EXCITATORY AMINO-ACID RECEPTORS ON SUSTAINED RETINAL GANGLION-CELLS IN THE KITTEN DURING THE CRITICAL PERIOD OF DEVELOPMENT

Effects of iontophoretically applied excitatory amino acid analogues, kainate, quisqualate and N-methyl-d-aspartate (NMDA) and their receptor antagonists on the sustained class of retinal ganglion cells were studied in the optically intact eye of pentobarbitone-anaesthetized kittens (7-9 weeks of age). These results were compared with the effects obtained in adult cats. All 3 excitatory amino acid agonists had excitatory actions on the majority of On- and Off-sustained ganglion cells in the kitten but at higher current levels than those required for adult cells, suggesting all 3 types of receptors of weaker sensitivity are present on the kitten cells. Whilst the relative potency of kainate, quisqualate and NMDA was 15:3:1 in the adult cells, it was 5:2:1 in the kitten cells. As for other neurones in the CNS, an increase in the potency of kainate receptors and a decrease in that of NMDA receptors appear, therefore, to characterize the postnatal development of the excitatory amino acid receptors on the retinal ganglion cells. In accordance with the agonist results, a broadband receptor antagonist, kynurenate, powerfully antagonised responses of kitten cells as well as those of adult cells. The pure NMDA receptor antagonist, 3((±)-2-carboxypiperazin-4-yl)propyl-1-phosphonate (CPP), however, only suppressed spontaneous firing of kitten cells. Furthermore, in kitten cells, the visually-driven firing was depressed while the level of firing was raised by these excitatory amino acid analogues, and a long period of inhibition of firing followed the agonist-induced excitation. These findings suggest that excitatory amino acid receptors on the immature retinal ganglion cells readily saturate and are readily desensitized when depolarized by the excitatory amino acid analogues. © 1990.