Plasma membrane calcium ATPase isoforms in astrocytes

## Abstract Plasma membrane Ca^2+^ATPases (PMCAs) export Ca^2+^ from cells in a highly regulated manner, providing fine‐tuning to the maintenance of intracellular Ca^2+^ concentrations. There are few studies of PMCAs in spermatozoa, which is surprising considering the importance of this enzyme in a

A high-affinity calcium-stimulated ATPase (Ca-ATPase) was identified in a plasma membrane subcellular fraction from human liver. The subcellular distribution of the enzyme corresponds to that of classical plasma membrane markers, and its kinetic parameters are identical to those of the Ca-ATPase ide

## Abstract In many cell types, cell death induced by a variety of insults is accompanied by an increase in intracellular calcium. The Ca^2+^ homeostatic mechanisms affected by such insults, however, have not been fully determined. Recent evidence indicates that kainic acid‐induced seizures alter p

## Abstract Experiments were conducted to test the effect of 1 μM ouabain, an Na,K‐ATPase inhibitor, on capacitative calcium entry (CCE) and calcium responses elicited by ATP in rat optic nerve astrocytes. In the rat, 1 μM ouabain is sufficient to inhibit the α2 Na,K‐ATPase, but not the α1. Immorta

Changes in intracellular calcium were monitored in cultured cortical astrocytes stimulated with albumin. Albumin elicited intracellular calcium mobilisation from intracellular stores, inducing repetitive intracellular calcium oscillations. The oscillations were not blocked by ryanodine, a blocker of

## Abstract The ability to deliver calcium to the osteoid is critical to osteoblast function as a regulator of bone calcification. There are two known transmembrane proteins capable of translocating calcium out of the osteoblast, the Na^+^/Ca^2+^ exchanger (NCX) and the plasma membrane Ca^2+^‐ATPas