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Lead exposure during synaptogenesis alters NMDA receptor targeting via NMDA receptor inhibition.

Neurotoxicology (2011-01-05)
April P Neal, Paul F Worley, Tomás R Guilarte
ABSTRACT

N-methyl-D-aspartate receptor (NMDAR) ontogeny and subunit expression are altered during developmental lead (Pb²+) exposure. However, it is unknown whether these changes occur at the synaptic or cellular level. Synaptic and extra-synaptic NMDARs have distinct cellular roles, thus, the effects of Pb²+ on NMDAR synaptic targeting may affect neuronal function. In this communication, we show that Pb²+ exposure during synaptogenesis in hippocampal neurons altered synaptic NMDAR composition, resulting in a decrease in NR2A-containing NMDARs at established synapses. Conversely, we observed increased targeting of the obligatory NR1 subunit of the NMDAR to the postsynaptic density (PSD) based on the increased colocalization with the postsynaptic protein PSD-95. This finding together with increased binding of the NR2B-subunit specific ligand [³H]-ifenprodil, suggests increased targeting of NR2B-NMDARs to dendritic spines as a result of Pb²+ exposure. During brain development, there is a shift of NR2B- to NR2A-containing NMDARs. Our findings suggest that Pb²+ exposure impairs or delays this developmental switch at the level of the synapse. Finally, we show that alter expression of NMDAR complexes in the dendritic spine is most likely due to NMDAR inhibition, as exposure to the NMDAR antagonist aminophosphonovaleric acid (APV) had similar effects as Pb²+ exposure. These data suggest that NMDAR inhibition by Pb²+ during synaptogensis alters NMDAR synapse development, which may have lasting consequences on downstream signaling.

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Sigma-Aldrich
Anticorpo anti-PSD-95 (Post Synaptic Density Protein 95), clone 6G6-1C9, clone 6G6-1C9, Chemicon®, from mouse
Sigma-Aldrich
Anticorpo anti-NR2A, Upstate®, from rabbit