Cannabinoids attenuate capsaicin-evoked hyperalgesia through spinal and peripheral mechanisms

Johanek, Lisa M.; Heitmiller, Dwayne R.; Turner, Michelle; Nader, Nader D.; Hodges, Jim; Simone, Donald A.

doi:10.1016/s0304-3959(01)00336-0

Cited by 78 publications

(75 citation statements)

References 56 publications

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“…Taken together with previous reports 9, [19][20][21][22]30,[42][43][44] , this study presents a strong basis for the design of novel synthetic cannabinoids that do not cross the blood-brain barrier as a new class of peripherally acting analgesics without the psychotropic liability of centrally acting CB 1 agonists.…”

Section: Discussionsupporting

confidence: 70%

Cannabinoids mediate analgesia largely via peripheral type 1 cannabinoid receptors in nociceptors

et al. 2007

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Although endocannabinoids constitute one of the first lines of defense against pain, the anatomical locus and the precise receptor mechanisms underlying cannabinergic modulation of pain are uncertain. Clinical exploitation of the system is severely hindered by the cognitive deficits, memory impairment, motor disturbances and psychotropic effects resulting from the central actions of cannabinoids. We deleted the type 1 cannabinoid receptor (CB 1 ) specifically in nociceptive neurons localized in the peripheral nervous system of mice, preserving its expression in the CNS, and analyzed these genetically modified mice in preclinical models of inflammatory and neuropathic pain. The nociceptor-specific loss of CB 1 substantially reduced the analgesia produced by local and systemic, but not intrathecal, delivery of cannabinoids. We conclude that the contribution of CB 1 -type receptors expressed on the peripheral terminals of nociceptors to cannabinoid-induced analgesia is paramount,

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Section: Discussionsupporting

confidence: 70%

Cannabinoids mediate analgesia largely via peripheral type 1 cannabinoid receptors in nociceptors

et al. 2007

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“…Thus, the endocannabinoid anandamide inhibits capsaicin-evoked CGRP release from rat hind paw skin in vitro (Richardson et al, 1998), and the nonselective cannabinoid receptor agonist WIN 55,212-2, injected directly into the hind paw, inhibits mechanical allodynia and thermal hyperalgesia induced by capsaicin injection in vivo (Johanek et al, 2001). Similarly, utilizing the partial sciatic ligation model of neuropathic pain, Fox et al (2001) showed that intraplantar injection of WIN 55,212-2 decreased mechanical allodynia.…”

Section: Discussionmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

“…While peripheral effects of cannabinoid agonists on nociceptive responses have not been explored in sensory neurons of CB1 −/− mice, the data shown here, when considered in the context of cannabinoid effects on nociceptors that are sensitive to SR141716A, raise the possibility of a novel cannabinoidresponsive receptor with similar pharmacology to CB1 that is expressed by nociceptive primary sensory neurons. Interestingly, while some studies found that the peripheral antihyperalgesic effects of can-nabinoids were blocked by the CB1 selective antagonist SR141716A (Richardson et al, 1998), another found only partial (60%) inhibition (Johanek et al, 2001), consistent with a non-CB1 receptor mechanism for peripheral cannabinoid effects on nociception.In conclusion, we have demonstrated that CB1 mRNA is expressed in a subset of primary sensory afferents in TG. Somewhat surprisingly, based on cell size distributions and colocalization analysis, CB1 receptors in TG likely are restricted almost entirely to neurons that give rise to Aβ fibers that are not involved in nociception in the normal animal and that are generally not in the ophthalmic division of the trigeminal nerve.…”

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confidence: 99%

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The neuronal distribution of cannabinoid receptor type 1 in the trigeminal ganglion of the rat

