Regulation of magnesium homeostasis and transport in mammalian cells

Magnesium is the second most abundant cation within the cell after potassium and plays an important role in numerous biological functions. Several pieces of experimental evidence indicate that mammalian cells tightly regulate Mg2+ content by precise control mechanisms operating at the level of Mg2+ entry and efflux across the cell membrane, as well as at the level of intracellular Mg2+ buffering and organelle compartmentation under resting conditions and following hormonal stimuli. This review will attempt to elucidate the mechanisms involved in hormonal-mediated Mg2+ extrusion and accumulation, as well as the physiological implications of changes in cellular Mg2+ content following hormonal stimuli. (c) 2006 Elsevier Inc. All rights reserved.