丝氨酸蛋白酶作为肠屏障功能障碍和 IBS 症状严重程度的腔内分泌物介质。
Serine proteases as luminal mediators of intestinal barrier dysfunction and symptom severity in IBS.
机构信息
Division of Gastroenterology and Hepatology, Mayo Clinic, Rochester, Minnesota, USA.
Division of Biomedical Statistics and Informatics, Mayo Clinic, Rochester, Minnesota, USA.
出版信息
Gut. 2020 Jan;69(1):62-73. doi: 10.1136/gutjnl-2018-317416. Epub 2019 Mar 28.
OBJECTIVE
The intestinal lumen contains several proteases. Our aim was to determine the role of faecal proteases in mediating barrier dysfunction and symptoms in IBS.
DESIGN
39 patients with IBS and 25 healthy volunteers completed questionnaires, assessments of in vivo permeability, ex vivo colonic barrier function in Ussing chambers, tight junction (TJ) proteins, ultrastructural morphology and 16 s sequencing of faecal microbiota rRNA. A casein-based assay was used to measure proteolytic activity (PA) in faecal supernatants (FSNs). Colonic barrier function was determined in mice (ex-germ free) humanised with microbial communities associated with different human PA states.
RESULTS
Patients with IBS had higher faecal PA than healthy volunteers. 8/20 postinfection IBS (PI-IBS) and 3/19 constipation- predominant IBS had high PA (>95th percentile). High-PA patients had more and looser bowel movements, greater symptom severity and higher in vivo and ex vivo colonic permeability. High-PA FSNs increased paracellular permeability, decreased occludin and increased phosphorylated myosin light chain (pMLC) expression. Serine but not cysteine protease inhibitor significantly blocked high-PA FSN effects on barrier. The effects on barrier were diminished by pharmacological or siRNA inhibition of protease activated receptor-2 (PAR-2). Patients with high-PA IBS had lower occludin expression, wider TJs on biopsies and reduced microbial diversity than patients with low PA. Mice humanised with high-PA IBS microbiota had greater in vivo permeability than those with low-PA microbiota.
CONCLUSION
A subset of patients with IBS, especially in PI-IBS, has substantially high faecal PA, greater symptoms, impaired barrier and reduced microbial diversity. Commensal microbiota affects luminal PA that can influence host barrier function.
目的
肠道腔含有几种蛋白酶。我们的目的是确定粪便蛋白酶在介导 IBS 中的屏障功能障碍和症状中的作用。
设计
39 名 IBS 患者和 25 名健康志愿者完成了问卷调查、体内通透性评估、Ussing 室体外结肠屏障功能、紧密连接 (TJ) 蛋白、超微结构形态和粪便微生物 rRNA 的 16s 测序。酪蛋白测定法用于测量粪便上清液 (FSN)中的蛋白水解活性 (PA)。在用人与人 PA 状态相关的微生物群落进行人源化的无菌 (ex-germ free) 小鼠中确定结肠屏障功能。
结果
IBS 患者的粪便 PA 高于健康志愿者。20 名感染后 IBS (PI-IBS) 中有 8 名和 19 名便秘为主的 IBS 中有 3 名患者的 PA 较高 (>95 百分位数)。高 PA 患者的排便次数更多、更松散,症状更严重,体内和体外结肠通透性更高。高 PA FSN 增加了旁细胞通透性,减少了闭合蛋白并增加了磷酸化肌球蛋白轻链 (pMLC) 的表达。丝氨酸而非半胱氨酸蛋白酶抑制剂可显著阻断高 PA FSN 对屏障的影响。蛋白酶激活受体-2 (PAR-2) 的药理学或 siRNA 抑制可减弱高 PA FSN 对屏障的作用。高 PA IBS 患者的闭合蛋白表达较低,活检中的 TJ 较宽,微生物多样性减少,而低 PA 患者则较低。用人与人源化高 PA IBS 微生物群的小鼠比用人与人源化低 PA 微生物群的小鼠具有更高的体内通透性。
结论
IBS 患者的亚组,特别是 PI-IBS,具有大量的粪便 PA、更大的症状、受损的屏障和减少的微生物多样性。共生微生物群会影响腔内 PA,从而影响宿主的屏障功能。
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