Muriel Aldunate, David Tyssen, Adam Johnson, Catherine F Latham, Paula Ellenberg, Nathan Cowieson, Joshua A Hayward, Rob J Center, Paul A Ramsland, Anna C Hearps, Gilda Tachedjian
{"title":"阴道乳杆菌产生的乳酸通过靶向病毒RNA基因组和逆转录酶在体外有效地特异性灭活HIV-1。","authors":"Muriel Aldunate, David Tyssen, Adam Johnson, Catherine F Latham, Paula Ellenberg, Nathan Cowieson, Joshua A Hayward, Rob J Center, Paul A Ramsland, Anna C Hearps, Gilda Tachedjian","doi":"10.1371/journal.ppat.1013594","DOIUrl":null,"url":null,"abstract":"<p><p>Vaginal microbiota modulates susceptibility to sexually transmitted infections and produces carboxylic acid metabolites that have antimicrobial activity; however, their activity against viral sexually transmitted infections is not well defined. We determined the HIV-1 virucidal activity of lactic acid (LA), short chain fatty acids (SCFAs), and succinic acid, representing conditions observed in women with an optimal Lactobacillus-dominated vaginal microbiota compared to women with bacterial vaginosis. Virucidal activity against enveloped HIV-1 and HSV-2, the non-enveloped HPV16, and the mechanism by which LA inactivates HIV-1 was further assessed. LA was > 10-fold more potent at inactivating an HIV-1 transmitted/founder strain than SCFAs and succinic acid when tested at an equivalent 20 mM of protonated acid (p≤0.05). While LA decreased HIV-1 infectivity by >103-fold, virions were intact, expressed a similar gp120:p24 ratio, and showed only a 2-fold decrease in CD4 binding compared to untreated HIV-1 (p≤0.05). Treatment of recombinant gp120 with LA revealed no major conformational changes by small angle X-ray scattering. LA treatment of HIV-1 resulted in an 80% decrease in virion-associated reverse transcriptase activity compared to untreated virus (p < 0.01), which was more potent than acetic acid or HCl-adjusted media at the same pH, with this effect observed in the presence of cervicovaginal fluid. LA decreased HIV-1 virion-associated RNA levels by ∼50% compared to untreated virus (p < 0.001), acetic acid or HCl acidified media. In contrast, HSV-2 virucidal activity of LA was similar to acetic acid and HCl-acidified media while HPV16 was acid-resistant. Our results demonstrate LA's potent and specific HIV-1 virucidal activity compared to SCFAs and succinic acid found in the female reproductive tract, and its HIV-1 virucidal mechanism mediated by penetration of the viral membrane and core to target a key viral enzyme and nucleic acid. These findings have implications for the vaginal transmission of HIV to partners and neonates during birth.</p>","PeriodicalId":48999,"journal":{"name":"PLoS Pathogens","volume":"21 10","pages":"e1013594"},"PeriodicalIF":4.9000,"publicationDate":"2025-10-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC12527216/pdf/","citationCount":"0","resultStr":"{\"title\":\"Lactic acid produced by optimal vaginal Lactobacillus spp. potently and specifically inactivates HIV-1 in vitro by targeting the viral RNA genome and reverse transcriptase.\",\"authors\":\"Muriel Aldunate, David Tyssen, Adam Johnson, Catherine F Latham, Paula Ellenberg, Nathan Cowieson, Joshua A Hayward, Rob J Center, Paul A Ramsland, Anna C Hearps, Gilda Tachedjian\",\"doi\":\"10.1371/journal.ppat.1013594\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Vaginal microbiota modulates susceptibility to sexually transmitted infections and produces carboxylic acid metabolites that have antimicrobial activity; however, their activity against viral sexually transmitted infections is not well defined. We determined the HIV-1 virucidal activity of lactic acid (LA), short chain fatty acids (SCFAs), and succinic acid, representing conditions observed in women with an optimal Lactobacillus-dominated vaginal microbiota compared to women with bacterial vaginosis. Virucidal activity against enveloped HIV-1 and HSV-2, the non-enveloped HPV16, and the mechanism by which LA inactivates HIV-1 was further assessed. LA was > 