NADPH oxidase controls pulmonary neutrophil infiltration in the response to fungal cell walls by limiting LTB4

Zhimin Song, Guangming Huang, Luana Chiquetto Paracatu, Derayvia Grimes, Jiwei Gu, Cli J. Luke, Regina A. Clemens, Mary C. Dinauer

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

Leukocyte reduced NADP (NADPH) oxidase plays a key role in host defense and immune regulation. Genetic defects in NADPH oxidase result in chronic granulomatous disease (CGD), characterized by recurrent bacterial and fungal infections and aberrant inflammation. Key drivers of hyperinflammation induced by fungal cell walls in CGD are still incompletely defined. In this study, we found that CGD (CYBB) neutrophils produced higher amounts of leukotriene B4 (LTB4) in vitro Skip aftertoactivation Main Content with zymosan or immune complexes, compared with wild-type (WT) neutrophils. This finding correlated with increased calcium influx in CGD neutrophils, which was restrained in WT neutrophils by the electrogenic activity of NADPH oxidase. Increased LTB4 generation by CGD neutrophils was also augmented by paracrine cross talk with the LTB4 receptor BLT1. CGD neutrophils formed more numerous and larger clusters in the presence of zymosan in vitro compared with WT cells, and the effect was also LTB4- and BLT1-dependent. In zymosan-induced lung inflammation, focal neutrophil infiltrates were increased in CGD compared with WT mice and associated with higher LTB4 levels. Inhibiting LTB4 synthesis or antagonizing the BLT1 receptor after zymosan challenge reduced lung neutrophil recruitment in CGD to WT levels. Thus, LTB4 was the major driver of excessive neutrophilic lung inflammation in CGD mice in the early response to fungal cell walls, likely by a dysregulated feed-forward loop involving amplified neutrophil production of LTB4. This study identifies neutrophil LTB4 generation as a target of NADPH oxidase regulation, which could potentially be exploited therapeutically to reduce excessive inflammation in CGD.

Original languageEnglish
Pages (from-to)891-903
Number of pages13
JournalBlood
Volume135
Issue number12
DOIs
StatePublished - Mar 19 2020

Keywords

  • And Myelopoiesis
  • Granulocytes
  • Phagocytes
  • Plenary Papers

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