The Low-Cost Compound Lignosulfonic Acid (LA) Exhibits Broad-Spectrum Anti-HIV and Anti-HSV Activity and Has Potential for Microbicidal Applications

OBJECTIVES: Lignosulfonic acid (LA), a low-cost lignin-derived polyanionic macromolecule, was extensively studied for its anti-HIV and anti-HSV activity in various cellular assays, its mechanism of viral inhibition and safety profile as potential microbicide. RESULTS: LA demonstrated potent inhibito...

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Autores principales: Gordts, Stephanie C., Férir, Geoffrey, D’huys, Thomas, Petrova, Mariya I., Lebeer, Sarah, Snoeck, Robert, Andrei, Graciela, Schols, Dominique
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4488490/
https://www.ncbi.nlm.nih.gov/pubmed/26132818
http://dx.doi.org/10.1371/journal.pone.0131219
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author Gordts, Stephanie C.
Férir, Geoffrey
D’huys, Thomas
Petrova, Mariya I.
Lebeer, Sarah
Snoeck, Robert
Andrei, Graciela
Schols, Dominique
author_facet Gordts, Stephanie C.
Férir, Geoffrey
D’huys, Thomas
Petrova, Mariya I.
Lebeer, Sarah
Snoeck, Robert
Andrei, Graciela
Schols, Dominique
author_sort Gordts, Stephanie C.
collection PubMed
description OBJECTIVES: Lignosulfonic acid (LA), a low-cost lignin-derived polyanionic macromolecule, was extensively studied for its anti-HIV and anti-HSV activity in various cellular assays, its mechanism of viral inhibition and safety profile as potential microbicide. RESULTS: LA demonstrated potent inhibitory activity of HIV replication against a wide range of R5 and X4 HIV strains and prevented the uptake of HIV by bystander CD4(+) T cells from persistently infected T cells in vitro (IC(50): 0.07 – 0.34 μM). LA also inhibited HSV-2 replication in vitro in different cell types (IC(50): 0.42 – 1.1 μM) and in rodents in vivo. Furthermore, LA neutralized the HIV-1 and HSV-2 DC-SIGN-mediated viral transfer to CD4(+) T cells (IC(50): ∼1 μM). In addition, dual HIV-1/HSV-2 infection in T cells was potently blocked by LA (IC(50): 0.71 μM). No antiviral activity was observed against the non-enveloped viruses Coxsackie type B4 and Reovirus type 1. LA is defined as a HIV entry inhibitor since it interfered with gp120 binding to the cell surface of T cells. Pretreatment of PBMCs with LA neither increased expression levels of cellular activation markers (CD69, CD25 and HLA-DR), nor enhanced HIV-1 replication. Furthermore, we found that LA had non-antagonistic effects with acyclovir, PRO2000 or LabyA1 (combination index (CI): 0.46 – 1.03) in its anti-HSV-2 activity and synergized with tenofovir (CI: 0.59) in its anti-HIV-1 activity. To identify mechanisms of LA resistance, we generated in vitro a mutant HIV-1 NL4.3(LAresistant) virus, which acquired seven mutations in the HIV-1 envelope glycoproteins: S160N, V170N, Q280H and R389T in gp120 and K77Q, N113D and H132Y in gp41. Additionally, HIV-1 NL4.3(LAresistant) virus showed cross-resistance with feglymycin, enfuvirtide, PRO2000 and mAb b12, four well-described HIV binding/fusion inhibitors. Importantly, LA did not affect the growth of vaginal Lactobacilli strains. CONCLUSION: Overall, these data highlight LA as a potential and unique low-cost microbicide displaying broad anti-HIV and anti-HSV activity.