et al. 2003

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Cannabinoid compounds have been shown to produce antinociception and antihyperalgesia by acting upon cannabinoid receptors located in both the CNS and the periphery. A potential mechanism by which cannabinoids could inhibit nociception in the periphery is the activation of cannabinoid receptors located on one or more classes of primary nociceptive neurons. To address this hypothesis, we evaluated the neuronal distribution of cannabinoid receptor type 1 (CB1) in the trigeminal ganglion (TG) of the adult rat through combined in situ hybridization (ISH) and immunohistochemistry (IHC). CB1 receptor mRNA was localized mainly to medium and large diameter neurons of the maxillary and mandibular branches of the TG. Consistent with this distribution, in a de facto nociceptive sensory neuron population that exhibited vanilloid receptor type 1 immunoreactivity, colocalization with CB1 mRNA was also sparse (<5%). Furthermore, very few neurons (approximately 5%) in the peptidergic (defined as calcitonin gene-related peptide-or substance P-immunoreactive) or the isolectin B 4 -binding sensory neuron populations contained CB1 mRNA. In contrast, and consistent with the neuron-size distribution for CB1, nearly 75% of CB1-positive neurons exhibited N52-immunoreactivity, a marker of myelinated axons. These results indicate that in the rat TG, CB1 receptors are expressed predominantly in neurons that are not thought to subserve nociceptive neurotransmission in the noninjured animal. Taken together with the absence of an above background in situ signal for CB2 mRNA in TG neurons, these findings suggest that the peripherally mediated antinociceptive effects of cannabinoids may involve either as yet unidentified receptors or interaction with afferent neuron populations that normally subserve non-nociceptive functions. Keywordscalcitonin gene-related peptide; vanilloid receptor type 1; substance P; isolectin B 4 ; in situ hybridizationThe primary psychoactive component of Cannabis sativa, Δ 9 -tetrahydrocannabinol, has long been recognized for its medicinal properties. Over the last two decades, a large body of work has elucidated the receptor-mediated actions of natural and synthetic cannabinoid compounds (for review, see Khanolkar et al., 2000). Two G protein-coupled cannabinoid receptors have been cloned, the cannabinoid receptor type 1 (CB1; Matsuda et al., 1990), found primarily in neurons, and the cannabinoid receptor type 2 (CB2; Munro et al., 1993) (Felder et al., 1993), as well as the modulation of neurotransmitter release through the inhibition of calcium currents (Twitchell et al., 1997;Shen and Thayer, 1998) and the activation of G protein-coupled inwardly-rectifying potassium channels (Mackie et al., 1995). On a whole organism level, endogenous cannabinoids as well as exogenously administered cannabinoids have been shown to, among other things, alleviate pain and inflammation.While there is ample evidence for antinociceptive effects of cannabinoids in the CNS (Lichtman and Martin, 1991;Martin et al., 1993Martin et ...

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“…[18,20] Cannabinoid's analgesic action in cancer pain is less clear. [2,10,19] In a murine bone sarcoma pain model, systemic cannabinoids act through CBr1. [15,21] However, the role of peripheral CBr1 and CBr2 receptors in soft tissue carcinoma pain is not known.…”

Section: Introductionmentioning

confidence: 99%

Peripheral cannabinoids attenuate carcinoma-induced nociception in mice

Guerrero

Quang

Dekker³

et al. 2008

Neuroscience Letters

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We investigated the cannabinoid receptor (CBr) agonists Win55,212-2 (non-selective) and AM1241 (CBr2 selective) and the peripheral receptor (CBr1) in carcinoma-induced pain using a mouse model. Tumors were induced in the hind paw of female mice by local injection of a human oral squamous cell carcinoma (SCC). Significant pain, as indicated by reduction in withdrawal thresholds in response to mechanical stimulation, began at four days after SCC inoculation and lasted to 18 days. Local administration of Win55,212-2 (10 mg/kg) and AM1241 (10 mg/kg) significantly elevated withdrawal thresholds, indicating an antinociceptive effect. Ipsilateral expression of CBr1 protein in L5 DRG was significantly upregulated compared to ipsilateral L4 DRG and in normal tissue. These findings support the suggestion that cannabinoids are capable of producing antinociception in carcinoma-induced pain.

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Cannabinoids attenuate capsaicin-evoked hyperalgesia through spinal and peripheral mechanisms

Cited by 78 publications

References 56 publications

Cannabinoids mediate analgesia largely via peripheral type 1 cannabinoid receptors in nociceptors

Cannabinoids mediate analgesia largely via peripheral type 1 cannabinoid receptors in nociceptors

The neuronal distribution of cannabinoid receptor type 1 in the trigeminal ganglion of the rat

Peripheral cannabinoids attenuate carcinoma-induced nociception in mice

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