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The Journal of Neuroscience, November 15, 2002, 22(22):9687-9697
NMDA Receptor 2 (NR2) C-Terminal Control of NR
Open Probability Regulates Synaptic Transmission and Plasticity at a
Cerebellar Synapse
Paola
Rossi1,
Elisabetta
Sola1,
Vanni
Taglietti1,
Thilo
Borchardt3,
Frank
Steigerwald3,
Jo Kristian
Utvik4,
Ole Petter
Ottersen4,
Georg
Köhr3, and
Egidio
D'Angelo1, 2
1 Department of Molecular and Cellular Physiology and
Istituto Nazionale per la Fisica della Materia, University of
Pavia, I 27100 Pavia, Italy, 2 Department of
Evolutionary and Functional Biology, University of Parma, I-43100
Parma, Italy, 3 Max-Planck Institute for Medical
Research, D-69120 Heidelberg, Germany, and 4 Centre for
Molecular Biology and Neuroscience, Department of Anatomy, Institute of
Basic Medical Sciences, University of Oslo, N-0314 Oslo, Norway
The C-terminal domain of NMDA receptor 2 (NR2) subunits has been
proposed to play a critical role in regulating NMDA receptor localization and function in postsynaptic densities. However, the
mechanism of this regulation is not completely understood. In this
paper we show that C-terminal truncation of NR2A and NR2C subunits in
mice (NR2A/C C/C) impairs synaptic transmission
and plasticity at the cerebellar mossy fiber-granule cell relay.
Activation of synaptic NMDA receptors could be distinguished from that
of extrasynaptic receptors by using the glutamate scavenger glutamate
pyruvate transaminase and the open channel blocker MK801.
NR2A/CC/C mice exhibited a specific reduction
in synaptic NMDA receptor activation attributable to a severalfold
decrease in channel open probability but not channel conductance.
Immunodetection revealed normal developmental expression of NR subunit
proteins. Quantitative immunogold analyses with an antibody to NR1
indicated that the reduction in receptor activation is not attributed
to a reduced number of NR1-containing receptors in postsynaptic
densities. Thus, NR2A/NR2C subunits and particularly their C termini
regulate synaptic NMDA receptor activation and function by enhancing
channel open probability, which is critical for long-term potentiation induction.
Key words:
NMDA receptor; LTP; channel open probability; cerebellum; granule cell; gene knock-out
Copyright © 2002 Society for Neuroscience 0270-6474/02/22229687-11$05.00/0
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