Functional expression of V-ATPases in the plasma membrane of glial cells

The thrombospondin (TSP) family of extracellular matrix glycoproteins are widely expressed in the developing and adult central nervous system although their function remains poorly defined. We have used cell culture techniques to analyse the expression and function of TSPs in glial cells derived fro

## Abstract The retinae and brains of larval and adult amphibians survive long‐lasting anoxia; this finding suggests the presence of functional K~ATP~ channels. We have previously shown with immunocytochemistry studies that retinal glial (Müller) cells in adult frogs express the K~ATP~ channel and

## 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

Plasma can leak into the nervous system when the vascular endothelial barrier is compromised. Although this occurs commonly, little is known about the effects of plasma on the function of cells in the central nervous system. In this study, we focused on the responses of glial cells, which, because t

Targeting of proteins to the plasma membrane of cells may be useful for vaccine development, tissue engineering, genetic research, bioseparations, and disease treatment. The ability of different transmembrane domains (TM) to direct a reporter protein (human alphafeto protein, AFP) to the surface of

Two membrane-localized transporter proteins (GLYT1 and GLYT2) are responsible for removal of extracellular glycine in the mammalian CNS. Whereas GLYT1 seems to be expressed mainly in glial cells, GLYT2 is neuronal. The highest concentrations of both transporters are found in glycinergic areas of the