吲哚-3-甲醇通过ahr介导的抗菌肽和粘蛋白的产生改善小鼠结肠炎

Manikandan Palrasu, Khadija Kakar, Ahmed K. Aladhami, Tayler Carter, K. Wilson, Y. Zhong, X. Yang, Narendra P. Singh, P. Busbee, P. Nagarkatti, M. Nagarkatti
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引用次数: 0

摘要

吲哚-3-甲醇(I3C)是一种膳食化合物,作为芳烃受体(AhR)的配体,是环境多芳香族化学物质的重要传感器和免疫反应的调节剂。结肠炎的发病机制涉及微生物生态失调、宿主免疫反应失调、环境因素和宿主遗传谱之间的多重相互作用。事实上,研究表明炎症性肠病(IBD)患者中AhR和抗菌肽(AMPs)特别是防御素的表达存在缺陷。在这里,我们研究了I3C如何通过抗cd40或葡聚糖硫酸钠(DSS)诱导的结肠炎中AhR和结肠微生物群组成影响AMPs的产生,特别是b防御素。我们的分析发现,I3C通过激活AhR,导致结肠上皮细胞增加小鼠b防御素(mBDs)的表达,从而减轻结肠炎,从而恢复健康的肠道微生物群,预防结肠炎症。我们分析了AMPs和粘蛋白的结肠表达。我们的分析发现,与载药处理的结肠炎小鼠相比,I3C显著增加了AhR、AMPs如mBDs、Reg4和粘蛋白的mRNA表达。同样,与DSS处理的细胞相比,DSS+ i3c处理的结肠腺癌细胞MC-38(小鼠)和Caco2(人)中AhR、AMPs和粘蛋白的mRNA水平显著升高。总之,我们的研究结果表明,I3C主要通过ahr介导的AMPs和保护性粘蛋白的诱导来抑制结肠炎,从而导致健康肠道微生物群的丰富(这项工作部分得到了NIH资助R01ES030144, P01AT003961, P20GM103641和R01AI123947, R01AI160896)。这项工作得到了NIH拨款R01ES030144、P01AT003961、P20GM103641和R01AI123947、R01AI160896的部分支持
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Indol-3-Carbinol ameliorates colitis in mice by AhR-mediated production of antimicrobial peptides and mucins
Indole-3-carbinol (I3C) is a dietary compound that acts as a ligand for the aryl hydrocarbon receptor (AhR), an important sensor for environmental polyaromatic chemicals and a regulator of the immune response. The pathogenesis of colitis involves multiple interactions between microbial dysbiosis, dysregulation of the host immune response, environmental factors, and host genetic profile. Indeed, studies have shown defective expression of AhR and antimicrobial peptides (AMPs) particularly defensins in inflammatory bowel disease (IBD) patients. Here, we investigated how I3C influences the production of AMPs, particularly b-defensins, through AhR and colonic microbiota composition in Anti-CD40 or dextran sulfate sodium (DSS)-induced colitis. Our analysis found that I3C attenuates colitis through AhR activation leading to increased expression of murine b-defensins (mBDs) by Colonic Epithelial Cells, resulting in the restoration of healthy gut microbiota and prevention of colonic inflammation. We analyzed the colonic expression of AMPs and mucins. Our analysis found that I3C significantly increased the mRNA expression of AhR, AMPs such as mBDs, Reg4, and mucins, when compared to vehicle-treated mice with colitis. Similarly, the mRNA levels of AhR, AMPs, and mucins were significantly increased in DSS+I3C-treated colon adenocarcinoma cells MC-38 (murine) and Caco2 (human) when compared to DSS-treated cells. To conclude, our findings demonstrate that I3C inhibits colitis primarily through AhR-mediated induction of AMPs and protective mucins, resulting in the enrichment of healthy gut microbiota (This work was supported in part by NIH grants R01ES030144, P01AT003961, P20GM103641, and R01AI123947, R01AI160896). This work was supported in part by NIH grants R01ES030144, P01AT003961, P20GM103641, and R01AI123947, R01AI160896
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