The Role of Nitric Oxide and GluR1 in Presynaptic and Postsynaptic Components of Neocortical Potentiation

doi:10.1523/JNEUROSCI.0652-06.2006

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The Journal of Neuroscience, July 12, 2006, 26(28):7395-7404; doi:10.1523/JNEUROSCI.0652-06.2006

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Cellular/Molecular
The Role of Nitric Oxide and GluR1 in Presynaptic and Postsynaptic Components of Neocortical Potentiation
Neil Hardingham and Kevin Fox
School of Bioscience, Cardiff University, Cardiff CF10 3US, United Kingdom
Correspondence should be addressed to Kevin Fox, Cardiff University, Biosciences, Museum Avenue, Cardiff CF10 3US, UK. Email: foxkd{at}cf.ac.uk
In this study, we investigated the mechanisms underlying synapticplasticity at the layer IV to II/III pathway in barrel cortexof mice aged 6–13 weeks. This pathway is one of the likelycandidates for expression of experience-dependent plasticityin the barrel cortex and may serve as a model for other IV toII/III synapses in the neocortex. We found that postsynapticautocamtide-2-inhibitory peptide is sufficient to block long-termpotentiation (LTP) (IC₅₀ of 500 nM), implicating postsynapticcalcium/calmodulin-dependent kinase II in LTP induction. AMPAreceptor subunit 1 (GluR1) knock-out mice also showed LTP inthis pathway, but potentiation was predominantly presynapticin origin as determined by paired-pulse analysis, coefficientof variation analysis, and quantal analysis, whereas wild typesshowed a mixed presynaptic and postsynaptic locus. Quantal analysisat this synapse was validated by measuring uniquantal eventsin the presence of strontium. The predominantly presynapticLTP in the GluR1 knock-outs was blocked by postsynaptic antagonismof nitric oxide synthase (NOS), either with intracellular N- ${omega}$ -nitro-L-argininemethyl ester or N-nitro-L-arginine, providing the first evidencefor a retrograde transmitter role for NO at this synapse. Antagonismof NOS in wild types significantly reduced but did not eliminateLTP (group average reduction of 50%). The residual LTP formeda variable proportion of the total LTP in each cell and wasfound to be postsynaptic in origin. We found no evidence forsilent synapses in this pathway at this age. Finally, applicationof NO via a donor induced potentiation in layer II/III cellsand caused an increase in frequency but not amplitude of miniatureEPSPs, again implicating NO in presynaptic plasticity.

Received Feb. 14, 2006; revised May 24, 2006; accepted May 26, 2006.

Correspondence should be addressed to Kevin Fox, Cardiff University, Biosciences, Museum Avenue, Cardiff CF10 3US, UK. Email: foxkd{at}cf.ac.uk

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