Potassium and Taurine Release Are Highly Correlated with Regulatory Volume Decrease in Neonatal Primary Rat Astrocyte Cultures

Abstract: Neonatal rat primary astrocyte cultures were swollen by exposure to hypotonic buffer. Using an electrical impedance method for determination of cell volume coupled with on-line measurements of efflux of radioactive ions or amino acids, we have investigated the role of K⁺ (using ⁸⁶Rb), taurine, and d -aspartate (an analogue of glutamate) in regulatory volume decrease (RVD). Addition of 1 m M quinine, 10 µ M nimodipine, 100 µ M BAPTA-AM, 10 µ M trifluoperazine, or a calcium-free buffer significantly ( p < 0.0001) inhibited RVD. This was accompanied by inhibition of ⁸⁶Rb release but an increase in d -³H]-aspartate release, which was proportional to the degree to which RVD was inhibited. These results support a regulatory role for calcium in RVD and show that inhibition of calcium entry from the extracellular fluid, intracellular calcium sequestration, inhibition of calcium-activated K⁺ channels, and inhibition of calmodulin all inhibit RVD. Because d -³H]aspartate efflux profiles increase as RVD is inhibited, it is unlikely that d -aspartate release is a main determinant of RVD. In contrast, ³H]taurine release was increased by 1 m M quinine and inhibited by 10 µ M trifluoperazine. The net release of K⁺ and taurine is highly correlated with the degree of RVD, implicating a regulatory role for both K⁺ and taurine release in RVD.