State-dependent cross-inhibition between anionic GABAA and glycine ionotropic receptors in rat hippocampal CA1 neurons

Abstract

Using whole-cell patch-clamp recording of acutely isolated rat hippocampal CA1 neurons, we studied the state-dependent cross-inhibition between anionic GABA_A and glycine (Gly) ionotropic receptors. Co-application of relatively high concentrations of GABA and Gly produced a total current (I_{GABA + Gly}) much smaller than the linear summation of the two individual responses. The mutual inhibition between I_GABA and I_Gly was voltage-independent. However, no current inhibition was observed with co-application of low concentrations of these two agonists. The hippocampal neurons lacking Gly response (I_Gly) showed no current inhibition with GABA current (I_GABA), whereas the neurons losing GABA response (I_GABA) (after complete rundown of I_GABA) showed no current inhibition with I_Gly. The current inhibition was also absent in the presence of Gly or GABA_A receptor antagonists, strychnine or bicuculline, respectively. The results indicate that cross-inhibition between GABA_A and Gly receptors is state-dependent and a direct receptor-receptor interaction might enable the cross-inhibition to occur.