The Epithelial Sodium Channel is a Zinc Sensitive Renal Sodium Reabsorption Pathway that Mediates Zinc Deficiency-induced Hypertension

Background: Zinc deficiency (ZnD) is comorbid with many chronic diseases including kidney disease and diabetes. Individuals in these vulnerable populations have a higher prevalence of hypertension. Recently, we reported that ZnD induces hypertension by promoting renal Na + reabsorption. However, the renal Na + reabsorption mechanisms involved continue to be identified. The renal epithelial Na + channel (ENaC) plays an essential role in regulating whole-body Na + and water balance and is involved in hypertension. We hypothesize that ENaC is a Zn 2+ -sensitive channel that mediates ZnD-induced hypertension. Experimental Design: To establish the role of ENaC in ZnD-induced hypertension, WT C57Bl/6 mice were switched from a Zn 2+ adequate to a Zn 2+ deficient diet for 10 weeks. During weeks 9 and 10, mice were treated with benzamil, an ENaC inhibitor. Systolic blood pressure (BP) was monitored by tail-cuff plethysmography; Renal ENaC expression was examined by immunohistochemistry and Western blot. To authenticate the Zn 2+ sensitivity of ENaC, mouse distal convoluted tubule cells (mDCT) were treated with a Zn 2+ chelator (TPEN) or vehicle (DMSO) for 24 hours. A subset of TPEN-treated cellular monolayers were supplemented with Zn 2+ for 24 hours to replete intracellular Zn 2+ . Cellular ENaC expression was examined by Western blot analysis. Results: B lood pressure: Compared to zinc adequate mice (101.4 mm Hg ± 4.225), zinc deficient mice had increased BP (154.6 mm Hg ± 2.422). However, benzamil treatment lowered BP (115.0 mm Hg ± 4.626) of zinc deficient mice. Immunohistochemistry: Next, Zn 2+ effects on ENaC expression was examined. In zinc deficient mice, αENaC protein abundance significantly increased compared with zinc adequate mice. Western blot analysis: To directly investigate Zn 2+ effects on ENaC expression, in vitro studies were performed using mDCT cells. Western blot analysis showed that TPEN-induced ZnD stimulated both αENaC and βENaC protein expression. Summary: Collectively, our findings reveal that (1) ENaC is a Zn 2+ sensitive renal Na + reabsorption pathway and (2) ENaC mediates ZnD-induced hypertension. Significance: Understanding the renal mechanisms by which Zn 2+ regulates blood pressure may have an important therapeutic impact on hypertension. Funding Source: AHA-16SDG27080009 This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.