Changes of proenkephalin and prodynorphin mRNAs and related peptides in rat brain during the development of deep prepyriform cortex kindling

Abstract

The effects of deep prepyriform cortex (DPC) kindling on the amount of proenkephalin and prodynorphin mRNAs, Met 5-enkephalin (ME) and dynorphin (DYN) in rat brain were examined. Animals received electrical stimulation of the DPC until two consecutive stage 2 seizures (S2) or stage 5 seizures (S5) were attained. The proenkephalin mRNA and ME contents in the entorhinal cortex were increased 24 h after S2 and also 5 min and 24 h post S5. In the hippocampus, the proenkephalin mRNA level was reduced 24 h after S2 but increased 5 min and 24 h after S5. Elevated hippocampal ME concentration was observed 24 h after S2 and S5. Similarly, the ME level in the frontal cortex was increased 24 h after S2 and S5 but the proenkephalin mRNA content was only elevated at S5. In the striatum, the proenkephalin mRNA level was slightly increased 24 h after S2 and S5, but no change in ME content was found. The amount of prodynorphin mRNA in the hippocampus was attenuated only at 24 h after S5, whereas DYN concentration was reduced 5 min after S5. No change in striatal DYN concentration was observed despite a slight elevation of prodynorphin mRNA 24 h post S2 and S5. Six weeks after the last seizure, no difference in ME and DYN was found between kindled and control animals. These findings indicate that the enkephalin-containing perforant pathway in the entorhinal cortex-hippocampal region is particularly sensitive to electrical stimulations applied to the DPC. Its role and importance in the development of kindling are discussed.