Irreversible Inhibition of High-Affinity [3H]Kainate Binding by a Novel Photoactivatable Analogue: (2'S,3'S,4'R)-2'-Carboxy-4'-(2-Diazo-1-Oxo-3,3,3-Trifluoropropyl)-3'-Pyrrolidinyl Acetate

Abstract: A photolabile trifluoromethyldiazoketone derivative of kainate (KA), (2' S ,3' S ,4' R )-2'-carboxy-4'-(2-diazo-1-oxo-3,3,3-trifluoropropyl)-3'-pyrrolidinyl acetate (DZKA), was synthesized and evaluated as an irreversible inhibitor of the high-affinity KA site on rat forebrain synaptic plasma membranes (SPMs). In the absence of UV irradiation, DZKA preferentially blocked [³H]KA binding with an IC₅₀ of 0.63 µ M , a concentration that produced little or no inhibition at AMPA or NMDA sites. At 100 µ M , however, DZKA inhibited [³H]AMPA and l -[³H]glutamate binding by ∼50%. When examined electrophysiologically in HEK293 cells expressing human KA (GluR6) or AMPA (GluR1) subtypes, DZKA acted preferentially at KA receptors as a weak agonist. DZKA also exhibited little or no excitotoxic activity in mixed rat cortical cultures. Irreversible inhibition was assessed by pretreating SPMs with DZKA (50 µ M ) in the presence of UV irradiation, removing unbound DZKA, and then assaying the reisolated SPMs for radioligand binding. This protocol produced a selective and irreversible loss of ∼50% of the [³H]KA sites. The binding was recoverable in SPMs pretreated with DZKA or UV alone. Coincubation with l -glutamate prevented the loss in [³H]KA binding, suggesting that the inactivation occurred at or near the ligand binding site. These results are consistent with the action of DZKA as a photoaffinity ligand for the KA site and identify the analogue as a valuable probe for future investigations of receptor structure and function.