结肠 TRPV4 过表达与便秘严重程度相关。

Colonic TRPV4 overexpression is related to constipation severity.

机构信息

Center for Medical Education and Career Development, Graduate School of Medicine and Pharmaceutical Sciences, University of Toyama, Toyama, Japan.

Department of Gastroenterology, Graduate School of Medicine and Pharmaceutical Sciences, University of Toyama, Toyama, Japan.

出版信息

BMC Gastroenterol. 2023 Jan 13;23(1):13. doi: 10.1186/s12876-023-02647-0.

DOI:10.1186/s12876-023-02647-0

PMID:36639736

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9838009/

Abstract

BACKGROUND

Chronic constipation is prevalent and involves both colon sensitivity and various changes in intestinal bacteria, particularly mucosa-associated microflora. Here we examined regulatory mechanisms of TRPV4 expression by co-culturing colon epithelial cell lines with intestinal bacteria and their derivatives. We also investigated TRPV4 expression in colon epithelium from patients with constipation.

METHODS

Colon epithelial cell lines were co-cultured with various enterobacteria (bacterial components and supernatant), folate, LPS, or short chain fatty acids. TRPV4 expression levels and promoter DNA methylation were assessed using pyrosequencing, and microarray network analysis. For human samples, correlation coefficients were calculated and multiple regression analyses were used to examine the association between clinical background, rectal TRPV4 expression level and mucosa-associated microbiota.

RESULTS

Co-culture of CCD841 cells with P. acnes, C. perfringens, or S. aureus transiently decreased TRPV4 expression but did not induce methylation. Co-culture with clinical isolates and standard strains of K. oxytoca, E. faecalis, or E. coli increased TRPV4 expression in CCD841 cells, and TRPV4 and TNF-alpha expression were increased by E. coli culture supernatants but not bacterial components. Although folate, LPS, IL-6, TNF-alpha, or SCFAs alone did not alter TRPV4 expression, TRPV4 expression following exposure to E. coli culture supernatants was inhibited by butyrate or TNF-alphaR1 inhibitor and increased by p38 inhibitor. Microarray network analysis showed activation of TNF-alpha, cytokines, and NOD signaling. TRPV4 expression was higher in constipated patients from the terminal ileum to the colorectum, and multiple regression analyses showed that low stool frequency, frequency of defecation aids, and duration were associated with TRPV4 expression. Meanwhile, incomplete defecation, time required to defecate, and number of defecation failures per 24 h were associated with increased E. faecalis frequency.

CONCLUSIONS

Colon epithelium cells had increased TRPV4 expression upon co-culture with K. oxytoca, E. faecalis, or E. coli supernatants, as well as TNFα-stimulated TNFαR1 expression via a pathway other than p38. Butyrate treatment suppressed this increase. Epithelial TRPV4 expression was increased in constipated patients, suggesting that TRPV4 together with increased frequency of E. faecalis may be involved in the pathogenesis of various constipation symptoms.

摘要

背景

慢性便秘较为常见，涉及结肠敏感性和肠道细菌的各种变化，尤其是黏膜相关微生物群。在这里，我们通过共培养结肠上皮细胞系与肠道细菌及其衍生物来研究 TRPV4 表达的调节机制。我们还研究了便秘患者结肠上皮细胞中的 TRPV4 表达。

方法

将各种肠杆菌（细菌成分和上清液）、叶酸、LPS 或短链脂肪酸与结肠上皮细胞系共培养。使用焦磷酸测序和微阵列网络分析评估 TRPV4 表达水平和启动子 DNA 甲基化。对于人类样本，计算相关系数，并进行多元回归分析，以研究临床背景、直肠 TRPV4 表达水平与黏膜相关微生物群之间的关联。

结果

CCD841 细胞与 P. acnes、C. perfringens 或 S. aureus 共培养会短暂降低 TRPV4 表达，但不会诱导甲基化。与临床分离株和标准株 K. oxytoca、E. faecalis 或 E. coli 共培养会增加 CCD841 细胞中的 TRPV4 表达，E. coli 培养上清液会增加 TRPV4 和 TNF-α 的表达，但细菌成分则不会。虽然叶酸、LPS、IL-6、TNF-α 或 SCFAs 单独作用均不能改变 TRPV4 表达，但 E. coli 培养上清液作用后的 TRPV4 表达可被丁酸钠或 TNF-αR1 抑制剂抑制，被 p38 抑制剂增强。微阵列网络分析显示 TNF-α、细胞因子和 NOD 信号的激活。在从回肠末端到直肠的便秘患者中，TRPV4 表达水平更高，多元回归分析显示，低排便频率、使用排便辅助工具的频率以及排便时间与 TRPV4 表达有关。与此同时，不完全排便、排便所需时间以及 24 小时内排便失败的次数与 E. faecalis 频率增加有关。

结论

当与 K. oxytoca、E. faecalis 或 E. coli 上清液共培养时，结肠上皮细胞的 TRPV4 表达增加，TNFα 刺激 TNF-αR1 表达通过 p38 以外的途径。丁酸钠处理可抑制这种增加。在便秘患者中，上皮细胞 TRPV4 表达增加，提示 TRPV4 与 E. faecalis 频率增加可能参与了各种便秘症状的发病机制。