Alterations of the Cerebellar Inhibitory Interneurons and Inhibitory Synapse Following KA-induced Seizures / 대한해부학회지

Most epileptic patients have commonly suffered from recurrent seizures for many years. These seizures are usually associated with inhibitory synaptic reorganization of the hippocampal region, but it is not known whether cerebellar inhibitory synaptic changes can be induced by seizure activity. We sought to determine the pattern of cerebellar alterations in the cerebellar inhibitory interneurons (basket and stellate cells) and then tested if the alterations are associated with their synaptic transmission at the cerebellar GABAergic synapses between inhibitory interneurons and Purkinje cells after systemic kainic acid administration by immunohistochemistry, western blot analysis, dot blot analysis and confocal microscopy. A dramatic increase of the intensity of GAP-43 immunostaining was obvious in the pinceau structures following KA-induced seizures and the intense GAP-43 immunoreaction involved in high expression of PKC-sigma. The activation of the presynaptic terminal at the cerebellar inhibitory synapse is accompanied with strong GABA immunoreactivity in pinceau region (especially 48 h) after KA-seizures. These results suggest a possibility that KA-seizures increase the release of GABA at the cerebellar inhibitory presynaptic terminal and it would be contribute to the depression of Purkinje cell activity, disinhibition, during the epileptogenesis.

Ultrastructural Analysis of GABA- and Glycine-Immunoreactive Nerve Terminals on Jaw-Closing and Jaw-Opening Motoneurons in the Rat / 대한해부학회지

Previous studies have shown that inhibitory synaptic inputs are different between in spinal and trigeminal motor systems and activities of jaw closing and opening alpha motoneurons are different during a chewing cycle. This study examined the distribution of inhibitory synapses made on masseter and digastric motoneurons by using retrograde tracing of wheat germ agglutinin conjugated to horseradish peroxides (WGA-HRP) combined with postembedding immunogold labeling on serial ultrathin sections.Many boutons IR (immunoreactive) to GABA and/or glycine were found to appose on two kinds of motoneurons, which were containing pleomorphic vesicles (a mixture of round, oval and flattened vesicles) and exhibited symmetrical synaptic contacts on the somata. Packing density and synaptic covering % were higher in digastric than in masseter motoneurons. Of 703 boutons apposing on 12 masseter motoneurons, 6.08+/-3.51, 29.67+/-8.89 and 17.78+/-5.22% were IR to GABA only, glycine only, and both GABA and glycine, respectively. Of 637 boutons apposing on 11 digastric motoneurons, 6.37+/-4.64, 19.74+/-8.25 and 12.01+/-5.38% were IR to GABA only, glycine only, and both GABA and glycine, respectively. Proportions of glycine IR boutons were higher than that of GABA IR boutons in both masseter and digastric motoneurons. Packing density and proportion of boutons IR to GABA and/or glycine were higher in jaw closing than in jaw opening motoneurons (packing density, 12.03+/-1.58 vs 10.28+/-2.99; proportion of IR boutons, 53.54+/-8.94% vs 38.12+/-9.38% in jaw closing and opening motoneurons, respectively). These results provide ultrastructural evidence that GABA and glycine act as important neurotransmitters for modulation of jaw movement and that proportion of inhibitory synapses is higher in jaw closing than in jaw opening motoneurons.