First published August 15, 2019 - More info
We hypothesized that the store operated calcium entry (SOCE) channel, Orai1, participates in the activation of T-helper (Th17) cells and influences renal injury. In rats following renal ischemia/reperfusion (I/R), there was a rapid and sustained influx of Orai1+ CD4 T-cells and IL17 expression was restricted to Orai1-positive cells. When kidney CD4+ cells of post-AKI rats were stimulated with angiotensin II and elevated Na+ (10-7M/170 mM) in vitro, there was an enhanced response in intracellular Ca2+ and IL17 expression, which was blocked by SOCE inhibitors 2APB, YM58483/BTP2, or AnCoA4. In vivo, YM58343/BTP2 (1 mg ∙ kg-1) attenuated IL17+ cell activation, inflammation and severity of AKI following either I/R or intramuscular glycerol injection. Rats treated with high-salt diet (5-9 weeks post I/R) manifested progressive disease indicated by enhanced inflammation, fibrosis and impaired renal function. These responses were significantly attenuated by YM58343/BTP2. In peripheral blood of critically ill patients, Orai1+ cells were significantly elevated by ~10-fold and Th17 cells were elevated by ~4 fold in AKI vs non-AKI patients. Further, in vitro stimulation of CD4+ cells from AKI patients increased IL17, which was blocked by SOCE inhibitors. These data suggest that Orai1 SOCE is a potential therapeutic target in AKI and CKD progression.