Kidney Dis (Basel) 2017[Dec]; 3 (3): 85-97 PMID29344503show ga
BACKGROUND: Magnesium (Mg(2+)), the second most abundant cation in the cell, is woven into a multitude of cellular functions. Dysmagnesemia is associated with multiple diseases and, when severe, can be life-threatening. SUMMARY: This review discusses Mg(2+) homeostasis and function with specific focus on renal Mg(2+) handling. Intrarenal channels and transporters related to Mg(2+) absorption are discussed. Unraveling the rare genetic diseases with manifestations of dysmagnesemia has greatly increased our understanding of the complex and intricate regulatory network in the kidney, specifically, functions of tight junction proteins including claudin-14, -16, -19, and -10; apical ion channels including: TRPM6, K(v)1.1, and ROMK; small regulatory proteins including AC3 and ANK3; and basolateral proteins including EGF receptor, gamma-subunit (FXYD2) of Na-K-ATPase, K(ir)4.1, CaSR, CNNM2, and SLC41A. Although our understanding of Mg(2+) handling of the kidney has expanded considerably in the last two decades, many questions remain. Future studies are needed to elucidate a multitude of unknown aspects of Mg(2+) handling in the kidney. KEY MESSAGE: Understanding rare and genetic diseases of Mg(2+) dysregulation has expanded our knowledge and furthers the development of strategies for preventing and managing dysmagnesemia.