Abstract

Neuromedin U (NMU) has recently been reported to play a role in nociception. However, to date, the relevant mechanisms still remain unknown. In the present study, we investigated the expression profile of NMU receptors in mouse dorsal root ganglia (DRG) and identified a novel functional role of NMU in modulating T-type Ca2+ channel currents (T-currents) as well as membrane excitability in small DRG neurons. We found that NMU inhibited T-currents in a dose-dependent manner in mouse small DRG neurons that endogenously expressed NMU type 1 (NMUR1), but not NMUR2 receptors. NMU (1μM) reversibly inhibited T-currents by ∼27.4%. This inhibitory effect was blocked by GDP-β-S or pertussis toxin (PTX), indicating the involvement of a Gi/oα-protein. Using depolarizing prepulse or intracellular application of QEHA, a synthetic peptide which competitively blocks G-protein βγ subunit (Gβγ) mediated signaling, we found the absence of functional coupling between Gβγ and T-type Ca2+ channels. Pretreatment of the cells with H89, a protein kinase A (PKA) inhibitor, or intracellular application of PKI 5-24, blocked NMU-induced T-current inhibition, whereas inhibition of phospholipase C or protein kinase C elicited no such effects. In addition, we observed a significant decreased firing frequency of action potentials of small DRG neurons induced by NMU, which could be abrogated by pretreatment of the cells with NiCl2 (100μM). Taken together, these results suggested that NMU inhibits T-currents via PTX-sensitive PKA pathway, which might contribute to its physiological functions including neuronal hypoexcitability in small DRG neurons in mice.

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