ELECTROPHYSIOLOGICAL AND PHARMACOLOGICAL PROPERTIES OF GLUR1, A SUBUNIT OF A GLUTAMATE RECEPTOR-CHANNEL EXPRESSED IN XENOPUS OOCYTES

A cDNA clone encoding an excitatory amino acid receptor was isolated from a rat brain cDNA library by Hollmann et al. (Nature, 342 (1989) 643-648). In Xenopus oocytes, this clone, GluR1, expressed a functional receptor-channel activated by kainate (KA), domoate (D), glutamate and quisqualate (QA). The apparent affinity (EC50) for QA (0.1-mu-M) was higher than that for KA (50-mu-M). The maximal response to QA was about 1/10 of that to KA. QA inhibited the KA induced current. The N-methyl-D-aspartate (non-NMDA) receptor antagonist 6,7-dinitroquinoxaline-2,3 dione (DNQX) competitively blocked the effects of both agonists. Currents induced by KA, QA and D in oocytes expressing GluR1 showed identical voltage sensitivities. GluR1 and KA receptor-channels expressed from rat striatum poly(A)+ RNA showed the same ionic selectivity, being permeable mostly to Na+ and K+. The current-voltage relationships of GluR1 showed a strong inward rectification, whereas those of KA receptor-channels expressed from poly(A)+ RNA from various rat brain regions were more linear.