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Restoring mucosal barrier homeostasis by in situ formation of a living-synthetic therapeutic coating

Wei Yu, Huilong Luo, Bo Han, Sisi Lin, Qian Li, Rui Xue, Hui Tang, Xin Jia, Lu Wang, Jinyao Liu

2025Nature Communications10 citationsDOIOpen Access PDF

Abstract

The mucosal barrier consisting of physicochemical, immune, and microbial components is the first line of defense against external stimuli. Breakdown of the mucosal barrier causes the occurrences of various diseases, while methods capable of multifacetedly restoring mucosal barrier functions have been rarely reported. Here, we describe the restoration of the physicochemical, immune, and microbial homeostasis of the mucosal barrier by in situ formation of a living-synthetic therapeutic coating (LSTC). Through metal-phenolic complexation and π-π stacking interactions, ethyl gallate can chelate BiIII ions to form an adhesive coating on mucosal surfaces, which enables further hybridization with living bacteria. Due to the beneficial effects of BiIII and ethyl gallate and the probiotic characteristic of carried bacteria, LSTC increases the barrier integrity, mitigates mucosal inflammation, and maintains normal homoeostasis of the microbiota. In two murine models of aerobic vaginitis and vaginal candidiasis, LSTC demonstrates the potency to alleviate vaginal pathological injury and decrease vaginal inflammatory infiltration. Vaginal infections influence about 75% of adult women worldwide each year. Here, the authors report a strategy to treat vaginal infection by restoring the homeostasis of the vaginal mucosal barrier through in situ formation of a living-synthetic therapeutic coating.

Topics & Concepts

HomeostasisIn situCoatingChemistryCell biologyBiologyNanotechnologyMaterials scienceOrganic chemistryInfant Nutrition and HealthGut microbiota and healthProbiotics and Fermented Foods