Evidence for the Corelease of Dynorphin and Glutamate from Rat Hippocampal Mossy Fiber Terminals

Abstract

Hippocampal mossy fiber (MF) nerve endings may be isolated in a subcellular fraction (P₃) that releases both prodynorphin-derived peptides and glutamate (Glu) in a calcium-dependent manner when depolarized. However, this isolation procedure does not yield a pure preparation of MF synaptosomes. The present study evaluates the proportion of dynorphin (Dyn) and Glu that is released from synaptosomes in the P₃ fraction that are of MF origin. We have addressed this issue by determining the degree to which a selective lesion of the dentate granule cell/MF system in vivo concomitantly reduces the exocytosis of Dyn and Glu from the P₃ subcellular fraction. Unilateral injections of colchicine into the dentate gyrus resulted in a substantial and selective degeneration of the granule cell/ MF pathway in the rat hippocampal formation. The overall integrated density of the Timm-stained band, which corresponds to the position of the MF terminal field, was estimated to be reduced by 75%. After this extensive loss of MF boutons, the K⁺-evoked release of Dyn and Glu from the P₃ fraction was reduced by 95 and 51 %, respectively. The loss of Timm staining and evoked Dyn release indicate that colchicine effectively eliminated MF synaptosomes from the P₃ fraction. Those subcellular entities that were not destroyed by colchicine comprised ∼50% of the protein and evoked Glu release measured by using the P₃fraction. In addition, the present results demonstrate that the inhibitory potency of the K opioid agonist U-50.488H was not altered by the elimination of MF boutons from this synaptosomal preparation. This finding indicates that U-50,488H is capable of suppressing Glu exocytosis from both MF and non-MF synaptosomes. These results are consistent with the hypothesis that Dyn peptides and Glu are coreleased from hippocampal MF terminals.