Common Cervicovaginal Microbial Supernatants Alter Cervical Epithelial Function: Mechanisms by Which Contributes to Cervical Health

Overview

Journal Front Microbiol

Specialty Microbiology

Date 2018 Oct 24

PMID 30349508

Citations 60

Authors

Lauren Anton

Luz-Jeannette Sierra

Ann DeVine

Guillermo Barila

Laura Heiser

Amy G Brown

Michal A Elovitz

Affiliations

Soon will be listed here.

Abstract

Cervicovaginal (CV) microbiota is associated with vaginal health and disease in non-pregnant women. Recent studies in pregnant women suggest that specific CV microbes are associated with preterm birth (PTB). While the associations between CV microbiota and adverse outcomes have been demonstrated, the mechanisms regulating the associations remain unclear. As the CV space contains an epithelial barrier, we postulate that CV microbiota can alter the epithelial barrier function. We investigated the biological, molecular, and epigenetic effects of , and on the cervical epithelial barrier function and determined whether mitigates the effects of lipopolysaccharide (LPS) and on the cervical epithelial barrier as a possible mechanism by which CV microbiota mitigates disease risk. Ectocervical and endocervical cells treated with , and bacteria-free supernatants alone or combined were used to measure cell permeability, adherens junction proteins, inflammatory mediators, and miRNAs. Ectocervical and endocervical permeability increased after and exposure. Soluble epithelial cadherin increased after exposure to but not or . A Luminex cytokine/chemokine panel revealed increased proinflammatory mediators in all three bacteria-free supernatants with and having more diverse inflammatory effects. and altered the expression of cervical-, microbial-, and inflammatory-associated miRNAs. mitigated the LPS or -induced disruption of the cervical epithelial barrier and reversed the -mediated increase in miRNA expression. colonization of the CV space of a pregnant C57/B6 mouse resulted in 100% PTB. These findings demonstrate that and alter the cervical epithelial barrier by regulating adherens junction proteins, cervical immune responses, and miRNA expressions. These results provide evidence that confers protection to the cervical epithelial barrier by mitigating LPS- or -induced miRNAs associated with cervical remodeling, inflammation, and PTB. This study provides further evidence that the CV microbiota plays a role in cervical function by altering the cervical epithelial barrier and initiating PTB. Thus, targeting the CV microbiota and/or its effects on the cervical epithelium may be a potential therapeutic strategy to prevent PTB.

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