Evidence that the loss of colonic anti-microbial peptides may promote dysbiotic Gram-negative inflammaging-associated bacteria in aging mice.

IF 3.3 Q2 GERIATRICS & GERONTOLOGY
Frontiers in aging Pub Date : 2024-03-04 eCollection Date: 2024-01-01 DOI:10.3389/fragi.2024.1352299
Christopher B Forsyth, Maliha Shaikh, Phillip A Engen, Fabian Preuss, Ankur Naqib, Breanna A Palmen, Stefan J Green, Lijuan Zhang, Zlata R Bogin, Kristi Lawrence, Deepak Sharma, Garth R Swanson, Faraz Bishehsari, Robin M Voigt, Ali Keshavarzian
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引用次数: 0

Abstract

Introduction: Aging studies in humans and mice have played a key role in understanding the intestinal microbiome and an increased abundance of "inflammaging" Gram-negative (Gn) bacteria. The mechanisms underlying this inflammatory profile in the aging microbiome are unknown. We tested the hypothesis that an aging-related decrease in colonic crypt epithelial cell anti-microbial peptide (AMP) gene expression could promote colonic microbiome inflammatory Gn dysbiosis and inflammaging. Methods: As a model of aging, C57BL/6J mice fecal (colonic) microbiota (16S) and isolated colonic crypt epithelial cell gene expression (RNA-seq) were assessed at 2 months (mth) (human: 18 years old; yo), 15 mth (human: 50 yo), and 25 mth (human: 84 yo). Informatics examined aging-related microbial compositions, differential colonic crypt epithelial cell gene expressions, and correlations between colonic bacteria and colonic crypt epithelial cell gene expressions. Results: Fecal microbiota exhibited significantly increased relative abundances of pro-inflammatory Gn bacteria with aging. Colonic crypt epithelial cell gene expression analysis showed significant age-related downregulation of key AMP genes that repress the growth of Gn bacteria. The aging-related decrease in AMP gene expressions is significantly correlated with an increased abundance in Gn bacteria (dysbiosis), loss of colonic barrier gene expression, and senescence- and inflammation-related gene expression. Conclusion: This study supports the proposed model that aging-related loss of colonic crypt epithelial cell AMP gene expression promotes increased relative abundances of Gn inflammaging-associated bacteria and gene expression markers of colonic inflammaging. These data may support new targets for aging-related therapies based on intestinal genes and microbiomes.

有证据表明,结肠抗微生物肽的丧失可能会促进衰老小鼠体内革兰氏阴性炎症相关细菌的菌群失调。
导言:对人类和小鼠进行的老龄化研究在了解肠道微生物组和 "炎症性 "革兰氏阴性(Gn)细菌数量增加方面发挥了关键作用。衰老微生物群中这种炎症特征的内在机制尚不清楚。我们测试了这样一个假设:与衰老相关的结肠隐窝上皮细胞抗微生物肽(AMP)基因表达的减少可能会促进结肠微生物组炎性革兰氏阴性菌菌群失调和炎症。方法:以 C57BL/6J 小鼠为衰老模型,分别在 2 个月(mth)(人类:18 岁;yo)、15 个月(人类:50 yo)和 25 个月(人类:84 yo)时评估其粪便(结肠)微生物群(16S)和分离的结肠隐窝上皮细胞基因表达(RNA-seq)。信息学研究了与衰老相关的微生物组成、结肠隐窝上皮细胞基因表达的差异以及结肠细菌与结肠隐窝上皮细胞基因表达之间的相关性。结果显示随着年龄的增长,粪便微生物群中促炎gn菌的相对丰度明显增加。结肠隐窝上皮细胞基因表达分析表明,抑制 Gn 细菌生长的关键 AMP 基因随年龄增长而明显下调。与衰老相关的 AMP 基因表达的减少与 Gn 细菌数量的增加(菌群失调)、结肠屏障基因表达的丧失以及衰老和炎症相关的基因表达有明显的相关性。结论本研究支持所提出的模型,即与衰老相关的结肠隐窝上皮细胞 AMP 基因表达的丧失促进了 Gn 炎症相关细菌相对丰度的增加以及结肠炎症基因表达标记物的增加。这些数据可能支持基于肠道基因和微生物组的衰老相关疗法的新靶点。
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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CiteScore
3.00
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审稿时长
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