Hypoxia drives murine neutrophil protein scavenging to maintain central carbon metabolism

Emily R. Watts, Andrew J.M. Howden, Tyler Morrison, Pranvera Sadiku, Jens Hukelmann, Alex von Kriegsheim, Bart Ghesquiere, Fiona Murphy, Ananda S. Mirchandani, Duncan C. Humphries, Robert Grecian, Eilise M. Ryan, Patricia Coelho, Gio Rodriguez Blanco, Tracie M. Plant, Rebecca S. Dickinson, Andy Finch, Wesley Vermaelen, Doreen A. Cantrell, Moira K. WhyteSarah R. Walmsley*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

19 Citations (Scopus)
21 Downloads (Pure)

Abstract

Limiting dysfunctional neutrophilic inflammation while preserving effective immunity requires a better understanding of the processes that dictate neutrophil function in the tissues. Quantitative mass-spectrometry identified how inflammatory murine neutrophils regulated expression of cell surface receptors, signal transduction networks, and metabolic machinery to shape neutrophil phenotypes in response to hypoxia. Through the tracing of labeled amino acids into metabolic enzymes, proinflammatory mediators, and granule proteins, we demonstrated that ongoing protein synthesis shapes the neutrophil proteome. To maintain energy supplies in the tissues, neutrophils consumed extracellular proteins to fuel central carbon metabolism. The physiological stresses of hypoxia and hypoglycemia, characteristic of inflamed tissues, promoted this extracellular protein scavenging with activation of the lysosomal compartment, further driving exploitation of the protein-rich inflammatory milieu. This study provides a comprehensive map of neutrophil proteomes, analysis of which has led to the identification of active catabolic and anabolic pathways that enable neutrophils to sustain synthetic and effector functions in the tissues.

Original languageEnglish
Article numbere134073
Number of pages17
JournalJournal of Clinical Investigation
Volume131
Issue number10
Early online date6 Apr 2021
DOIs
Publication statusPublished - 17 May 2021

Keywords

  • carbon
  • cell hypoxia
  • lysosomes
  • protein biosynthesis

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