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Androgen signaling restricts glutaminolysis to drive sex-specific Th17 metabolism in allergic airway inflammation

Nowrin U. Chowdhury, Jacqueline-Yvonne Cephus, Emely Henriquez Pilier, Melissa M. Wolf, Matthew Z. Madden, Shelby N Kuehnle, Kaitlin E McKernan, Erin Q. Jennings, Emily N. Arner, Darren R. Heintzman, Channing Chi, Ayaka Sugiura, Matthew T. Stier, Kelsey Voss, Xiang Ye, Kennedi L Scales, Evan Krystofiak, Vivek Gandhi, Robert D. Guzy, Katherine N. Cahill, Anne I. Sperling, R. Stokes Peebles, Jeffrey C. Rathmell, Dawn C. Newcomb

2024Journal of Clinical Investigation30 citationsDOIOpen Access PDF

Abstract

Female individuals have an increased prevalence of many Th17 cell-mediated diseases, including asthma. Androgen signaling decreases Th17 cell-mediated airway inflammation, and Th17 cells rely on glutaminolysis. However, it remains unclear whether androgen receptor (AR) signaling modifies glutamine metabolism to suppress Th17 cell-mediated airway inflammation. We show that Th17 cells from male humans and mice had decreased glutaminolysis compared with female individuals, and that AR signaling attenuated Th17 cell mitochondrial respiration and glutaminolysis in mice. Using allergen-induced airway inflammation mouse models, we determined that females had a selective reliance upon glutaminolysis for Th17-mediated airway inflammation, and that AR signaling attenuated glutamine uptake in CD4+ T cells by reducing expression of glutamine transporters. In patients with asthma, circulating Th17 cells from men had minimal reliance upon glutamine uptake compared to Th17 cells from women. AR signaling thus attenuates glutaminolysis, demonstrating sex-specific metabolic regulation of Th17 cells with implications for Th17 or glutaminolysis targeted therapeutics.

Topics & Concepts

GlutaminolysisInflammationImmunologyMetabolismMedicineEndocrinologyGlycolysisAsthma and respiratory diseasesPediatric health and respiratory diseases
Androgen signaling restricts glutaminolysis to drive sex-specific Th17 metabolism in allergic airway inflammation | Litcius