Department of Biomedical and Clinical Sciences, Linköping University, Linköping, Sweden.
Department of Medical Sciences, Faculty of Medicine and Health, Örebro University, Örebro, Sweden.
Neurogastroenterol Motil. 2021 Nov;33(11):e14130. doi: 10.1111/nmo.14130. Epub 2021 Apr 2.
Enteric glial cells (EGC) and mast cells (MC) are intimately associated with gastrointestinal physiological functions. We aimed to investigate EGC-MC interaction in irritable bowel syndrome (IBS), a gut-brain disorder linked to increased intestinal permeability, and MC.
Parallel approaches were used to quantify EGC markers in colonic biopsies from healthy controls (HC) and patients with IBS. Data were correlated with MC, vasoactive intestinal polypeptide (VIP) and VIP receptors (VPAC1/VPAC2) expressions, and bacterial translocation through biopsies mounted in Ussing chambers. In addition, we investigated the effects of EGC mediators on colonic permeability and the pharmacological-induced responses of EGC and MC cell lines.
Immunofluorescence of IBS colonic mucosa, as well as Western blotting and ELISA of IBS biopsy lysates, revealed increased glial fibrillary intermediate filament (GFAP) expression, indicating EGC activation. Mucosal GFAP correlated with increased MC and VPAC1 MC numbers and decreased VIP MC, which seemed to control bacterial translocation in HC. In the contrary, EGC activation in IBS correlated with less MC and VPAC1 MC numbers, and more VIP MC. In vitro, MC and EGC cell lines showed intracellular calcium responses to each other's mediators. Furthermore, EGC mediators prevented VIP-induced MC degranulation, while MC mediators induced a reactive EGC phenotype. In Ussing chambers, EGC mediators decreased paracellular passage through healthy colonic biopsies.
CONCLUSIONS & INFERENCES: Findings suggest the involvement of EGC and MC in the control of barrier function in the human colon and indicate a potential EGC-MC interaction that seems altered in IBS, with detrimental consequences to colonic permeability. Altogether, results suggest that imbalanced EGC-MC communication contributes to the pathophysiology of IBS.
肠胶质细胞(EGC)和肥大细胞(MC)与胃肠道生理功能密切相关。我们旨在研究肠易激综合征(IBS)中 EGC-MC 相互作用,这是一种与肠道通透性增加和 MC 相关的肠-脑疾病。
采用平行方法定量分析健康对照者(HC)和 IBS 患者结肠活检组织中的 EGC 标志物。数据与 MC、血管活性肠肽(VIP)和 VIP 受体(VPAC1/VPAC2)表达以及通过 Ussing 室安装的活检进行细菌易位相关联。此外,我们还研究了 EGC 介质对结肠通透性的影响以及 EGC 和 MC 细胞系的药物诱导反应。
IBS 结肠黏膜的免疫荧光,以及 IBS 活检组织裂解物的 Western blot 和 ELISA,显示出 GFAP 表达增加,表明 EGC 激活。黏膜 GFAP 与 MC 和 VPAC1 MC 数量增加以及 VIP MC 减少相关,这似乎控制了 HC 中的细菌易位。相反,IBS 中的 EGC 激活与 MC 和 VPAC1 MC 数量减少以及 VIP MC 数量增加相关。在体外,MC 和 EGC 细胞系对彼此的介质显示出细胞内钙反应。此外,EGC 介质可防止 VIP 诱导的 MC 脱颗粒,而 MC 介质可诱导反应性 EGC 表型。在 Ussing 室中,EGC 介质可降低健康结肠活检组织的细胞旁通透性。
研究结果表明 EGC 和 MC 参与了人类结肠屏障功能的控制,并表明在 IBS 中存在潜在的 EGC-MC 相互作用,这种相互作用似乎发生了改变,对结肠通透性产生了不利影响。总之,结果表明,失衡的 EGC-MC 通讯有助于 IBS 的病理生理学。
