Kainic acid and seizure-induced Fos in subtypes of cerebrocortical neurons.

Kainic acid injected in vivo into adult rats evokes the expression of the immediate early gene c-fos in the dentate gyrus and associated structures before a seizure occurs and in these and additional regions after a single motor seizure. The aim of this study was to identify cortical cell classes expressing Fos that correlate with these phenomena. Fos expression occurred before a seizure in the middle layers of entorhinal cortex in excitatory neurons and predominantly in calbindin D28-K-containing inhibitory neurons. Given the early Fos-labeling of these cells, we suggest they are associated with the hippocampal EEG events also seen at this stage of the effects of kainic acid. After a motor seizure Fos induction occurred in primary motor, sensory, piriform and entorhinal cortices, mainly in excitatory neurons, but also in a proportion of calcium binding protein-containing neurons proportionate to the degree of activation of the region as determined by Fos. Nearly 100% of neurons were Fos+ in entorhinal cortex, whereas 80% of excitatory and 50% of calcium binding protein-containing neurons were Fos+ in piriform cortex with lower proportions in neocortex. Of the calcium binding protein-containing neocortical neurons, calbindin D28-K cells exhibited the highest proportion of double labeling with Fos. This pattern of neocortical activation by kainic acid, a glutamate agonist, is only slightly different to that seen after seizures caused by blockade of gamma aminobutyric acid receptors suggesting that seizures caused by different mechanisms utilize similar neo-cortical circuitry.