Abstract Background and Aims Recent studies have demonstrated that urinary and serum hepcidin predicted the incidence of acute kidney injury (AKI) among critically ill patients. As an endogenous acute phase hormone, hepcidin is synthesized not only by the liver but also secreted by distal nephron. However, the autocrine impact of hepcidin secreted by distal nephron on collecting duct cells in AKI remains poorly understood. Method We determined the expression and location of hepcidin in murine kidney in different severity of bilateral ischemia/reperfusion (bIRI) induced AKI model with ischemic duration for 20 min and 32 min. The effect of renal endogenous hepcidin was explored in cultured M-1 (Murine Cortical collecting duct) exposed to hypoxia/reoxygenation (H/R), as well as in bIRI mice with collecting duct-specific overexpression of hepcidin. Transgenic mice were generated by genetic cross between Hepcidin floxed mice which knocked the gene fragment of CAG-LSL-mHamp-flag-WPRE-PolyA into H11 locus and Cdh16-cre mice. Mechanistically, RNA-seq was performed in M-1 cells under H/R condition. Results The expression of renal endogenous hepcidin was significantly elevated in bIRI32min mice compared to both bIRI20min and sham group, suggesting that augmented secretion of hepcidin was induced by more severe AKI. Interestingly, renal endogenous hepcidin was mainly localized to distal convoluted tubule and collecting tubule as indicated by its co-staining with AQP2 and Calbindin-D28k in the kidney. To investigate the role of hepcidin in collecting duct, M-1 cells were cultured under hypoxia condition. We observed remarkable ferroptosis in collecting duct cells other than apoptosis nor necroptosis. Subsequently, hepcidin knockdown further exacerbated ferroptosis under H/R condition, as evidenced by an upregulation of PTGS2 expression and downregulation of GXP4 expression, lower proportion of GSH/GSSG ratio as well as enhanced lipid peroxide accumulation and production of Fe2+. Then, RNA-seq data revealed that hepcidin knockdown promoted the enrichment of genes related to oxidative stress and glutathione metabolic pathway which may be responsible for the deterioration of ferroptosis. To investigate the role of hepcidin in vivo, bIRI induced AKI was established in Cdh16-cre+Hepcidinflox/+ mice. We observed remarkable overexpression of Hepcidin-Flag localized to collecting duct and interstium area. Impressively, Cdh16-cre+Hepcidinflox/+ mice showed ameliorated renal dysfunction adrenal tubule injury histologically. Ferroptosis of renal was alleviated in Cdh16-cre+Hepcidinflox/+ mice as confirmed by an upregulation of GPX4 expression and downregulation of PTGS2, ACSL4, FPN expression, higher proportion of GSH/GSSG ratio, as well as reduced lipid peroxide accumulation and production of Fe2+ by Lipofluo (lipid peroxides) and FerroOrange (Fe2+) staining on frozen section of kidney. Ferroptosis of the collecting duct was alleviated as indicated by downregulation of PTGS2 expression which co-staining with AQP2. To demonstrate the beneficial role of hepcidin, exogenous hepcidin was applied to bIRI induced AKI mice to strengthen the endogenous protective response. Conclusion Renal endogenous hepcidin is induced in the distal tubule and collecting duct after AKI as a protective response via alleviating ferroptosis of collecting duct. Hepcidin may represent a novel therapeutic approach to promote tubule repair by targeting ferroptosis for AKI.
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