Deficits in LTP induction by 5-HT2A receptor antagonist in a mouse model for fragile X syndrome. Xu, ZH; Yang, Q; Ma, L; Liu, SB; Chen, GS; Wu, YM; Li, XQ; Liu, G; Zhao, MG PloS one
7
e48741
2011
Mostrar resumen
Fragile X syndrome is a common inherited form of mental retardation caused by the lack of fragile X mental retardation protein (FMRP) because of Fmr1 gene silencing. Serotonin (5-HT) is significantly increased in the null mutants of Drosophila Fmr1, and elevated 5-HT brain levels result in cognitive and behavioral deficits in human patients. The serotonin type 2A receptor (5-HT2AR) is highly expressed in the cerebral cortex; it acts on pyramidal cells and GABAergic interneurons to modulate cortical functions. 5-HT2AR and FMRP both regulate synaptic plasticity. Therefore, the lack of FMRP may affect serotoninergic activity. In this study, we determined the involvement of FMRP in the 5-HT modulation of synaptic potentiation with the use of primary cortical neuron culture and brain slice recording. Pharmacological inhibition of 5-HT2AR by R-96544 or ketanserin facilitated long-term potentiation (LTP) in the anterior cingulate cortex (ACC) of WT mice. The prefrontal LTP induction was dependent on the activation of NMDARs and elevation of postsynaptic Ca(2+) concentrations. By contrast, inhibition of 5-HT2AR could not restore the induction of LTP in the ACC of Fmr1 knock-out mice. Furthermore, 5-HT2AR inhibition induced AMPA receptor GluR1 subtype surface insertion in the cultured ACC neurons of Fmr1 WT mice, however, GluR1 surface insertion by inhibition of 5-HT2AR was impaired in the neurons of Fmr1KO mice. These findings suggested that FMRP was involved in serotonin receptor signaling and contributed in GluR1 surface expression induced by 5-HT2AR inactivation. | 23119095
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Human nerve growth factor sensitizes masseter muscle nociceptors in female rats. Peter Svensson,Mian Wei Wang,Xu-Dong Dong,Ujendra Kumar,Brian E Cairns Pain
148
2009
Mostrar resumen
Injection of nerve growth factor (NGF) into the masseter muscle is not painful but does induce a localized, quick onset ( approximately 1h) and long-lasting mechanical sensitization in healthy human subjects. We tested the hypothesis that human NGF mechanically sensitizes masseter muscle nociceptors by increasing the sensitivity of peripheral N-methyl-d-aspartate (NMDA) receptors. Co-expression of the NR2B subunit of the NMDA receptor with P75 and TrkA NGF receptors by trigeminal ganglion neurons that innervate the masseter muscle was investigated immunohistochemically. Nociceptor activity was recorded extracellularly from the trigeminal ganglion of anaesthetized female rats. Nociceptor mechanical threshold was assessed before and every 30 min for 3h after injection of human NGF (25 microg/ml, 10 microl, n=12), and in subsequent experiments NGF with TrkA (n=12) or P75 (n=11) receptor antibodies. Glutamate (1M, 10 microl) was injected at the end of each experiment. Approximately 85% of NR2B positive masseter ganglion neurons co-expressed P75 or TrkA receptors, suggesting the potential for interaction. When compared with the vehicle control, it was found that injection of NGF into the masseter muscle did not evoke significant nociceptor discharge but did significantly reduce nociceptor mechanical threshold ( approximately 30%). There was no effect of NGF on glutamate-evoked nociceptor discharge or glutamate-induced mechanical sensitization. Additional experiments indicated that NGF-induced mechanical sensitization could be partially attenuated with TrkA receptor antibodies, but not P75 receptor antibodies. These findings indicate that human NGF-induced sensitization of masseter nociceptors results, in part, from the activation of TrkA receptors, but does not appear to be mediated through enhanced peripheral NMDA receptor activity. | 20064691
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