDS and SIV encephalitis. Treatment resulted in stabilization of ongoing neuronal injury (NAA/Cr by 1H MRS), and decreased numbers of monocytes/macrophages and productive infection (SIV p28(+), RNA(+)) in brain and gut. Antibody treatment of six SIV infected monkeys at the time of infection (early) for 3 weeks blocked monocyte/macrophage traffic and infection in the CNS, and significantly decreased leukocyte traffic and infection in the gut. SIV – RNA and p28 was absent in the CNS and the gut. SIV DNA was undetectable in brains of five of six early treated macaques, but proviral DNA in guts of treated and control animals was equivalent. Early treated animals had low-to-no plasma LPS and sCD163. These results support the notion that monocyte/macrophage traffic late in infection drives neuronal injury and maintains CNS viral reservoirs and lesions. Leukocyte traffic early in infection seeds the CNS with virus and contributes to productive infection in the gut. Leukocyte traffic early contributes to gut pathology, bacterial translocation, and activation of innate immunity. Public Library of Science 2014-12-11 /pmc/articles/PMC4263764/ /pubmed/25502752 http://dx.doi.org/10.1371/journal.ppat.1004533 Text en © 2014 Campbell 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
Campbell, Jennifer H.
Ratai, Eva-Maria
Autissier, Patrick
Nolan, David J.
Tse, Samantha
Miller, Andrew D.
González, R. Gilberto
Salemi, Marco
Burdo, Tricia H.
Williams, Kenneth C.
Anti-α4 Antibody Treatment Blocks Virus Traffic to the Brain and Gut Early, and Stabilizes CNS Injury Late in Infection
title Anti-α4 Antibody Treatment Blocks Virus Traffic to the Brain and Gut Early, and Stabilizes CNS Injury Late in Infection
title_full Anti-α4 Antibody Treatment Blocks Virus Traffic to the Brain and Gut Early, and Stabilizes CNS Injury Late in Infection
title_fullStr Anti-α4 Antibody Treatment Blocks Virus Traffic to the Brain and Gut Early, and Stabilizes CNS Injury Late in Infection
title_full_unstemmed Anti-α4 Antibody Treatment Blocks Virus Traffic to the Brain and Gut Early, and Stabilizes CNS Injury Late in Infection
title_short Anti-α4 Antibody Treatment Blocks Virus Traffic to the Brain and Gut Early, and Stabilizes CNS Injury Late in Infection
title_sort anti-α4 antibody treatment blocks virus traffic to the brain and gut early, and stabilizes cns injury late in infection
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4263764/
https://www.ncbi.nlm.nih.gov/pubmed/25502752
http://dx.doi.org/10.1371/journal.ppat.1004533
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