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Journal of Histochemistry and Cytochemistry, Vol. 49, 1195-1196, September 2001, Copyright © 2001, The Histochemical Society, Inc.

BRIEF REPORT

Cellular Distribution of GAP-43 mRNA in Hippocampus and Cerebellum of Adult Rat Brain by In Situ RT-PCR

Tiziana Casolia, Giuseppina Di Stefanoa, Natascia Gracciottia, Simona Giovagnettib, Patrizia Fattorettia, Moreno Solazzia, and Carlo Bertoni–Freddaria
a Neurobiology of Aging, Laboratories, INRCA Research Department, Ancona, Italy
b Molecular Biology and Genetic, Laboratories, INRCA Research Department, Ancona, Italy

Correspondence to: Tiziana Casoli, Neurobiology of Aging Laboratory, INRCA Research Department, Via Birarelli 8, Ancona AN 60121, Italy. E-mail: t.casoli@inrca.it

The growth-associated protein GAP-43 is a presynaptic membrane phosphoprotein that plays a key role in guiding the growth of axons and in modulating the formation of new synapses. To identify the cells that synthesize GAP-43 mRNA, we applied direct in situ reverse transcription-polymerase chain reaction (in situ RT-PCR) in cerebellum and hippocampus of adult rat brain. In situ RT-PCR revealed GAP-43 mRNA in cerebellar granule cells, in Purkinje cells and in some interneurons of the molecular layer. Previous in situ hybridization studies had demonstrated a dense label throughout the granular layer of the cerebellar cortex but no labeling of other cerebellar neurons. Hippocampal cells showing distinct GAP-43 mRNA signal after in situ RT-PCR were CA1 and CA3 pyramidal neurons, CA4 hilar cells, and dentate gyrus granule cells, whereas in situ hybridization studies had detected GAP-43 mRNA only in CA3 and CA1 pyramidal neurons. Our data indicate that GAP-43 mRNA is widely distributed, suggesting that many cell types are potentially involved in synaptic plasticity events. (J Histochem Cytochem 49:1195–1196, 2001)

Key Words: GAP-43, in situ RT-PCR, cerebellar cells, hippocampal cells


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