Solubilization and characterization of kainate receptors from goldfish brain.

The binding of [3H]kainate to goldfish brain membrane fragments was investigated. Scatchard analysis revealed a single class of binding sites in Tris-HCl buffer with a Kd of 352 nM and a Bmax of 3.1 pmol/mg wet weight. In Ringer's saline, [3H]kainate bound with a Bmax of 1.8 pmol/mg wet weight and a Kd of 214 nM. Binding in Ringer's saline, but not Tris-HCl buffer, displayed positive cooperativity with a Hill coefficient of 1.15. The [3H]kainate binding sites were solubilized in Ringer's saline using the nonionic detergent n-octyl-beta-D-glucopyranoside. Approximately 30-50% of the total number of membrane-bound binding sites were recovered on solubilization. The Kd of [3H]kainate for solubilized binding sites was approximately 200 nM. The rank order of potency for glutamatergic ligands at inhibiting [3H]kainate binding was identical and the competitive ligands had similar Ki values in both membranes and solubilized extracts. In membrane preparations, [3H]kainate displayed a two component off-rate with koff values of 0.97 min-1 and 0.07 min-1; in solubilized extracts, however, only a single off-rate (koff = 0.52 min-1) was observed. The hydrodynamic properties of n-octyl-beta-D-glucopyranoside solubilized [3H]kainate binding sites was investigated by sucrose density centrifugation. A single well defined peak was detected which yielded a sedimentation coefficient of 8.3 S. The results presented in this report suggest that goldfish brain may provide an ideal system in which to study kainate receptor biochemistry.