Astragalus membranaceus Polysaccharide Regulates Small Intestinal Microbes and Activates IL-22 Signal Pathway to Promote Intestinal Stem Cell Regeneration in Aging Mice.

The American journal of Chinese medicine Pub Date : 2024-01-01 Epub Date: 2024-03-26 DOI:10.1142/S0192415X24500228
Jia-Ting Yin, Ming-Ruo Zhang, Shu Zhang, Shu-Hui Yang, Jian-Ping Li, Yun Liu, Jin-Ao Duan, Jian-Ming Guo
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Abstract

Aging can cause degenerative changes in multiple tissues and organs. Gastrointestinal diseases and dysfunctions are common in the elderly population. In this study, we investigated the effects of Astragalus membranaceus polysaccharide (APS) and Astragalus membranaceus ethanol extract (AEE) on age-related intestinal dysfunction and gut microbiota dysbiosis in naturally aging mice. The energy expenditure and physical activity of 23-month-old C57BL6/J mice were recorded using a metabolic cage system. Pathological changes in the intestine were evaluated using Alcian blue staining. The protein levels of leucine-rich repeats containing G protein-coupled receptor 5 (Lgr5) and Stat3 in the small intestine were determined using immunohistochemistry. The intestinal cell migration distance was assessed using bromodeoxyuridine (BrdU) immunofluorescence staining. The gene transcription levels of intestinal stem cell (ISC) markers and ISC-related signaling pathways were detected using quantitative real-time PCR (qRT-PCR). Microbiota analysis based on 16S rDNA was performed to evaluate the composition of the gut microbiota. APS and AEE improved a series of aging phenotypes in female but not in male aging mice. APS and AEE ameliorate intestinal dysfunction and histopathological changes in aging mice. APS had a more significant anti-aging effect than AEE, particularly on intestinal dysfunction. APS promotes ISC regeneration by activating the IL-22 signaling pathway. Cohousing (CH) experiments further confirmed that APS induced the IL-22 signaling pathway by increasing the abundance of Lactobacillus, thereby promoting the regeneration of ISCs. Our results show that APS may serve as a promising agent for improving age-related intestinal dysfunction.

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黄芪多糖调节小肠微生物并激活IL-22信号通路,促进衰老小鼠肠干细胞再生
衰老会导致多种组织和器官发生退行性变化。胃肠道疾病和功能障碍在老年人群中很常见。本研究探讨了黄芪多糖(APS)和黄芪乙醇提取物(AEE)对自然衰老小鼠与年龄相关的肠道功能障碍和肠道微生物菌群失调的影响。使用代谢笼系统记录了23月龄C57BL6/J小鼠的能量消耗和体力活动。用阿尔新蓝染色法评估了小鼠肠道的病理变化。用免疫组化法测定小肠中富含亮氨酸重复序列的G蛋白偶联受体5(Lgr5)和Stat3的蛋白水平。使用溴脱氧尿苷(BrdU)免疫荧光染色法评估肠细胞迁移距离。使用定量实时 PCR(qRT-PCR)检测肠干细胞(ISC)标记物和 ISC 相关信号通路的基因转录水平。根据 16S rDNA 进行了微生物群分析,以评估肠道微生物群的组成。APS和AEE改善了雌性衰老小鼠的一系列衰老表型,但没有改善雄性衰老小鼠的表型。APS和AEE能改善衰老小鼠的肠道功能障碍和组织病理学变化。APS的抗衰老效果比AEE更明显,尤其是在肠道功能障碍方面。APS通过激活IL-22信号通路促进ISC再生。同室(CH)实验进一步证实,APS通过增加乳酸杆菌的丰度来诱导IL-22信号通路,从而促进ISC的再生。我们的研究结果表明,APS可作为一种有希望改善与年龄有关的肠道功能障碍的药物。
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