Frontiers in Aging (Mar 2024)

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

  • Christopher B. Forsyth,
  • Christopher B. Forsyth,
  • Christopher B. Forsyth,
  • Maliha Shaikh,
  • Phillip A. Engen,
  • Fabian Preuss,
  • Ankur Naqib,
  • Ankur Naqib,
  • Breanna A. Palmen,
  • Stefan J. Green,
  • Stefan J. Green,
  • Lijuan Zhang,
  • Zlata R. Bogin,
  • Kristi Lawrence,
  • Deepak Sharma,
  • Garth R. Swanson,
  • Garth R. Swanson,
  • Garth R. Swanson,
  • Faraz Bishehsari,
  • Faraz Bishehsari,
  • Faraz Bishehsari,
  • Robin M. Voigt,
  • Robin M. Voigt,
  • Robin M. Voigt,
  • Ali Keshavarzian,
  • Ali Keshavarzian,
  • Ali Keshavarzian,
  • Ali Keshavarzian

DOI
https://doi.org/10.3389/fragi.2024.1352299
Journal volume & issue
Vol. 5

Abstract

Read online

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.

Keywords