Author:
Gutzeit Ola,Gulati Aakanksha,Izadifar Zohreh,Stejskalova Anna,Rhbiny Hassan,Cotton Justin,Budnik Bogdan,Shahriar Sanjid,Goyal Girija,Junaid Abidemi,Ingber Donald E.
Abstract
ABSTRACTBackgroundThe cervicovaginal mucus that coats the upper surface of the vaginal epithelium is thought to serve as a selective barrier that helps to clear pathogens, however, its role in modulating the physiology and pathophysiology of the human vagina is poorly understood. Bacterial vaginosis (BV), a common disease of the female reproductive tract that increases susceptibility to sexually transmitted infections, pelvic inflammatory disease, infertility, preterm birth, and both maternal and neonatal infections is characterized by the presence of a wide array of strict and facultative anaerobes, often includingGardnerella vaginalis.ObjectiveTo assess the role of cervical mucus in preventing dysbiosis-associated complications and preserving vaginal health.Study DesignTo better understand the role of cervicovaginal mucus in vaginal health, we used human organ-on-a-chip (Organ Chip) microfluidic culture technology to analyze the effects of cervical mucus produced in a human Cervix Chip when transferred to a human Vagina Chip BV model. Both chips are lined by primary human organ-specific (cervical or vaginal) epithelium interfaced with organ-specific stromal fibroblasts.ResultsOur data show that mucus-containing effluents from Cervix Chips protect Vagina Chips from inflammation and epithelial cell injury caused by co-culture with dysbiotic microbiome containingG. vaginalis. Proteomic analysis of proteins produced by the Vagina Chip following treatment with the Cervix Chip mucus also revealed a collection of differentially abundant proteins that may contribute to the vaginal response to dysbiotic microbiome, which could represent potential diagnostic biomarkers or therapeutic targets for management of BV.ConclusionsThis study highlights the importance of cervical mucus in control of human vaginal physiology and pathophysiology, and demonstrates the potential value of Organ Chip technology for studies focused on health and diseases of the female reproductive tract.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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