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Myeloid-derived growth factor regulates neutrophil motility in interstitial tissue damage.

Ruth A HouserightVeronika MiskolciOscar MulvaneyValeriu BortnovDeane F MosherJulie RindyDavid A BenninAnna Huttenlocher
Published in: The Journal of cell biology (2021)
Neutrophil recruitment to tissue damage is essential for host defense but can also impede tissue repair. The cues that differentially regulate neutrophil responses to tissue damage and infection remain unclear. Here, we report that the paracrine factor myeloid-derived growth factor (MYDGF) is induced by tissue damage and regulates neutrophil motility to damaged, but not infected, tissues in zebrafish larvae. Depletion of MYDGF impairs wound healing, and this phenotype is rescued by depleting neutrophils. Live imaging and photoconversion reveal impaired neutrophil reverse migration and inflammation resolution in mydgf mutants. We found that persistent neutrophil inflammation in tissues of mydgf mutants was dependent on the HIF-1α pathway. Taken together, our data suggest that MYDGF is a damage signal that regulates neutrophil interstitial motility and inflammation through a HIF-1α pathway in response to tissue damage.
Keyphrases
  • growth factor
  • oxidative stress
  • gene expression
  • escherichia coli
  • cystic fibrosis
  • wound healing
  • deep learning
  • single molecule
  • innate immune