Category Archives: Pain

Cannabinoid 1 (CB1) receptor–pharmacology, role in pain and recent developments in emerging CB1 agonists.

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Abstract

“Cannabinoids are antinociceptive in animal models of acute pain, tissue injury and nerve injury induced nociception and act via their cognate receptors, cannabinoid receptor 1 and 2. This review examines the underlying biology of the endocannabinoids and behavioural, neurophysiological, neuroanatomical evidence supporting the notion of pain modulation by these ligands with a focus on the current evidence encompassing the pharmacological characterization of CB1 agonists in this therapy. Separating the psychotropic effects of CB1 agonists from their therapeutic benefits is the major challenge facing researchers in the field today and with the discovery of peripherally acting agonists there seems to be a ray of hope emerging for the diverse potential therapeutic applications of this class of ligands.”

http://www.ncbi.nlm.nih.gov/pubmed/21631407

Cannabinoid CB2 receptors: a therapeutic target for the treatment of inflammatory and neuropathic pain.

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Abstract

“Cannabinoids suppress behavioural responses to noxious stimulation and suppress nociceptive transmission through activation of CB1 and CB2 receptor subtypes. CB1 receptors are expressed at high levels in the central nervous system (CNS), whereas CB2 receptors are found predominantly, but not exclusively, outside the CNS. CB2 receptors are also upregulated in the CNS and dorsal root ganglia by pathological pain states. Here, we review behavioural, neurochemical and electrophysiological data, which identify cannabinoid CB2 receptors as a therapeutic target for treating pathological pain states with limited centrally, mediated side effects. The development of CB2-selective agonists (with minimal affinity for CB1) as well as mutant mice lacking CB2 receptors has provided pharmacological and genetic tools required to evaluate the effectiveness of CB2 agonists in suppressing persistent pain states. This review will examine the efficacy of cannabinoid CB2-selective agonists in suppressing acute, inflammatory and neuropathic nociception following systemic and local routes of administration. Data derived from behavioural, neurochemical and neurophysiological approaches are discussed to better understand the relationship between antinociceptive effects induced by CB2-selective agonists in behavioural studies and neural mechanisms of pain suppression. Finally, the therapeutic potential and possible limitations of CB2-based pharmacotherapies for pathological pain states induced by tissue and nerve injury are discussed.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2219541/

Activation of cannabinoid CB1 and CB2 receptors suppresses neuropathic nociception evoked by the chemotherapeutic agent vincristine in rats.

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“BACKGROUND AND PURPOSE:

The ability of cannabinoids to suppress mechanical hypersensitivity (mechanical allodynia) induced by treatment with the chemotherapeutic agent vincristine was evaluated in rats. Sites of action were subsequently identified.

CONCLUSIONS AND IMPLICATIONS:

Cannabinoids suppress the maintenance of vincristine-induced mechanical allodynia through activation of CB1 and CB2 receptors. These anti-allodynic effects are mediated, at least in part, at the level of the spinal cord.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2190028/

Selective activation of cannabinoid CB2 receptors suppresses neuropathic nociception induced by treatment with the chemotherapeutic agent paclitaxel in rats.

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“Activation of cannabinoid CB(2) receptors suppresses neuropathic pain induced by traumatic nerve injury. The present studies were conducted to evaluate the efficacy of cannabinoid CB(2) receptor activation in suppressing painful peripheral neuropathy evoked by chemotherapeutic treatment with the antitumor agent paclitaxel…

 Our data suggest that cannabinoid CB(2) receptors may be important therapeutic targets for the treatment of chemotherapy-evoked neuropathy.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2682949/

Selective activation of cannabinoid CB2 receptors suppresses hyperalgesia evoked by intradermal capsaicin.

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“The present studies were conducted to test the hypothesis that activation of peripheral cannabinoid CB(2) receptors would suppress hyperalgesia evoked by intradermal administration of capsaicin, the pungent ingredient in hot chili peppers.

These data provide evidence that actions at cannabinoid CB(2) receptors are sufficient to normalize nociceptive thresholds and produce antinociception in persistent pain states.”

http://jpet.aspetjournals.org/content/308/2/446.lo

Activation of peripheral cannabinoid CB1 and CB2 receptors suppresses the maintenance of inflammatory nociception: a comparative analysis.

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“Background and Purpose:

Effects of locally administered agonists and antagonists for cannabinoid CB1 and CB2 receptors on mechanical and thermal hypersensitivity were compared after the establishment of chronic inflammation.

Conclusions and Implications:

Cannabinoids act locally through distinct CB1 and CB2 mechanisms to suppress mechanical hypersensitivity after the establishment of chronic inflammation, at doses that produced modest changes in thermal hyperalgesia. Additive antihyperalgesic effects were observed following prophylactic co-administration of the CB1– and CB2-selective agonists. Our results suggest that peripheral cannabinoid antihyperalgesic actions may be exploited for treatment of inflammatory pain states.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2042894/

Targeting cannabinoid agonists for inflammatory and neuropathic pain.

