Calcium signaling is used by neurons to control a variety of functions, including cellular differentiation, synaptic maturation, neurotransmitter release, intracellular signaling and cell death. This review focuses on one of the most important Ca(2+) regulators in the cell, the plasma membrane Ca(2+)-ATPase (PMCA), which has a high affinity for Ca(2+) and is widely expressed in brain. The ontogeny of PMCA isoforms, linked to specific requirements of Ca(2+) during development of different brain areas, is addressed, as well as their function in the adult tissue. This is based on the high diversity of variants in the PMCA family in brain, which show particular kinetic differences possibly related to specific localizations and functions of the cell. Conversely, alterations in the activity of PMCAs could lead to changes in Ca(2+) homeostasis and, consequently, to neural dysfunction. The involvement of PMCA isoforms in certain neuropathologies and in brain ageing is also discussed.
Keywords: ATPase; Brain; Calcium; Differentiation; Neurodegeneration; Plasma membrane.