ZO-1 and IL-1RAP Phosphorylation: Potential Role in Mediated Brain-Gut Axis Dysregulation in Irritable Bowel Syndrome-like Stressed Mice.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-07-02 eCollection Date: 2024-01-01 DOI:10.7150/ijms.95848
Yu-Qin He, Jian-Ru Zhu, Wen-Jing Sun, Yuan-Yuan Luo, Xiao-Feng Wu, Min Yang, Dong-Feng Chen
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Abstract

Background and Objectives: Irritable Bowel Syndrome (IBS) is a common gastrointestinal disorder often exacerbated by stress, influencing the brain-gut axis (BGA). BGA dysregulation, disrupted intestinal barrier function, altered visceral sensitivity and immune imbalance defects underlying IBS pathogenesis have been emphasized in recent investigations. Phosphoproteomics reveals unique phosphorylation details resulting from environmental stress. Here, we employ phosphoproteomics to explore the molecular mechanisms underlying IBS-like symptoms, mainly focusing on the role of ZO-1 and IL-1RAP phosphorylation. Materials and Methods: Morris water maze (MWM) was used to evaluate memory function for single prolonged stress (SPS). To assess visceral hypersensitivity of IBS-like symptoms, use the Abdominal withdrawal reflex (AWR). Colonic bead expulsion and defecation were used to determine fecal characteristics of the IBS-like symptoms. Then, we applied a phosphoproteomic approach to BGA research to discover the molecular mechanisms underlying the process of visceral hypersensitivity in IBS-like mice following SPS. ZO-1, p-S179-ZO1, IL-1RAP, p-S566-IL-1RAP and GFAP levels in BGA were measured by western blotting, immunofluorescence staining, and enzyme-linked immunosorbent assay to validate phosphorylation quantification. Fluorescein isothiocyanate-dextran 4000 and electron-microscopy were performed to observe the structure and function of the intestinal epithelial barrier. Results: The SPS group showed changes in learning and memory ability. SPS exposure affects visceral hypersensitivity, increased fecal water content, and significant diarrheal symptoms. Phosphoproteomic analysis displayed that p-S179-ZO1 and p-S566-IL-1RAP were significantly differentially expressed following SPS. In addition, p-S179-ZO1 was reduced in mice's DRG, colon, small intestine, spinal and hippocampus and intestinal epithelial permeability was increased. GFAP, IL-1β and p-S566-IL-1RAP were also increased at the same levels in the BGA. And IL-1β showed no significant difference was observed in serum. Our findings reveal substantial alterations in ZO-1 and IL-1RAP phosphorylation, correlating with increased epithelial permeability and immune imbalance. Conclusions: Overall, decreased p-S179-ZO1 and increased p-S566-IL-1RAP on the BGA result in changes to tight junction structure, compromising the structure and function of the intestinal epithelial barrier and exacerbating immune imbalance in IBS-like stressed mice.

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ZO-1和IL-1RAP磷酸化:肠易激综合征样应激小鼠脑-肠轴失调的潜在作用。
背景与目的:肠易激综合征(IBS)是一种常见的胃肠道疾病,常常因压力而加重,并影响脑肠轴(BGA)。最近的研究强调了 BGA 失调、肠道屏障功能紊乱、内脏敏感性改变和免疫失衡缺陷是肠易激综合征发病机制的基础。磷酸化蛋白质组学揭示了环境压力导致的独特磷酸化细节。在此,我们采用磷酸化蛋白质组学来探讨 IBS 类症状的分子机制,主要关注 ZO-1 和 IL-1RAP 磷酸化的作用。材料与方法使用莫里斯水迷宫(MWM)评估单次长时间应激(SPS)的记忆功能。使用腹部退缩反射(AWR)评估肠易激综合征样症状的内脏超敏性。结肠排珠和排便用于确定肠易激综合征样症状的粪便特征。然后,我们将磷酸蛋白组学方法应用于 BGA 研究,以发现 SPS 后 IBS 样小鼠内脏过敏过程的分子机制。通过Western印迹、免疫荧光染色和酶联免疫吸附试验检测了BGA中ZO-1、p-S179-ZO1、IL-1RAP、p-S566-IL-1RAP和GFAP的水平,以验证磷酸化定量。通过异硫氰酸荧光素-葡聚糖 4000 和电子显微镜观察肠上皮屏障的结构和功能。结果SPS组的学习和记忆能力发生了变化。接触 SPS 会导致内脏过敏、粪便含水量增加和明显的腹泻症状。磷蛋白组学分析表明,p-S179-ZO1 和 p-S566-IL-1RAP 在 SPS 后有显著差异表达。此外,小鼠DRG、结肠、小肠、脊髓和海马中的p-S179-ZO1减少,肠上皮通透性增加。在 BGA 中,GFAP、IL-1β 和 p-S566-IL-1RAP 也在相同水平上增加。而血清中的 IL-1β 则无明显差异。我们的研究结果表明,ZO-1 和 IL-1RAP 磷酸化发生了重大变化,这与上皮通透性增加和免疫失衡有关。结论总体而言,BGA 上 p-S179-ZO1 的减少和 p-S566-IL-1RAP 的增加导致了紧密连接结构的改变,损害了肠上皮屏障的结构和功能,加剧了肠易激综合征类应激小鼠的免疫失衡。
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