Ray Hill scite author profile

Many damage-sensing neurons express tetrodotoxin (TTX)-resistant voltage-gated sodium channels. Here we examined the role of the sensory-neuron-specific (SNS) TTX-resistant sodium channel alpha subunit in nociception and pain by constructing sns-null mutant mice. These mice expressed only TTX-sensitive sodium currents on step depolarizations from normal resting potentials, showing that all slow TTX-resistant currents are encoded by the sns gene. Null mutants were viable, fertile and apparently normal, although lowered thresholds of electrical activation of C-fibers and increased current densities of TTX-sensitive channels demonstrated compensatory upregulation of TTX-sensitive currents in sensory neurons. Behavioral studies demonstrated a pronounced analgesia to noxious mechanical stimuli, small deficits in noxious thermoreception and delayed development of inflammatory hyperalgesia. These data show that SNS is involved in pain pathways and suggest that blockade of SNS expression or function may produce analgesia without side effects.

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Warm-coding deficits and aberrant inflammatory pain in mice lacking P2X3 receptors

Souslova¹,

Cesare²,

Ding³

et al. 2000

Nature

409

304

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ATP activates damage-sensing neurons (nociceptors) and can evoke a sensation of pain. The ATP receptor P2X3 is selectively expressed by nociceptors and is one of seven ATP-gated, cation-selective ion channels. Here we demonstrate that ablation of the P2X3 gene results in the loss of rapidly desensitizing ATP-gated cation currents in dorsal root ganglion neurons, and that the responses of nodose ganglion neurons to ATP show altered kinetics and pharmacology resulting from the loss of expression of P2X(2/3) heteromultimers. Null mutants have normal sensorimotor function. Behavioural responses to noxious mechanical and thermal stimuli are also normal, although formalin-induced pain behaviour is reduced. In contrast, deletion of the P2X3 receptor causes enhanced thermal hyperalgesia in chronic inflammation. Notably, although dorsal-horn neuronal responses to mechanical and noxious heat application are normal, P2X3-null mice are unable to code the intensity of non-noxious 'warming' stimuli.

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Selective NMDA NR2B antagonists induce antinociception without motor dysfunction: correlation with restricted localisation of NR2B subunit in dorsal horn

Boyce¹,

Wyatt²,

Webb³

et al. 1999

Neuropharmacology

323

231

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NK1 (substance P) receptor antagonists – why are they not analgesic in humans?

Hill

2000

Trends in Pharmacological Sciences

418

223

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Mechanisms contributing to the deficits in hippocampal synaptic plasticity in mice lacking amyloid precursor protein

et al. 1999

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Ray Hill

The tetrodotoxin-resistant sodium channel SNS has a specialized function in pain pathways

Warm-coding deficits and aberrant inflammatory pain in mice lacking P2X3 receptors

Selective NMDA NR2B antagonists induce antinociception without motor dysfunction: correlation with restricted localisation of NR2B subunit in dorsal horn

NK1 (substance P) receptor antagonists – why are they not analgesic in humans?

Mechanisms contributing to the deficits in hippocampal synaptic plasticity in mice lacking amyloid precursor protein

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