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spelling pubmed-44884902015-07-14 The Low-Cost Compound Lignosulfonic Acid (LA) Exhibits Broad-Spectrum Anti-HIV and Anti-HSV Activity and Has Potential for Microbicidal Applications Gordts, Stephanie C. Férir, Geoffrey D’huys, Thomas Petrova, Mariya I. Lebeer, Sarah Snoeck, Robert Andrei, Graciela Schols, Dominique PLoS One Research Article OBJECTIVES: Lignosulfonic acid (LA), a low-cost lignin-derived polyanionic macromolecule, was extensively studied for its anti-HIV and anti-HSV activity in various cellular assays, its mechanism of viral inhibition and safety profile as potential microbicide. RESULTS: LA demonstrated potent inhibitory activity of HIV replication against a wide range of R5 and X4 HIV strains and prevented the uptake of HIV by bystander CD4(+) T cells from persistently infected T cells in vitro (IC(50): 0.07 – 0.34 μM). LA also inhibited HSV-2 replication in vitro in different cell types (IC(50): 0.42 – 1.1 μM) and in rodents in vivo. Furthermore, LA neutralized the HIV-1 and HSV-2 DC-SIGN-mediated viral transfer to CD4(+) T cells (IC(50): ∼1 μM). In addition, dual HIV-1/HSV-2 infection in T cells was potently blocked by LA (IC(50): 0.71 μM). No antiviral activity was observed against the non-enveloped viruses Coxsackie type B4 and Reovirus type 1. LA is defined as a HIV entry inhibitor since it interfered with gp120 binding to the cell surface of T cells. Pretreatment of PBMCs with LA neither increased expression levels of cellular activation markers (CD69, CD25 and HLA-DR), nor enhanced HIV-1 replication. Furthermore, we found that LA had non-antagonistic effects with acyclovir, PRO2000 or LabyA1 (combination index (CI): 0.46 – 1.03) in its anti-HSV-2 activity and synergized with tenofovir (CI: 0.59) in its anti-HIV-1 activity. To identify mechanisms of LA resistance, we generated in vitro a mutant HIV-1 NL4.3(LAresistant) virus, which acquired seven mutations in the HIV-1 envelope glycoproteins: S160N, V170N, Q280H and R389T in gp120 and K77Q, N113D and H132Y in gp41. Additionally, HIV-1 NL4.3(LAresistant) virus showed cross-resistance with feglymycin, enfuvirtide, PRO2000 and mAb b12, four well-described HIV binding/fusion inhibitors. Importantly, LA did not affect the growth of vaginal Lactobacilli strains. CONCLUSION: Overall, these data highlight LA as a potential and unique low-cost microbicide displaying broad anti-HIV and anti-HSV activity. Public Library of Science 2015-07-01 /pmc/articles/PMC4488490/ /pubmed/26132818 http://dx.doi.org/10.1371/journal.pone.0131219 Text en © 2015 Gordts 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
Gordts, Stephanie C.
Férir, Geoffrey
D’huys, Thomas
Petrova, Mariya I.
Lebeer, Sarah
Snoeck, Robert
Andrei, Graciela
Schols, Dominique
The Low-Cost Compound Lignosulfonic Acid (LA) Exhibits Broad-Spectrum Anti-HIV and Anti-HSV Activity and Has Potential for Microbicidal Applications
title The Low-Cost Compound Lignosulfonic Acid (LA) Exhibits Broad-Spectrum Anti-HIV and Anti-HSV Activity and Has Potential for Microbicidal Applications
title_full The Low-Cost Compound Lignosulfonic Acid (LA) Exhibits Broad-Spectrum Anti-HIV and Anti-HSV Activity and Has Potential for Microbicidal Applications
title_fullStr The Low-Cost Compound Lignosulfonic Acid (LA) Exhibits Broad-Spectrum Anti-HIV and Anti-HSV Activity and Has Potential for Microbicidal Applications
title_full_unstemmed The Low-Cost Compound Lignosulfonic Acid (LA) Exhibits Broad-Spectrum Anti-HIV and Anti-HSV Activity and Has Potential for Microbicidal Applications
title_short The Low-Cost Compound Lignosulfonic Acid (LA) Exhibits Broad-Spectrum Anti-HIV and Anti-HSV Activity and Has Potential for Microbicidal Applications
title_sort low-cost compound lignosulfonic acid (la) exhibits broad-spectrum anti-hiv and anti-hsv activity and has potential for microbicidal applications
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4488490/
https://www.ncbi.nlm.nih.gov/pubmed/26132818
http://dx.doi.org/10.1371/journal.pone.0131219
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