Glutamate selectively increases the high-threshold Ca channel current in sensory and hippocampal neurons

Previous studies resulted in conflicting conclusions that glutamate application either decreases or increases the activity of Ca²⁺ channels in hippocampal neurons. We studied whole-cell Ca²⁺ currents (I_Ca) in chick dorsal root ganglion neurons and rat hippocampal cells. For both cell types glutamate (1–30 μM) increased high-threshold Ca²⁺ current. It was independent of the charge carriers, Ca²⁺ or Ba²⁺. Low-threshold Ca²⁺ channel current and the fast sodium current were not changed with glutamate application. The effect developed within 1–2 min and then further facilitated after washout of the agonist. A second application of glutamate produced no additional increase in _ICa. No changes in the time-course of whole-cell currents were observed, suggesting that glutamate recruits ‘sleepy’ Ca²⁺ channels. Whatever its mechanism, overlasting increase of I_Ca by glutamate may be important in neuronal plasticity.