Department of Clinical and Experimental Medicine, Linköping University, Linköping, Sweden.
Neurogastroenterol Motil. 2013 Jun;25(6):e406-17. doi: 10.1111/nmo.12127. Epub 2013 Apr 18.
Vasoactive intestinal polypeptide (VIP) has been implicated as a regulator of intestinal barrier function and inflammation. Our aim was to elucidate the role of VIP in follicle-associated epithelium (FAE) and villus epithelium (VE) permeability following stress in rats and on human intestinal barrier function.
Rats were injected intraperitoneally (i.p.) with VIP receptor-antagonists (anti-VPACs), a mast cell stabilizer, doxantrazole (DOX), or NaCl, and submitted to acute water avoidance stress. Ileal segments were mounted in Ussing chambers to assess (51) chromium-edta ((51) Cr-edta) and Escherichia (E.) coli (strain K-12) permeability. Rat ileal and human ileal and colonic segments were exposed to VIP ± anti-VPACs or DOX. An in vitro co-culture model of human FAE was used to study epithelial-VIP effects. VIP/VPACs distribution was assessed by microscopy.
Stress increased (51) Cr-edta and E. coli permeability in VE and FAE. The increases were abolished by i.p. injection of DOX or anti-VPACs. Ileal VIP-exposure ex vivo increased bacterial passage and this was reduced by DOX. In human FAE ex vivo, VIP treatment doubled bacterial uptake, which was normalized by DOX or anti-VPACs. No barrier effects were observed in human colonic tissue. VPACs were found in rat and human ileal follicles, with partial mast cell co-localization. The co-culture model confirmed VIP-mast cell-epithelial interactions in the regulation of barrier function.
CONCLUSIONS & INFERENCES: Stress affects the FAE barrier by mechanisms involving VIP and VPACs on mucosal mast cells. We suggest a regulatory role for VIP in the control of ileal permeability that may be relevant to bacterial-epithelial interactions in stress-related intestinal disorders.
血管活性肠肽 (VIP) 被认为是调节肠道屏障功能和炎症的一种物质。我们的目的是阐明 VIP 在大鼠和人肠道屏障功能中,对应激后滤泡相关上皮 (FAE) 和绒毛上皮 (VE) 通透性的作用。
给大鼠腹腔内注射 VIP 受体拮抗剂 (抗-VPACs)、肥大细胞稳定剂 doxantrazole (DOX) 或 NaCl,并进行急性水回避应激。将回肠段置于 Ussing 室中,以评估 (51) 铬-EDTA ((51)Cr-EDTA) 和大肠杆菌 (E. coli) (K-12 株) 的通透性。暴露于 VIP ± 抗-VPACs 或 DOX 的大鼠回肠和人回肠和结肠段。使用人 FAE 的体外共培养模型研究上皮细胞-VIP 的作用。通过显微镜评估 VIP/VPACs 的分布。
应激增加了 VE 和 FAE 中的 (51)Cr-EDTA 和 E. coli 的通透性。腹腔注射 DOX 或抗-VPACs 可消除这些增加。离体 VIP 暴露增加了细菌通过,而 DOX 则降低了这种增加。在人 FAE 离体实验中,VIP 处理使细菌摄取量增加了一倍,而 DOX 或抗-VPACs 可使这一作用恢复正常。在人结肠组织中未观察到屏障作用。在大鼠和人回肠滤泡中发现了 VPACs,部分与肥大细胞存在共定位。共培养模型证实了 VIP-肥大细胞-上皮细胞相互作用在调节屏障功能中的作用。
应激通过黏膜肥大细胞上的 VIP 和 VPACs 影响 FAE 屏障,我们提出 VIP 在控制回肠通透性方面的调节作用,这可能与应激相关肠道疾病中的细菌-上皮相互作用有关。
