Chronic Cyclosporine-A treatment is associated with serious side effects, including kidney toxicity and anemia. Although pathophysiology of Cyclosporine-A-induced kidney injury remains incompletely understood, hypoxia is likely involved. Here, we investigated the effect of the hypoxia inducible factor activator daprodustat on Cyclosporine-A -induced kidney toxicity. As Cyclosporine-A profoundly alters protein phosphorylation by inhibiting the phosphatase calcineurin, special attention was directed towards the kidney phospho-proteome. Mice received Cyclosporine-A with or without daprodustat for up to eight weeks. In kidney homogenates, 1360 selected proteins were analyzed at expression and phosphorylation levels. Of these, Cyclosporine-A changed the expression of 79 and the phosphorylation of 86 proteins. However, when Cyclosporine-A treatment was combined with daprodustat, the expression of 95 proteins and phosphorylation of only six proteins was altered suggesting that daprodustat prevented most protein phosphorylation brought about by Cyclosporine-A. Although daprodustat showed only marginal effect on its own, angiogenesis-related pathways were among the most profoundly impacted by daprodustat when given on top of Cyclosporine-A. Additionally, Cyclosporine-A lowered the blood hemoglobin concentration and caused kidney capillary rarefaction, which daprodustat prevented. Thus, combined daprodustat/Cyclosporine-A treatment prevented deleterious Cyclosporine-A effects on microcirculation and hemoglobin, and the protective action of daprodustat involves suppression of broad protein phosphorylation changes caused by Cyclosporine-A.
Keywords: CsA nephrotoxicity; GSK-1278863; HIF prolyl hydroxylase (PHD) inhibitor; cyclosporine-A; daprodustat; nephropathy.
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