长安水煎剂通过调节丝裂蛋白 2 减轻内质网应激,从而改善结肠炎。

Chen Youlan, Ding Mingming, Huang Chaoyuan, Zheng Yiyuan, Liu Fengbin
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摘要

目的评估长安水煎剂(CAD)对结肠炎的保护作用,并从丝裂霉素 2(MFN2)诱导内质网(ER)应激的角度研究这些作用的潜在机制:方法:采用液相色谱-质谱技术鉴定 CAD 的成分。建立右旋糖酐硫酸钠(DSS)诱导的小鼠结肠炎模型,并通过检测体重、疾病活动指数、结肠长度和组织病理学变化来确定 CAD 的治疗效果。然后,通过聚合酶链式反应(PCR)、Western 印迹、免疫组织化学和免疫荧光染色检测了 MFN2、ER 应激标志物和核苷酸结合域及富含亮氨酸重复蛋白 3(NLRP3)相关蛋白的表达水平。随后,通过PCR、Western印迹、电镜和活性氧(ROS)染色,构建了敲除和过表达细胞模型,进一步研究了MFN2介导ER应激和能量代谢的内在机制。最后,通过 PCR 和免疫荧光染色检测炎症指标和紧密连接蛋白,以评估 CAD 的保护作用:结果:研究结果表明,MFN2在介导ER应激和线粒体损伤方面起着不可或缺的调节作用,它参与了CAD对DSS喂养小鼠结肠炎的保护作用。网络药理学分析还显示,CAD 可能通过影响线粒体功能对结肠炎起到保护作用。此外,我们的数据还表明,通过构建基因敲除和过表达细胞模型,MFN2 在炎症反应和能量代谢改变的发展过程中扮演了因果角色,从而改变了 Caco-2 细胞中 ER 与线粒体之间的正常相互作用。此外,ER应激标志物和NLRP3炎性体的相对表达分析表明,ER应激的发生和NLRP3炎性体的激活与上述发现一致。相比之下,通过抑制由 MFN2 介导的 ER 应激反应,干预 CAD 可有效改善粘膜屏障完整性和结肠炎症反应:结论:CAD可通过调节MFN2缓解ER应激反应,从而对DSS诱导的结肠炎产生治疗作用,这可能为治疗溃疡性结肠炎提供一种有效的自然疗法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chang'an decoction alleviates endoplasmic reticulum stress by regulating mitofusin 2 to improve colitis.

Objective: To evaluate the protective effects of Chang'an decoction (, CAD) on colitis, and investigate the potential mechanisms underlying these effects from the perspectives of endoplasmic reticulum (ER) stress induced by mitofusin 2 (MFN2).

Methods: The composition of CAD was identified by liquid chromatography-mass spectrometry technology. A mice model of dextran sulfate sodium (DSS) induced colitis was established and therapeutic effects of CAD were determined by detecting body weight, disease activity index, colon length and histopathological changes. Then, the expression levels of MFN2, ER stress markers and Nucleotide-binding domain and leucine-rich repeat protein3 (NLRP3) relevant proteins were detected by polymerase chain reaction (PCR), Western blot, immunohistochemistry and immunofluorescence staining. Subsequently, knockdown and overexpression cell model were constructed to further investigate the underlying mechanism of MFN2 mediating ER stress and energy metabolism by PCR, Western blot, electron microscopy and reactive oxygen species (ROS) staining. Finally, inflammatory indicator and tight junction proteins were measured by PCR and immunofluorescence staining to evaluate the protective effects of CAD.

Results: Results showed that the indispensable regulatory role of MFN2 in mediating ER stress and mitochondrial damage was involved in the protective effects of CAD on colitis in mice fed with DSS. Network pharmacology analysis also revealed CAD may play a protective effect on colitis by affecting mitochondrial function. In addition, our data also suggested a causative role for MFN2 in the development of inflammatory responses and energy metabolic alterations by constructing a knockdown and overexpression cell model whereby alter proper ER-mitochondria interaction in Caco-2 cells. Furthermore, relative expression analyses of ER stress markers and NLRP3 inflammasome showed the onset of ER stress and activation of NLRP3 inflammasome, which is consistent with the above findings. In contrast, intervention of CAD could improve the mucosal barrier integrity and colonic inflammatory response effectively through inhibiting ER stress response mediated by MFN2.

Conclusion: CAD could alleviate ER stress by regulating MFN2 to exert therapeutic effects on DSS-induced colitis, which might provide an effective natural therapeutic approach for the treatment of ulcerative colitis.

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