Enteroglial-derived S100B protein integrates bacteria-induced Toll-like receptor signalling in human enteric glial cells

微生物学 生物 细菌 TLR2型 先天免疫系统 下调和上调 致病菌 Toll样受体 免疫印迹 免疫系统 免疫学 基因 生物化学 遗传学
作者
Fabio Turco,Giovanni Sarnelli,Carla Cirillo,Ilaria Palumbo,Francesco De Giorgi,Alessandra D’Alessandro,Marcella Cammarota,Mariateresa Giuliano,Rosario Cuomo
出处
期刊:Gut [BMJ]
卷期号:63 (1): 105-115 被引量:175
标识
DOI:10.1136/gutjnl-2012-302090
摘要

Objective Enteric glial cells (EGC) have been suggested to participate in host–bacteria cross-talk, playing a protective role within the gut. The way EGC interact with microorganisms is still poorly understood. We aimed to evaluate whether: EGC participate in host–bacteria interaction; S100B and Toll-like receptor (TLR) signalling converge in a common pathway leading to nitric oxide (NO) production. Design Primary cultures of human EGC were exposed to pathogenic (enteroinvasive Escherichia coli ; EIEC) and probiotic ( Lactobacillus paracasei F19) bacteria. Cell activation was assessed by evaluating the expression of cFos and major histocompatibility complex (MHC) class II molecules. TLR expression in EGC was evaluated at both baseline and after exposure to bacteria by real-time PCR, fluorescence microscopy and western blot analysis. S100B expression and NO release from EGC, following exposure to bacteria, were measured in the presence or absence of specific TLR and S100B pathway inhibitors. Results EIEC activated EGC by inducing the expression of cFos and MHC II. EGC expressed TLR at baseline. Pathogens and probiotics differentially modulated TLR expression in EGC. Pathogens, but not probiotics, significantly induced S100B protein overexpression and NO release from EGC. Pretreatment with specific inhibitors of TLR and S100B pathways abolished bacterial-induced NO release from EGC. Conclusions Human EGC interact with bacteria and discriminate between pathogens and probiotics via a different TLR expression and NO production. In EGC, NO release is impaired in the presence of specific inhibitors of the TLR and S100B pathways, suggesting the presence of a novel common pathway involving both TLR stimulation and S100B protein upregulation.
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