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Target Concepts:
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Query: UMLS:C0162473 (
Frey
)
2,599
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have examined the participation of
NK1
receptors in neuropathic pain by comparing behavioural responses after partial sciatic nerve ligation in wild-type (WT) and
NK1
receptor knockout (KO) mice. Mechanical responses were tested with von
Frey
hairs, and cooling responses with acetone. WT and KO mice showed similar reactions before surgery. Nerve-ligated WT and KO mice showed equivalent spontaneous pain-related behaviour. Mechanical (mean threshold 20 +/- vs 9 +/- 1 mN) and cold allodynia (61 +/- vs 14 +/- 2 behaviours evoked by acetone) were significantly greater than in sham animals, but similar in WT and KO mice. We conclude that
NK1
receptors are not essential for mechanical and cold allodynia evoked by partial nerve ligation.
...
PMID:Allodynia and hyperalgesia evoked by sciatic mononeuropathy in NKI receptor knockout mice. 1081 94
Substance P and its receptor (
NK1
) are thought to play an important role in pain and hyperalgesia. Here we have further examined this role by comparing the behavioural responses to intradermal capsaicin of mutant mice with a disruption of the
NK1
receptor (
NK1
KO) and wild-type (WT) mice. We have also evaluated the contribution of peripheral
NK1
receptors to capsaicin-evoked behaviour by selective blockade of peripheral
NK1
receptors in WT mice using a non-brain penetrant
NK1
receptor antagonist. Injection of 6 microg capsaicin into the heel evoked paw licking with the same latency in WT and KO mice, but a significantly longer duration in WT mice. A higher dose (30 microg) evoked a similar duration of licking in both groups. There were no differences in mechanical sensitivity tested with von
Frey
hairs between WT and KO mice before capsaicin. Both capsaicin doses resulted in pronounced increases in responses to von
Frey
hairs (hyperalgesia) and novel responses to cotton wisps (allodynia) applied to the digits of the injected paw in WT mice, but no significant changes from baseline in KO mice. Selective blockade of peripheral
NK1
receptors in WT mice resulted in a complete inhibition of capsaicin-evoked plasma extravasation, but the mechanical hyperalgesia induced by 30 microg capsaicin intraplantar was still significantly greater than that seen in KO mice. We conclude that the response to intradermal capsaicin is still present but abbreviated in mice lacking
NK1
receptors, such that secondary hyperalgesia is not observed even after a high dose. Further, the lack of secondary hyperalgesia in
NK1
KO mice is largely due to the loss of central rather than peripheral
NK1
receptors. The phenotype of the
NK1
KO mice is consistent with a loss of function of mechanically-insensitive nociceptors, and thus we propose that substance P may be expressed by this group of primary sensory neurones and required for their function.
...
PMID:Role of central and peripheral tachykinin NK1 receptors in capsaicin-induced pain and hyperalgesia in mice. 1116 75
Lamina 1 projection neurones which express the
NK1
receptor (NK1R+) drive a descending serotonergic pathway from the brainstem that enhances spinal dorsal horn neuronal activity via the facilitatory spinal 5-HT3 receptor. Selective destruction of these cells via lumbar injection of substance P-saporin (SP-SAP) attenuates pain behaviours, including mechanical and thermal hypersensitivity, which are mirrored by deficits in the evoked responses of lamina V-VI wide dynamic range (WDR) neurones to noxious stimuli. To assess whether removing the origin of this facilitatory spino-bulbo-spinal loop results in alterations in GABAergic spinal inhibitory systems, the effects of spinal bicuculline, a selective GABA(A) receptor antagonist, on the evoked neuronal responses to electrical (Abeta-, Adelta-, C-fibre, post-discharge and Input) and mechanical (brush, prod and von
Frey
(vF) 8 and 26 g) stimuli were measured in SAP and SP-SAP groups. In the SAP control group, bicuculline produced a significant dose related facilitation of the electrically evoked Adelta-, C-fibre, post-discharge and input neuronal responses. The evoked mechanical (prod, vF8 g and 26 g) responses were also significantly increased. Brush evoked neuronal responses in these animals were enhanced but did not reach significance. This facilitatory effect of bicuculline, however, was lost in the SP-SAP treated group. The generation of intrinsic GABAergic transmission in the spinal cord appears dependent on
NK1
bearing neurons, yet despite the loss of GABAergic inhibitory controls after SP-SAP treatment, the net effect is a decrease in spinal cord excitability. Thus activation of these cells predominantly drives facilitation.
...
PMID:Superficial NK1 expressing spinal dorsal horn neurones modulate inhibitory neurotransmission mediated by spinal GABA(A) receptors. 1749 51
Freshwater stingray accidents cause an immediate, intense, and unrelieved pain which is followed by edema, erythema and necrosis formation. Treatment for stingray envenomation is based on administration of analgesic, antipyretic and anti-inflammatory drugs. Concerning pain control, it is prescribed to immerse punctured limb on hot water to alleviate pain. There are no studies demonstrating specific targets on which stingray venom acts to promote pain. Therefore, the aim of this work was to investigate some mechanisms of Potamotrygon motoro venom (PmV) that contribute to nociception induction. Evaluating spontaneous pain behavior in mice injected i.pl. with PmV, it was seen that PmV induced both neurogenic and inflammatory pain. PmV also induced hyperalgesia in both mice and rats, evaluated through electronic von
Frey
and rat paw pressure test, respectively. Partial inhibition of hyperalgesia was observed in mice treated with cromolyn or promethazine, which indicated that mast cell and histamine via H1 receptor participate in the inflammatory pain. To search for some targets involved in PmVinduced hyperalgesia, the participation of TRPV1, calcium channels, neurokinins, CGRP, and norepinephrine, was evaluated in rats. It was seen that PmV-induced hyperalgesia occurs with the participation of neurokinins, mainly via
NK1
receptor, CGRP, and calcium influx, through both P/Q and L-type voltage-dependent calcium channels, besides TRPV1 activation. The data presented herein indicate that PmV causes hyperalgesia in rodents which is dependent on the participation of several neuroinflammatory mediators.
...
PMID:Potamotrygon motoro stingray venom induces both neurogenic and inflammatory pain behavior in rodents. 2980 62
