Abstract

Introduction: Transient Receptor Potential Melastatin 7 (TRPM7) channel is a channel bound to a kinase domain that influences cellular Mg 2+ with an important role in inflammatory response and cell metabolism. TRPM7 is regulated by aldosterone. Here, we investigated the importance of TRPM7-Mg2+ in pro-fibrotic responses and oxidative stress in cardiac fibroblasts (CF) in the context of hypertension and organ damage induced by aldosterone. Methods: Wild-type (WT) and TRPM7-deficient (M7+/Δ) mice were treated with aldosterone (600µg/Kg/day) plus NaCl (1% drinking water), 4 weeks. Mechanisms were investigated in primary culture of CF. Ca 2+ and Mg 2+ influx was assessed by fluorescence microscopy and flow cytometry. Gene and protein expression was assessed by real-time PCR and immunoblotting. Proteomic analysis was performed in two-dimensional liquid chromatography and mass spectrometry (LC/LC-MS/MS). Results: M7+/Δ mice exhibited reduced tissue [Mg 2+ ] (28%) and increased cardiac collagen deposition (2-fold). Aldosterone-induced fibrosis and hypertension were enhanced in M7+/Δ. CF M7+/Δ had reduced aldosterone-induced calcium influx (136±6 vs WT:166±7) and Mg 2+ influx (1.05±0.05 vs WT 1.14±0.02). CF M7+/Δ exhibit increased expression of calpain-1(300%), α-SMA(80%), collagen-1 (50%), mineralocorticoid receptor target proteins ENaC(70%) and SGK1(30%) and reduced proliferation(33%) vs WT(p<0.05). Aldosterone reduced TRPM7 (44%) and increased expression of ENaC (150%) and collagen-1 (93%) in CF WT to similar levels observed in CF M7+/Δ. CF M7+/Δ exhibit increased Nox2(70%), Nox4(120%) and ROS production (1,362 vs WT: 899 RLU/mg protein). Increased mRNA for the antioxidant catalase, NQO1 and Prdx1 (1.7-2.6-fold) was found in M7+/Δ CF. Mg 2+ supplementation normalised Ca 2+ and Mg 2+ influx, proliferation and expression of SGK1, Nox4, catalase and NQO1, whereas other effects might be mediated by the kinase domain. Proteomic analysis showed that CF M7+/Δ exhibit reduced expression of proteins related to cell migration and proliferation (Tnc, Cdcc80, Crip1, Ggt5) cell cycle and differentiation (AnxA8, Rpl22, Prickle2) and cell metabolism (Marcks, Mtab, Ces1d, Serpina3n, Afap1l1). Conclusion: Our findings demonstrate that in aldosterone-treated mice TRPM7 expression and tissue Mg 2+ levels are decreased. These processes are associated with cardiac fibrosis and oxidative stress. Our findings suggest a cardio-protective role for TRPM7/Mg2+ in aldosterone-induced hypertension.

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