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Lactic acid from vaginal microbiota enhances cervicovaginal epithelial barrier integrity by promoting tight junction protein expression
Lactic acid from vaginal microbiota enhances cervicovaginal epithelial barrier integrity by promoting tight junction protein expression
by Dabee, Smritee , Mulder, Nicola , Masson, Lindi , Passmore, Jo-Ann S. , Ross, Elizabeth , Tachedjian, Gilda , Blackburn, Jonathan M. , Allali, Imane , Gamieldien, Hoyam , Jesaveluk, Brianna , Delgado-Diaz, David Jose , Bell, Liam , Burgener, Adam D. , Ravel, Jacques , Barnabas, Shaun , Hayward, Joshua A. , Iranzadeh, Arash , Bekker, Linda-Gail , Hearps, Anna C. , Tyssen, David , Potgieter, Matthys , Smith, Steven B. , Edwards, Vonetta L. , Alisoltani, Arghavan
in Acid production / Bacteria / Bioinformatics / Biomedical and Life Sciences / Biomedicine / Cell culture / Disease transmission / Epithelial cells / Epithelium / Female / Female reproductive tract / HIV / Human immunodeficiency virus / Humans / L-Lactate dehydrogenase / Lactic acid / Lactic Acid - metabolism / Lactobacillus / Lactobacillus - metabolism / Medical Microbiology / Metabolites / Microbial Ecology / Microbial Genetics and Genomics / Microbiology / Microbiota / Microbiota - physiology / Microorganisms / Pathogens / Premature birth / Proteins / Reproductive health / Tight Junction Proteins - metabolism / Tight junctions / Transcriptomics / Vagina / Vagina - metabolism / Vagina - microbiology / Vaginal microbiome / Virology / Womens health
2022
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Lactic acid from vaginal microbiota enhances cervicovaginal epithelial barrier integrity by promoting tight junction protein expression
by Dabee, Smritee , Mulder, Nicola , Masson, Lindi , Passmore, Jo-Ann S. , Ross, Elizabeth , Tachedjian, Gilda , Blackburn, Jonathan M. , Allali, Imane , Gamieldien, Hoyam , Jesaveluk, Brianna , Delgado-Diaz, David Jose , Bell, Liam , Burgener, Adam D. , Ravel, Jacques , Barnabas, Shaun , Hayward, Joshua A. , Iranzadeh, Arash , Bekker, Linda-Gail , Hearps, Anna C. , Tyssen, David , Potgieter, Matthys , Smith, Steven B. , Edwards, Vonetta L. , Alisoltani, Arghavan
in Acid production / Bacteria / Bioinformatics / Biomedical and Life Sciences / Biomedicine / Cell culture / Disease transmission / Epithelial cells / Epithelium / Female / Female reproductive tract / HIV / Human immunodeficiency virus / Humans / L-Lactate dehydrogenase / Lactic acid / Lactic Acid - metabolism / Lactobacillus / Lactobacillus - metabolism / Medical Microbiology / Metabolites / Microbial Ecology / Microbial Genetics and Genomics / Microbiology / Microbiota / Microbiota - physiology / Microorganisms / Pathogens / Premature birth / Proteins / Reproductive health / Tight Junction Proteins - metabolism / Tight junctions / Transcriptomics / Vagina / Vagina - metabolism / Vagina - microbiology / Vaginal microbiome / Virology / Womens health
2022
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Lactic acid from vaginal microbiota enhances cervicovaginal epithelial barrier integrity by promoting tight junction protein expression
Lactic acid from vaginal microbiota enhances cervicovaginal epithelial barrier integrity by promoting tight junction protein expression
by Dabee, Smritee , Mulder, Nicola , Masson, Lindi , Passmore, Jo-Ann S. , Ross, Elizabeth , Tachedjian, Gilda , Blackburn, Jonathan M. , Allali, Imane , Gamieldien, Hoyam , Jesaveluk, Brianna , Delgado-Diaz, David Jose , Bell, Liam , Burgener, Adam D. , Ravel, Jacques , Barnabas, Shaun , Hayward, Joshua A. , Iranzadeh, Arash , Bekker, Linda-Gail , Hearps, Anna C. , Tyssen, David , Potgieter, Matthys , Smith, Steven B. , Edwards, Vonetta L. , Alisoltani, Arghavan
in Acid production / Bacteria / Bioinformatics / Biomedical and Life Sciences / Biomedicine / Cell culture / Disease transmission / Epithelial cells / Epithelium / Female / Female reproductive tract / HIV / Human immunodeficiency virus / Humans / L-Lactate dehydrogenase / Lactic acid / Lactic Acid - metabolism / Lactobacillus / Lactobacillus - metabolism / Medical Microbiology / Metabolites / Microbial Ecology / Microbial Genetics and Genomics / Microbiology / Microbiota / Microbiota - physiology / Microorganisms / Pathogens / Premature birth / Proteins / Reproductive health / Tight Junction Proteins - metabolism / Tight junctions / Transcriptomics / Vagina / Vagina - metabolism / Vagina - microbiology / Vaginal microbiome / Virology / Womens health
2022