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Abstract

“The cannabinoid receptors CB(1) and CB(2) are class A G-protein-coupled receptors. It is well known that cannabinoid receptor agonists produce relief of pain in a variety of animal models by interacting with cannabinoid receptors. CB(1) receptors are located centrally and peripherally, whereas CB(2) receptors are expressed primarily on immune cells and tissues. A large body of preclinical data supports the hypothesis that either CB(2)-selective agonists or CB(1) agonists acting at peripheral sites, or with limited CNS exposure, will inhibit pain and neuroinflammation without side effects within the CNS. There has been a growing interest in developing cannabinoid agonists. Many new cannabinoid ligands have been synthesized and studied covering a wide variety of novel structural scaffolds. This review focuses on the present development of cannabinoid agonists with an emphasis on selective CB(2) agonists and peripherally restricted CB(1) or CB(1)/CB(2) dual agonists for treatment of inflammatory and neuropathic pain.”

http://www.ncbi.nlm.nih.gov/pubmed/17594182

Cannabinoid receptors and pain.

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Abstract

“Mammalian tissues contain at least two types of cannabinoid receptor, CB(1) and CB(2), both coupled to G proteins. CB(1) receptors are expressed mainly by neurones of the central and peripheral nervous system whereas CB(2) receptors occur centrally and peripherally in certain non-neuronal tissues, particularly in immune cells. The existence of endogenous ligands for cannabinoid receptors has also been demonstrated. The discovery of this ‘endocannabinoid system’ has prompted the development of a range of novel cannabinoid receptor agonists and antagonists, including several that show marked selectivity for CB(1) or CB(2) receptors. It has also been paralleled by a renewed interest in cannabinoid-induced antinociception. This review summarizes current knowledge about the ability of cannabinoids to produce antinociception in animal models of acute pain as well as about the ability of these drugs to suppress signs of tonic pain induced in animals by nerve damage or by the injection of an inflammatory agent. Particular attention is paid to the types of pain against which cannabinoids may be effective, the distribution pattern of cannabinoid receptors in central and peripheral pain pathways and the part that these receptors play in cannabinoid-induced antinociception. The possibility that antinociception can be mediated by cannabinoid receptors other than CB(1) and CB(2) receptors, for example CB(2)-like receptors, is also discussed as is the evidence firstly that one endogenous cannabinoid, anandamide, produces antinociception through mechanisms that differ from those of other types of cannabinoid, for example by acting on vanilloid receptors, and secondly that the endocannabinoid system has physiological and/or pathophysiological roles in the modulation of pain.”

http://www.ncbi.nlm.nih.gov/pubmed/11164622

Cannabinoid type 2 receptor as a target for chronic – pain.

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Abstract

“Availability of selective pharmacological tools enabled a great advance of our knowledge of cannabinoid receptor 2 (CB2) role in pathophysiology. In particular CB2 emerged as an interesting target for chronic pain treatment as demonstrated by several studies on inflammatory and neuropathic preclinal pain models. The mechanisms at the basis of CB2-mediated analgesia are still controversial but data are pointing out in two main directions: an effect on inflammatory cells and/or an action on nociceptors and spinal cord relay centers. In this review will be described the second messenger pathways activated by CB2 agonists, the data underpinning the analgesic profile of CB2 selective agonists and the mechanisms invoked to explain their analgesic action. Finally the ongoing clinical trials and the potential issues for the development of a CB2 agonist drug will be examined.”

http://www.ncbi.nlm.nih.gov/pubmed/19149657

Cannabinoid CB2 receptor-mediated anti-nociception in models of acute and chronic pain.

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Abstract

“The endocannabinoid system consists of cannabinoid CB(1) and CB(2) receptors, endogenous ligands and their synthesising/metabolising enzymes. Cannabinoid receptors are present at key sites involved in the relay and modulation of nociceptive information. The analgesic effects of cannabinoids have been well documented. The usefulness of nonselective cannabinoid agonists can, however, be limited by psychoactive side effects associated with activation of CB(1) receptors. Following the recent evidence for CB(2) receptors existing in the nervous system and reports of their up-regulation in chronic pain states and neurodegenerative diseases, much research is now aimed at shedding light on the role of the CB(2) receptor in human disease. Recent studies have demonstrated anti-nociceptive effects of selective CB(2) receptor agonists in animal models of pain in the absence of CNS side effects. This review focuses on the analgesic potential of CB(2) receptor agonists for inflammatory, post-operative and neuropathic pain states and discusses their possible sites and mechanisms of action”

http://www.ncbi.nlm.nih.gov/pubmed/17952647