10-fold more potent at inactivating an HIV-1 transmitted/founder strain than SCFAs and succinic acid when tested at an equivalent 20 mM of protonated acid (p≤0.05). While LA decreased HIV-1 infectivity by >103-fold, virions were intact, expressed a similar gp120:p24 ratio, and showed only a 2-fold decrease in CD4 binding compared to untreated HIV-1 (p≤0.05). Treatment of recombinant gp120 with LA revealed no major conformational changes by small angle X-ray scattering. LA treatment of HIV-1 resulted in an 80% decrease in virion-associated reverse transcriptase activity compared to untreated virus (p < 0.01), which was more potent than acetic acid or HCl-adjusted media at the same pH, with this effect observed in the presence of cervicovaginal fluid. LA decreased HIV-1 virion-associated RNA levels by ∼50% compared to untreated virus (p < 0.001), acetic acid or HCl acidified media. In contrast, HSV-2 virucidal activity of LA was similar to acetic acid and HCl-acidified media while HPV16 was acid-resistant. Our results demonstrate LA's potent and specific HIV-1 virucidal activity compared to SCFAs and succinic acid found in the female reproductive tract, and its HIV-1 virucidal mechanism mediated by penetration of the viral membrane and core to target a key viral enzyme and nucleic acid. 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Lactic acid produced by optimal vaginal Lactobacillus spp. potently and specifically inactivates HIV-1 in vitro by targeting the viral RNA genome and reverse transcriptase.
Vaginal microbiota modulates susceptibility to sexually transmitted infections and produces carboxylic acid metabolites that have antimicrobial activity; however, their activity against viral sexually transmitted infections is not well defined. We determined the HIV-1 virucidal activity of lactic acid (LA), short chain fatty acids (SCFAs), and succinic acid, representing conditions observed in women with an optimal Lactobacillus-dominated vaginal microbiota compared to women with bacterial vaginosis. Virucidal activity against enveloped HIV-1 and HSV-2, the non-enveloped HPV16, and the mechanism by which LA inactivates HIV-1 was further assessed. LA was > 10-fold more potent at inactivating an HIV-1 transmitted/founder strain than SCFAs and succinic acid when tested at an equivalent 20 mM of protonated acid (p≤0.05). While LA decreased HIV-1 infectivity by >103-fold, virions were intact, expressed a similar gp120:p24 ratio, and showed only a 2-fold decrease in CD4 binding compared to untreated HIV-1 (p≤0.05). Treatment of recombinant gp120 with LA revealed no major conformational changes by small angle X-ray scattering. LA treatment of HIV-1 resulted in an 80% decrease in virion-associated reverse transcriptase activity compared to untreated virus (p < 0.01), which was more potent than acetic acid or HCl-adjusted media at the same pH, with this effect observed in the presence of cervicovaginal fluid. LA decreased HIV-1 virion-associated RNA levels by ∼50% compared to untreated virus (p < 0.001), acetic acid or HCl acidified media. In contrast, HSV-2 virucidal activity of LA was similar to acetic acid and HCl-acidified media while HPV16 was acid-resistant. Our results demonstrate LA's potent and specific HIV-1 virucidal activity compared to SCFAs and succinic acid found in the female reproductive tract, and its HIV-1 virucidal mechanism mediated by penetration of the viral membrane and core to target a key viral enzyme and nucleic acid. These findings have implications for the vaginal transmission of HIV to partners and neonates during birth.
期刊介绍:
Bacteria, fungi, parasites, prions and viruses cause a plethora of diseases that have important medical, agricultural, and economic consequences. Moreover, the study of microbes continues to provide novel insights into such fundamental processes as the molecular basis of cellular and organismal function.
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