AG374 Sigma-AldrichMetabotropic Glutamate Receptor 5, control peptide for AB5675

Several lines of evidence suggest a dysfunctional glutamate system in major depressive disorder (MDD). Recently, we reported reduced levels of metabotropic glutamate receptor subtype 5 (mGluR5) in postmortem brains in MDD, however the neurobiological mechanisms that induce these abnormalities are unclear. In the present study, we examined the effect of chronic corticosterone (CORT) administration on the expression of mGluR5 protein and mRNA in the rat frontal cortex and hippocampus. Rats were injected with CORT (40 mg/kg s.c.) or vehicled once daily for 21 days. The expression of mGluR5 protein and mRNA was assessed by Western blotting and quantitative real-time PCR (qPCR). In addition, mGluR1 protein was measured in the same animals. The results revealed that while there was a significant reduction (-27%, P=0.0006) in mGluR5 protein expression in the hippocampus from CORT treated rats, mRNA levels were unchanged. Also unchanged were mGluR5 mRNA and protein levels in the frontal cortex and mGluR1 protein levels in both brain regions. Our findings provide the first evidence that chronic CORT exposure regulates the expression of mGluR5 and are in line with previous postmortem and imaging studies showing reduced mGluR5 in MDD. Our findings suggest that elevated levels of glucocorticoids may contribute to impairments in glutamate neurotransmission in MDD.

Accumulating evidence indicates that the metabotropic glutamate receptor mGluR5 is involved in the peripheral mechanisms of inflammatory nociception. To investigate whether mGluR5 may mediate the inflammatory pain and thermal hyperalgesia in the dental pulp, we examined the expression of mGluR5 and transient receptor potential vanilloid 1 (TRPV1) in human dental pulp by immunohistochemistry and electron microscopy; mGluR5-immunopositive (+) axons were observed in nerve bundles and branched extensively within the peripheral coronal pulp. Most of the mGluR5+ axons were unmyelinated. A large fraction of these axons (36.5%) were immunostained for TRPV1. Immunoreactivity for mGluR5 and TRPV1 was also observed in odontoblasts. These results support the possibility that the nerve fibers in the dental pulp mediate inflammatory pain and thermal hyperalgesia through coactivation of mGluR5 and TRPV1 and also suggest a possible role for odontoblasts in the transduction of nociceptive signals via mGluR5-mediated mechanism.

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