Melatonin attenuates chronic intermittent hypoxia-induced intestinal barrier dysfunction in mice

IF 6.1 1区 生物学 Q1 MICROBIOLOGY
Xinyi Li , Fan Wang , Zhenfei Gao , Weijun Huang , Xiaoman Zhang , Feng Liu , Hongliang Yi , Jian Guan , Xiaolin Wu , Huajun Xu , Shankai Yin
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Abstract

Background and purpose

Chronic intermittent hypoxia (CIH) triggers subclinical intestinal barrier disruption prior to systemic low-grade inflammation. Increasing evidence suggests therapeutic effects of melatonin on systemic inflammation and gut microbiota remodelling. However, whether and how melatonin alleviates CIH-induced intestinal barrier dysfunction remains unclear.

Experimental approach

C57BL/6 J mice and Caco-2 cell line were treated. We evaluated gut barrier function spectrophotometrically using fluorescein isothiocyanate (FITC)-labelled dextran. Immunohistochemical and immunofluorescent staining were used to detect morphological changes in the mechanical barrier. Western blotting (WB) and quantitative real-time polymerase chain reaction (qRT-PCR) revealed the expression of tight junctions, signal transducer and activator of transcription 3 (STAT3) levels. 16 S rRNA analysis of the colonic contents microflora. Flow cytometry was used to detect cytokines and Th17 cells with and without melatonin supplementation.

Key results

We found that CIH could induce colonic mucosal injury, including reduction in the number of goblet cells and decrease the expression of intestinal tight junction proteins. CIH could decrease the abundance of the beneficial genera Clostridium, Akkermansia, and Bacteroides, while increasing the abundance of the pathogenic genera Desulfovibrio and Bifidobacterium. Finally, CIH facilitated Th17 differentiation via the phosphorylation of signal transducer and activator of transcription 3 (STAT3) in vitro and elevated the circulating pro-inflammatory cytokine in vivo. Melatonin supplementation ameliorated CIH-induced intestinal mucosal injury, gut microbiota dysbiosis, enteric Th17 polarization, and systemic low-grade inflammation reactions mentioned-above.

Conclusion and implications

Melatonin attenuated CIH-induced intestinal barrier dysfunction by regulating gut flora dysbiosis, mucosal epithelium integrity, and Th17 polarization via STAT3 signalling.

褪黑素减轻慢性间歇性缺氧诱导的小鼠肠道屏障功能障碍
背景和目的慢性间歇性缺氧(CIH)在全身低度炎症之前引发亚临床肠道屏障破坏。越来越多的证据表明褪黑素对全身炎症和肠道微生物群重塑有治疗作用。然而,褪黑素是否以及如何减轻CIH诱导的肠道屏障功能障碍仍不清楚。实验方法对C57BL/6J小鼠和Caco-2细胞系进行处理。我们使用异硫氰酸荧光素(FITC)标记的葡聚糖分光光度法评估肠道屏障功能。免疫组织化学和免疫荧光染色用于检测机械屏障的形态学变化。蛋白质印迹(WB)和定量实时聚合酶链式反应(qRT-PCR)揭示了紧密连接、信号转导子和转录激活子3(STAT3)水平的表达。结肠内容物微生物区系的16S rRNA分析。流式细胞术用于检测补充和不补充褪黑素的细胞因子和Th17细胞。关键结果我们发现CIH可以诱导结肠粘膜损伤,包括杯状细胞数量减少和肠道紧密连接蛋白表达减少。CIH可降低有益属梭菌属、阿克曼菌属和拟杆菌属的丰度,同时增加致病属脱硫弧菌属和双歧杆菌属的丰富度。最后,CIH在体外通过信号转导子和转录激活子3(STAT3)的磷酸化促进Th17分化,并在体内升高循环的促炎细胞因子。补充褪黑素可改善上述CIH诱导的肠粘膜损伤、肠道微生物群失调、肠道Th17极化和全身低度炎症反应。结论和意义褪黑素通过STAT3信号调节肠道菌群失调、粘膜上皮完整性和Th17极化,从而减轻CIH引导的肠屏障功能障碍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Microbiological research
Microbiological research 生物-微生物学
CiteScore
10.90
自引率
6.00%
发文量
249
审稿时长
29 days
期刊介绍: Microbiological Research is devoted to publishing reports on prokaryotic and eukaryotic microorganisms such as yeasts, fungi, bacteria, archaea, and protozoa. Research on interactions between pathogenic microorganisms and their environment or hosts are also covered.
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