Literature DB >> 18096591

GTP up-regulated persistent Na+ current and enhanced nociceptor excitability require NaV1.9.

Johan A R Ostman1, Mohammed A Nassar, John N Wood, Mark D Baker.   

Abstract

Persistent tetrodotoxin-resistant (TTX-r) sodium currents up-regulated by intracellular GTP have been invoked as the site of action of peripheral inflammatory mediators that lower pain thresholds, and ascribed to the Na(V)1.9 sodium channel. Here we describe the properties of a global knock-out of Na(V)1.9 produced by replacing exons 4 and 5 in SCN11A with a neomycin resistance cassette, deleting the domain 1 voltage sensor and introducing a frameshift mutation. Recordings from small (< 25 microm apparent diameter) sensory neurones indicated that channel loss eliminates a TTX-r persistent current. Intracellular dialysis of GTP-gamma-S did not cause an up-regulation of persistent Na(+) current in Na(V)1.9-null neurones and the concomitant negative shift in voltage-threshold seen in wild-type and heterozygous neurones. Heterologous hNa(V)1.9 expression in Na(V)1.9 knock-out sensory neurones confirms that the human clone can restore the persistent Na(+) current. Taken together, these findings demonstrate that Na(V)1.9 underlies the G-protein pathway-regulated TTX-r persistent Na(+) current in small diameter sensory neurones that may drive spontaneous discharge in nociceptive nerve fibres during inflammation.

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Year:  2007        PMID: 18096591      PMCID: PMC2268982          DOI: 10.1113/jphysiol.2007.147942

Source DB:  PubMed          Journal:  J Physiol        ISSN: 0022-3751            Impact factor:   5.182


  26 in total

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  56 in total

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6.  Use dependence of peripheral nociceptive conduction in the absence of tetrodotoxin-resistant sodium channel subtypes.

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7.  Modulation of voltage-gated sodium channels hyperpolarizes the voltage threshold for activation in spinal motoneurones.

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