2012
DOI: 10.1016/j.neuroscience.2012.07.012
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The distribution of low-threshold TTX-resistant Na+ currents in rat trigeminal ganglion cells

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Cited by 10 publications
(9 citation statements)
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“…1f) -suggest that Na V 1.9 channels do not contribute much to the amplitude of action potentials, but rather that they may act as threshold channels by contributing a sodium conductance that regulates resting potential and that prolongs the depolarizing response to subthreshold stimuli 17,22 , lowering the threshold for single action potentials and increasing repetitive firing 29 . Although the degree of hyperpolarization of the voltage dependence of activation of Na V 1.9 is dependent on the ionic composition of the pipette solution during recording 24,25 , computer simulations and current-clamp studies using physiological solutions in the recording pipette support the conclusion that this channel acts as a threshold channel 17,29 . Computer simulations show that, even at densities as low as 20% of the density estimated to be present in DRG neurons, Na V 1.9 conductance depolarizes the resting potential of the cell 17 .…”
mentioning
confidence: 96%
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“…1f) -suggest that Na V 1.9 channels do not contribute much to the amplitude of action potentials, but rather that they may act as threshold channels by contributing a sodium conductance that regulates resting potential and that prolongs the depolarizing response to subthreshold stimuli 17,22 , lowering the threshold for single action potentials and increasing repetitive firing 29 . Although the degree of hyperpolarization of the voltage dependence of activation of Na V 1.9 is dependent on the ionic composition of the pipette solution during recording 24,25 , computer simulations and current-clamp studies using physiological solutions in the recording pipette support the conclusion that this channel acts as a threshold channel 17,29 . Computer simulations show that, even at densities as low as 20% of the density estimated to be present in DRG neurons, Na V 1.9 conductance depolarizes the resting potential of the cell 17 .…”
mentioning
confidence: 96%
“…Although instability of the Na V 1.9 current has been encountered by almost all investigators who have studied this channel, methods and protocols have been designed to minimize this instability and to generate reproducible data [22][23][24][25] . The inactivation of Na V 1.9 is unusually 'ultra-slow' and results in the persistence of the sodium current after activation (FIG.…”
mentioning
confidence: 99%
“…Previous studies in Scn11a knockout mice have confirmed that Na v 1.9 is an important molecule in generating hyperalgesia in infammatory pain states, 18,19 suggesting that Na v 1.9 channels may play an important role in nociception. 26,27 We herein provided the genetic evidence that mutations in SCN11A were directly involved in human episodic pain. In addition, Lolignier et al reported that Na v 1.9 channel plays an important role in the generation of heat and mechanical pain hypersensitivity in both subacute and chronic inflammatory models.…”
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confidence: 99%
“…Most nociceptive neurons in DRG are small-sized, mainly accepting nociceptive C-fibers, and expressing TTX-R isoforms, and are more closely related to neuropathic pain, compared with large-sized neurons which mainly express TTX-S VGSCs [3][4][5]17]. In this context, we specifically chose small-sized DRG neurons to investigate TTX-R I Na .…”
Section: Discussionmentioning
confidence: 99%
“…Moreover, numerous studies have shown that the abnormalities of VGSCs and/or sodium currents (I Na ) could induce the hyperexcitability of DRG neurons and increase the occurrence of DNP [4]. The majority of nociceptive DRG neurons are in small size accepting Aδ-fibers and C-fibers, and mainly express TTX-resistant (TTX-R) sodium channel isoforms, among which Nav1.8 and Nav1.9 are tightly related to neuropathic pain [5]. Furthermore, it has been reported that DNP is associated with differential changes in VGSCs and I Na of DRG neurons [4,6].…”
Section: Introductionmentioning
confidence: 99%