Tyndallized Bacteria Prime Bronchial Epithelial Cells to Mount an Effective Innate Immune Response Against Infections

Overview

Journal Hum Cell

Publisher Springer

Specialty Cell Biology

Date 2024 May 30

PMID 38814518

Authors

Serena Di Vincenzo

Caterina Di Sano

Claudia DAnna

Maria Ferraro

Velia Malizia

Andreina Bruno

Marta Cristaldi

Chiara Cipollina

Valentina Lazzara

Paola Pinto

Stefania La Grutta

Elisabetta Pace

Affiliations

Soon will be listed here.

Abstract

Airway epithelium represents a physical barrier against toxic substances and pathogens but also presents pattern recognition receptors on the epithelial cells that detect pathogens leading to molecule release and sending signals that activate both the innate and adaptive immune responses. Thus, impaired airway epithelial function and poor integrity may increase the recurrence of infections. Probiotic use in respiratory diseases as adjuvant of traditional therapy is increasingly widespread. There is growing interest in the use of non-viable heat-killed bacteria, such as tyndallized bacteria (TB), due to safety concerns and to their immunomodulatory properties. This study explores in vitro the effects of a TB blend on the immune activation of airway epithelium. 16HBE bronchial epithelial cells were exposed to different concentrations of TB. Cell viability, TB internalization, TLR2 expression, IL-6, IL-8 and TGF-βl expression/release, E-cadherin expression and wound healing were assessed. We found that TB were tolerated, internalized, increased TLR2, E-cadherin expression, IL-6 release and wound healing but decreased both IL-8 and TGF-βl release. In conclusion, TB activate TLR2 pathway without inducing a relevant pro-inflammatory response and improve barrier function, leading to the concept that TB preserve epithelial homeostasis and could be used as strategy to prevent and to manage respiratory infection, exacerbations included.

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