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Gut-derived peptidoglycan remotely inhibits bacteria dependent activation of SREBP by Drosophila adipocytes.

Bernard CharrouxJulien Royet
Published in: PLoS genetics (2022)
Bacteria that colonize eukaryotic gut have profound influences on the physiology of their host. In Drosophila, many of these effects are mediated by adipocytes that combine immune and metabolic functions. We show here that enteric infection with some bacteria species triggers the activation of the SREBP lipogenic protein in surrounding enterocytes but also in remote fat body cells and in ovaries, an effect that requires insulin signaling. We demonstrate that by activating the NF-κB pathway, the cell wall peptidoglycan produced by the same gut bacteria remotely, and cell-autonomously, represses SREBP activation in adipocytes. We finally show that by reducing the level of peptidoglycan, the gut born PGRP-LB amidase balances host immune and metabolic responses of the fat body to gut-associated bacteria. In the absence of such modulation, uncontrolled immune pathway activation prevents SREBP activation and lipid production by the fat body.
Keyphrases
  • cell wall
  • adipose tissue
  • signaling pathway
  • type diabetes
  • fatty acid
  • induced apoptosis
  • single cell
  • immune response
  • skeletal muscle
  • mouse model
  • weight loss
  • gestational age
  • bacillus subtilis
  • high fat diet induced