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doi:10.1016/S0169-328X(03)00285-7 
Copyright © 2003 Elsevier B.V. All rights reserved.
Research report
Seven cDNAs enriched following hippocampal lesion: possible roles in neuronal responses to injury
Mitch Pricea, 1, Molly G. Langb, 1, Ami T. Franka, M. Paula Goetting-Mineskyb, Samip P. Patelb, Matthew L. Silvierab, J. Kyle Kradyc, Robert J. Milnerc, Andrew G. Ewing
, 
, b, c and Jonathan R. Dayd
Accepted 25 June 2003. ;
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Abstract
Synaptic plasticity is important for formation of long-term memories and in re-establishment of function following injury. Seven cDNAs enriched following lesion in the hippocampus of the rat have been isolated using a PCR-based cDNA suppression subtraction hybridization. Sequence analysis resulted in the identification of two genes with known roles in synaptic development and neuronal activities: astrotactin and calcineurin. These two neuron-specific genes have established roles in development or synaptogenesis. Sequence analysis of the other five additional genes shows that two are likely to be involved in G-protein signaling pathways, one is a WD repeat protein, and the remaining two are entirely novel. All seven candidates are expressed in the hippocampus and, in some cases, cortical layers of adult brains. RT-PCR data show that expression increases following synaptogenic lesion. Immunocytochemical analysis in primary hippocampal neurons showed that Calcineurin immunoreactivity was redistributed in neurons during 2 weeks in culture. This redistribution suggests that Calcineurin’s role changes during neurite outgrowth immediately prior to synapse formation in vitro. In addition, inhibiting Calcineurin activity with cyclosporin A enhanced neurite outgrowth, suggesting that Calcineurin has a regulatory role in axon sprouting. The discovery of previously unknown genes involved in the response to neurodegeneration will contribute to our understanding of neural development, responses to CNS trauma, and neurodegenerative diseases.
Author Keywords: Neuronal injury; Synaptic plasticity; Reactive synaptogenesis
Neuroscience classification codes: Development and regeneration, Process outgrowth, growth cones, and sprouting
Article Outline
- 1. Introduction
- 2. Materials and methods
- 2.1. Rat brain lesions
- 2.2. Suppression subtraction hybridization (SSH)-PCR
- 2.3. cDNA library screening
- 2.4. In situ hybridization
- 2.5. Quantitative RT-PCR analysis
- 2.6. Northern blot analysis
- 2.7. Primary neuron cultures/immunocytochemistry
- 2.8. Cyclosporin A treatment
- 3. Results
- 3.1. Seven enriched cDNAs were isolated by a subtractive screen
- 3.2. All seven genes are expressed in the CNS
- 3.3. Candidate gene expression is inducible and dynamic
- 3.4. Subcellular distribution of Calcineurin changes in cultured embryonic neurons
- 3.5. Calcineurin activity inhibits growth of neuronal processes in vitro
- 4. Discussion
- 4.1. Seven cDNAs enriched following hippocampal lesion
- 4.2. A functional role for Calcineurin in reactive synaptogenesis
- Acknowledgements
- References
