Biology (Mar 2023)

Endotoxin Tolerance Acquisition and Altered Hepatic Fatty Acid Profile in Aged Mice

  • Amanda A. Wiesenthal,
  • Thierry M. Legroux,
  • Chris Richter,
  • Björn H. Junker,
  • Anne Hecksteden,
  • Sonja M. Kessler,
  • Jessica Hoppstädter,
  • Alexandra K. Kiemer

DOI
https://doi.org/10.3390/biology12040530
Journal volume & issue
Vol. 12, no. 4
p. 530

Abstract

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(1) Background: Aging is linked to an altered immune response and metabolism. Inflammatory conditions, such as sepsis, COVID-19, and steatohepatitis are more prevalent in the elderly and steatosis is linked both to severe COVID-19 and sepsis. We hypothesized that aging is linked to a loss of endotoxin tolerance, which normally protects the host from excessive inflammation, and that this is accompanied by elevated levels of hepatic lipids. (2) Methods: An in vivo lipopolysaccharide (LPS) tolerance model in young and old mice was used and the cytokine serum levels were measured by ELISA. Cytokine and toll-like receptor gene expression was determined by qPCR in the lungs and the liver; hepatic fatty acid composition was assessed by GC–MS. (3) Results: The old mice showed a distinct potential for endotoxin tolerance as suggested by the serum cytokine levels and gene expression in the lung tissue. Endotoxin tolerance was less pronounced in the livers of the aged mice. However, the fatty acid composition strongly differed in the liver tissues of the young and old mice with a distinct change in the ratio of C18 to C16 fatty acids. (4) Conclusions: Endotoxin tolerance is maintained in advanced age, but changes in the metabolic tissue homeostasis may lead to an altered immune response in old individuals.

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