Gating and modulation of presumptive NaV1.9 channels in enteric and spinal sensory neurons |
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Authors: | Coste Bertrand Osorio Nancy Padilla Françoise Crest Marcel Delmas Patrick |
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Affiliation: | Intégration des Informations Sensorielles, CNRS, UMR 6150, Faculté de Médecine, IFR Jean Roche, 13916 Marseille 20, France. |
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Abstract: | The NaV1.9 subunit is expressed in nociceptive dorsal root ganglion (DRG) neurons and sensory myenteric neurons in which it generates 'persistent' tetrodotoxin-resistant (TTX-R) Na+ currents of yet unknown physiological functions. Here, we have analyzed these currents in details by combining single-channel and whole-cell recordings from cultured rat DRG and myenteric neurons. Comparison of single-channel with whole-cell data indicates that recording using internal CsCl best reflects the basic electrical features of NaV1.9 currents. Inclusion of fluoride in the pipette solution caused a negative shift in the activation and inactivation gates of NaV1.9 but not NaV1.8. Fluoride acts by promoting entry of NaV1.9 channels into a preopen closed state, which causes a strong bias towards opening and enhances the ability of sensory neurons to sustain spiking. Thus, the modulation of the resting-closed states of NaV1.9 channels strongly influences nociceptor excitability and may provide a mechanism by which inflammatory mediators alter pain threshold. |
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