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Lactic acid from vaginal microbiota enhances cervicovaginal epithelial barrier integrity by promoting tight junction protein expression
Lactic acid from vaginal microbiota enhances cervicovaginal epithelial barrier integrity by promoting tight junction protein expression
Journal Article

Lactic acid from vaginal microbiota enhances cervicovaginal epithelial barrier integrity by promoting tight junction protein expression

Dabee, Smritee,
Mulder, Nicola,
Masson, Lindi,
Passmore, Jo-Ann S.,
Ross, Elizabeth,
Tachedjian, Gilda,
Blackburn, Jonathan M.,
Allali, Imane,
Gamieldien, Hoyam,
Jesaveluk, Brianna,
Delgado-Diaz, David Jose,
Bell, Liam,
Burgener, Adam D.,
Ravel, Jacques,
Barnabas, Shaun,
Hayward, Joshua A.,
Iranzadeh, Arash,
Bekker, Linda-Gail,
Hearps, Anna C.,
Tyssen, David,
Potgieter, Matthys,
Smith, Steven B.,
Edwards, Vonetta L.,
Alisoltani, Arghavan
2022
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Overview
Background Women with a cervicovaginal microbiota dominated by Lactobacillus spp. are at reduced risk of acquiring sexually transmitted infections including HIV, but the biological mechanisms involved remain poorly defined. Here, we performed metaproteomics on vaginal swab samples from young South African women ( n = 113) and transcriptomics analysis of cervicovaginal epithelial cell cultures to examine the ability of lactic acid, a metabolite produced by cervicovaginal lactobacilli, to modulate genital epithelial barrier function. Results Compared to women with Lactobacillus -depleted microbiota, women dominated by vaginal lactobacilli exhibit higher abundance of bacterial lactate dehydrogenase, a key enzyme responsible for lactic acid production, which is independently associated with an increased abundance of epithelial barrier proteins. Physiological concentrations of lactic acid enhance epithelial cell culture barrier integrity and increase intercellular junctional molecule expression. Conclusions These findings reveal a novel ability of vaginal lactic acid to enhance genital epithelial barrier integrity that may help prevent invasion by sexually transmitted pathogens. -WPkVA_hjFNVzj1jBU-6oS Video abstract
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Publisher
BioMed Central,Springer Nature B.V,BMC
Subject

Acid production

/ Bacteria

/ Bioinformatics

/ Biomedical and Life Sciences

/ Biomedicine

/ Cell culture

/ Disease transmission

/ Epithelial cells

/ Epithelium

/ Female

/ Female reproductive tract

/ HIV

/ Human immunodeficiency virus

/ Humans

/ L-Lactate dehydrogenase

/ Lactic acid

/ Lactic Acid - metabolism

/ Lactobacillus

/ Lactobacillus - metabolism

/ Medical Microbiology

/ Metabolites

/ Microbial Ecology

/ Microbial Genetics and Genomics

/ Microbiology

/ Microbiota

/ Microbiota - physiology

/ Microorganisms

/ Pathogens

/ Premature birth

/ Proteins

/ Reproductive health

/ Tight Junction Proteins - metabolism

/ Tight junctions

/ Transcriptomics

/ Vagina

/ Vagina - metabolism

/ Vagina - microbiology

/ Vaginal microbiome

/ Virology

/ Womens health

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