Abstract

Abstract Women have higher rates of severe asthma compared to men. Severe asthma has increased Th2-mediated eosinophilic and/or Th17-mediated neutrophilic airway inflammation. We showed androgens, signaling through the androgen receptor (AR), decreased Th2- and Th17-mediated airway inflammation, and that Th17 and Th2 rely on glutaminolysis during allergic airway inflammation. Therefore, we hypothesized that AR signaling decreases glutaminolysis in Th2 and Th17 cells, resulting in decreased airway inflammation. Th2 and Th17 were differentiated in vitro from wild-type male and ArTfm male mice, with a nonfunctional AR. Mitochondrial metabolism and glycolysis were determined by measuring oxygen consumption rate (OCR), reactive oxygen species (ROS), and the extracellular acidification rate (ECAR). In Th17 cells, AR signaling decreased OCR, while increasing mitochondrial ROS, suggesting decreased glutaminolysis. Further, both 5α-DHT (0.1nM) and CB839 (a glutaminase inhibitor, 0.5μM) reduced OCR in Th17 cells from male mice. AR signaling had no effect on ECAR in Th17 cells or OCR and ECAR in Th2 cells. To induce eosinophilic and neutrophilic airway inflammation, house dust mite (HDM) was intranasally administered to ArfloxedCD4-Cre and Arfloxed male mice and markers of glycolysis and glutaminolysis were determined by flow cytometry. AR signaling decreased airway neutrophils, the number of Th17 lung cells, and GLUD1, a glutaminolysis marker, expression in T cells, but had no effect on eosinophils or Th2 cells. Combined, these data showed that AR signaling decreased glutaminolysis in Th17, but not Th2, cells. Understanding these pathways may provide new potential therapeutic targets in women with difficult-to-treat asthma. Supported by grants from NIH (R01 HL12254, R01 HL136664, T32 GM007347)

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