Effect of transgenic overexpression of NR2B on NMDA receptor function and synaptic plasticity in visual cortex

  • Philpot B
  • Weisberg M
  • Ramos M
 et al. 
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The NMDA receptor (NMDAR) is a heteromer comprised of NR1 and NR2 subunits. Mice that overexpress the NR2B subunit exhibit enhanced hippocampal LTP, prolonged NMDAR currents, and improved memory (Tang et al., 1999). In the current study, we explored visual cortex plasticity and NMDAR function in NR2B overexpressing transgenic mice. Unlike the hippocampus, in vitro synaptic plasticity of the visual cortex was unaltered by NR2B overexpression. Consistent with the plasticity findings, NMDAR excitatory postsynaptic current (EPSC) durations from layer 2/3 pyramidal cells were similar in wild-type (wt) and transgenic (tg) mice. Furthermore, temporal summation of NMDAR EPSCs to 10, 20, and 40 Hz stimulation did not differ between cells from wt and tg mice. Finally, although in situ studies clearly demonstrate overexpression of NR2B mRNA in visual cortex, we failed to observe a significant elevation in the synaptic expression of NR2B protein. We conclude that the synaptic ratio of NR2B over NR2A in the NMDA receptor complex in the visual cortex is not significantly influenced by the transgene overexpression. These data suggest that mRNA availability is not a limiting factor for the synthesis of NR2B protein in the visual cortex, and support the hypothesis that levels of NR2A, rather than NR2B, normally determine the subunit composition of NMDARs in visual cortex. © 2001 Elsevier Science Ltd. All rights reserved.

Author-supplied keywords

  • Cortical plasticity
  • Critical period
  • LTP
  • Metaplasticity
  • NMDA receptor
  • NR2B

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  • Benjamin D. Philpot

  • Michael P. Weisberg

  • Margarita S. Ramos

  • Nathaniel B. Sawtell

  • Ya Ping Tang

  • Joe Z. Tsien

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