Rapid Regulation of GAD67 mRNA and Protein Level in Cortical Neurons After Sensory Learning

doi:10.1093/cercor/11.9.806

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Cerebral Cortex, Vol. 11, No. 9, 806-815, September 2001
© 2001 Oxford University Press

Rapid Regulation of GAD67 mRNA and Protein Level in Cortical Neurons After Sensory Learning

M. Gierdalski, B. Jablonska, E. Siucinska, M. Lech, A. Skibinska and M. Kossut

The Nencki Institute of Experimental Biology, Department of Neurophysiology, 3 Pasteur Street, 02-093 Warsaw, Poland

Cortical representations of different modalities can be modifiedby sensory learning. Our previous studies in the barrel cortexshowed that expansion of the cortical representation of a rowof vibrissae could be induced by pairing stimulation of a rowof vibrissae with a tail shock. The plastic change in corticalreactivity to the input used during the training was accompaniedby increased density of GABA immunoreactive neurons in the involvedrow of cortical barrels. Using the same paradigm, the presentstudy examined the pathway of GABA synthesis-expression of GAD67mRNA and immunoreactivity of GAD67 isoenzyme in the barrel cortexof mice after sensory learning. In situ hybridization revealedthat the GAD67 mRNA level was elevated in one row of barrelsin the trained group as well as in controls receiving vibrissaestimulation alone. In contrast, elevation of immunoreactivityof the GAD67 protein occurred only in the trained group. Thedensity of GABA-immunoreactive neurons in the hollows of barrelsrepresenting the row of vibrissae activated during the trainingwas increased by 50%. These data indicated that sensory stimulationalone affected expression of the 67 kDa glutamate decarboxylaseisoenzyme synthesis pathway, whereas the processes involvedin cortical plasticity induced by associative learning modifiedthis pathway additionally at the level of translation.

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