IL-17A Orchestrates Reactive Oxygen Species/HIF1a-Mediated Metabolic Reprogramming in Psoriasis

Immune cell -derived IL -17A is one of the key pathogenic cytokines in psoriasis, an immunometabolic disorder. Although IL -17A is an established regulator of cutaneous immune cell biology, its functional and metabolic effects on nonimmune cells of the skin, particularly keratinocytes, have not been comprehensively explored. Using multiomics profiling and systems biology -based approaches, we systematically uncover significant roles for IL -17A in the metabolic reprogramming of human primary keratinocytes (HPKs). High -throughput liquid chromatography -tandem mass spectrometry and nuclear magnetic resonance spectroscopy revealed IL -17A -dependent regulation of multiple HPK proteins and metabolites of carbohydrate and lipid metabolism. Systems -level MitoCore modeling using flux -balance analysis identified IL -17A -mediated increases in HPK glycolysis, glutaminolysis, and lipid uptake, which were validated using biochemical cell -based assays and stable isotoperesolved metabolomics. IL -17A treatment triggered downstream mitochondrial reactive oxygen species and HIF1a expression and resultant HPK proliferation, consistent with the observed elevation of these downstream effectors in the epidermis of patients with psoriasis. Pharmacological inhibition of HIF1a or reactive oxygen species reversed IL -17A -mediated glycolysis, glutaminolysis, lipid uptake, and HPK hyperproliferation. These results identify keratinocytes as important target cells of IL -17A and reveal its involvement in multiple downstream metabolic reprogramming pathways in human skin. The Journal of Immunology, 2024, 212: 302-316.