Uptake and release of glycine in cerebellar granule cells and astrocytes in primary culture: Potassium-stimulated release from granule cells is calcium-dependent

Effects of increased concentrations of potassium and of hyposmolar conditions on release of taurine were investigated in cerebellar granule neurons cultured from mice. It was found that increases in the external potassium concentration as well as decreases in osmolarity dose-dependent1 y increased r

Taurine uptake in cultured cerebellar granule cells and astrocytes consisted of a saturable high-affinity component and nonsaturable diffusion. The transport constant (Km) was significantly lower and the maximal velocity (V) higher in granule cells than in astrocytes. The uptakes were strictly sodiu

## Abstract A channel open on the membrane can be formed by palytoxin (PTX). Ten nanomolar PTX caused an irreversible increase in the cytosolic calcium concentration ([Ca^2+^]~c~), which was abolished in the absence of external calcium. The increase was eliminated by saxitoxin (STX) and nifedipine

The properties of depolarizationevoked calcium transients are known to change during the maturation of dissociated cerebellar granule neuron cultures. Here, we assessed the role of the calciuminduced calcium release (CICR) mechanism in granule neuron maturation. Both depletion of intracellular calci

Using subtype-specific Ca-channel blockers, we have characterised the voltage-sensitive Ca 21 currents as well as neurotransmitter release from cultured mouse cerebellar granule cells. The whole cell version of the patch clamp technique was adapted to monitor the isolated Ca-channel currents. The cu

## Abstract A glycoprotein that induces γ‐aminobutyric acid (GABA) carriers in cultured cerebellar astrocytes was isolated and purified from conditioned media from cultured cerebellar granule cells by anion exchange chromatography, affinity chromatography, and gel filtration. Following gel filtrati