[3H]taurine and D-[3H]aspartate release from astrocyte cultures are differently regulated by tyrosine kinases

Volume-dependent anion channels permeable forCl and amino acids arethought to play an important role in the homeostasis of cell volume.Astrocytes are the main cell type in the mammalian brain showing volumeperturbations under physiological and pathophysiological conditions. Weinvestigated the involvement of tyrosine phosphorylation in hyposmoticmedium-induced³H]taurine andD-³H]aspartaterelease from primary astrocyte cultures. The tyrosine kinase inhibitorstyrphostin 23 and tyrphostin A51 partially suppressed thevolume-dependent release of³H]taurine in adose-dependent manner with half-maximal effects at ~40 and 1 µM,respectively. In contrast, the release ofD-³H]aspartatewas not significantly affected by these agents in the sameconcentration range. The inactive analog tyrphostin 1 hadno significant effect on the release of both amino acids. The dataobtained suggest the existence of at least two volume-dependent anionchannels permeable to amino acids in astrocyte cultures. One of thesechannels is permeable to taurine and is under the control of tyrosinekinase(s). The other is permeable to both taurine and aspartate, butits volume-dependent regulation does not require tyrosine phosphorylation.