Tag Archives: anti-inflammatory

Inhibition of Human Neutrophil Chemotaxis by Endogenous Cannabinoids and Phytocannabinoids: Evidence for a Site Distinct from CB1 and CB2

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   “Here, we show a novel pharmacology for inhibition of human neutrophil migration by endocannabinoids, phytocannabinoids, and related compounds. The endocannabinoids virodhamine and N-arachidonoyl dopamine are potent inhibitors of N-formyl-l-methionyl-l-leucyl-l-phenylalanine-induced migration of human neutrophils…”

   “This study reveals that certain endogenous lipids, phytocannabinoids and related ligands are potent inhibitors of human neutrophil migration, and it implicates a novel pharmacological target distinct from cannabinoid CB1 and CB2 receptors; this target is antagonized by the endogenous compound N-arachidoloyl l-serine. These findings corroborate the emerging clinical and animal model data demonstrating that the nonpsychoactive phytocannabinoid, CBD and its structural analogs are effective in alleviating arthritis. Furthermore, our findings have implications for the potential pharmacological manipulation of elements of the endocannabinoid system for the treatment of various inflammatory conditions.”

http://molpharm.aspetjournals.org/content/73/2/441.long

Fungal biotransformation of cannabinoids: potential for new effective drugs.

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Abstract

“Phytocannabinoids from the plant Cannabis sativa induce a variety of physiological and pharmacological responses in living systems, including anti-inflammatory, antinociceptive, anti-ulcer and antitumor activities. The discovery of the cannabinoid receptors CB1 and CB2 led to the development of agonists and antagonists of these receptors for the treatment of a variety of diseases. Nabilone, a synthetic derivative of Delta9-tetrahydrocannabinol (Delta9-THC), which is the main natural psychotropic constituent of C sativa, was approved by the US FDA for the treatment of nausea and as an anti-emetic for patients undergoing chemotherapy. Delta9-THC and related cannabinoids are involved in a variety of signal transduction pathways; thus, reducing or removing the psychotropic effects of these compounds would enhance their therapeutic spectra. Compound synthesis and qualitative SAR studies are time-consuming activities; however, microbes are effectively the most inventive synthetic chemists because of their metabolic plasticity. This review discusses the potential of C sativa mycoflora, which is pathogenic as well as endophytic, to remove the psychotropic effects of Delta9-THC and related cannabinoids, and describes the development of a model system for the rapid and cost-effective commercial production of cannabinoids through fermentation pathways.”

http://www.ncbi.nlm.nih.gov/pubmed/19333876

Cannabis and cannabinoid receptors.

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Abstract

“Cannabis and cannabinoids exert many of their biological functions through receptor-mediated mechanisms. Two types of cannabinoid receptors have been identified, namely CB(1) and CB(2), both coupled to a G protein. CB(1) receptors have been detected in the central nervous system (where they are responsible for the characteristic effects of Cannabis, including catalepsy, depression of motor activity, analgesia and feelings of relaxation and well being) and in peripheral neurons (where their activation produces a suppression in neurotransmitter release in the heart, bladder, intestine and vas deferens). Cannabinoid CB(2) receptors have only been detected outside the central nervous system, mostly in cells of the immune system, presumably mediating cannabinoid-induced immunosuppression and antinflammatory effects. With the discovery of cannabinoid receptors for exogenous cannabinoids, also endogenous cannabinoids (anandamide, 2-arachidonylglycerol) have been described.”

http://www.ncbi.nlm.nih.gov/pubmed/10930707

Cannabidiol Displays Antiepileptiform and Antiseizure Properties In Vitro and In Vivo

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“CBD is the major nonpsychoactive component of Cannabis sativa whose structure was first described by Mechoulam and Shvo (1963); CBD has recently attracted renewed interest for its therapeutic potential in a number of disease states. CBD has been proposed to possess anticonvulsive, neuroprotective, and anti-inflammatory properties in humans.”

 “Plant-derived cannabinoids (phytocannabinoids) are compounds with emerging therapeutic potential. Early studies suggested that cannabidiol (CBD) has anticonvulsant properties in animal models and reduced seizure frequency in limited human trials. Here, we examine the antiepileptiform and antiseizure potential of CBD using in vitro electrophysiology and an in vivo animal seizure model…. These findings suggest that CBD acts, potentially in a CB1 receptor-independent manner, to inhibit epileptiform activity in vitro and seizure severity in vivo. Thus, we demonstrate the potential of CBD as a novel antiepileptic drug in the unmet clinical need associated with generalized seizures.”

“In conclusion, our data in separate in vitro models of epileptiform activity and, in particular, the beneficial reductions in seizure severity caused by CBD in an in vivo animal model of generalized seizures suggests that earlier, small-scale clinical trials for CBD in untreated epilepsy warrant urgent renewed investigation.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2819831/

Marijuana-Derived Compound Targets Pain, Inflammation

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   “Researchers are developing a marijuana-derived synthetic compound to relieve pain and inflammation without the mood-altering side effects associated with other marijuana based drugs.

  They say the compound could improve treatment of a variety of conditions, including chronic pain, arthritis and multiple sclerosis. Their findings were presented at the 224th national meeting of the American Chemical Society, the world’s largest scientific society.

   The compound, called ajulemic acid, has produced encouraging results in animal studies of pain and inflammation. It is undergoing tests in a group of people with chronic pain and could be available by prescription within two to three years, the researchers say.

 “We believe that [the compound] will replace aspirin and similar drugs in most applications primarily because of a lack of toxic side effects,” says Sumner Burstein, Ph.D., lead investigator in the study and a professor in the department of biochemistry and molecular pharmacology at the University of Massachusetts Medical School in Worcester. “The indications so far are that it’s safe and effective,” he added.”

Read more: http://www.sciencedaily.com/releases/2002/08/020822071026.htm

The cannabinoid acids: nonpsychoactive derivatives with therapeutic potential.

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Abstract

   “The discovery of carboxylic acid metabolites of the cannabinoids (CBs) dates back more than three decades. Their lack of psychotropic activity was noted early on, and this resulted in a total absence of further research on their possible role in the actions of the CBs. More recent studies have revealed that the acids possess both analgesic and anti-inflammatory properties and may contribute to the actions of the parent drug. A synthetic analog showed similar actions at considerably lower doses. In this review, a brief survey of the extensive literature on metabolism of delta 9-tetrahydrocannabinol to the acids is presented, while more emphasis is given to the recent findings on the biological actions of this class of CBs. A possible mechanism involving effects on eicosanoids for some of these actions is also suggested. Finally, an analogy with a putative metabolite of anandamide, an endogenous CB, is discussed.”

http://www.ncbi.nlm.nih.gov/pubmed/10341359

Ajulemic acid, a synthetic cannabinoid acid, induces an antiinflammatory profile of eicosanoids in human synovial cells.

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“AIMS:

To better understand mechanisms whereby Ajulemic acid (AjA), a synthetic antiinflammatory cannabinoid, promotes resolution of acute and chronic inflammation in animal models, we investigated its influence on cyclooxygenase 2 (COX2) expression and eicosanoid production in human fibroblast-like synovial cells (FLS).”

“KEY FINDINGS:

AjA increased the steady state levels of COX2 mRNA in and arachidonic acid release from FLS. Treatment of FLS with AjA increased 15-deoxy-delta(12,14)-PGJ(2) (15d-PGJ(2)) production in a concentration dependent manner, but did not affect PGE(2) production significantly.”

“SIGNIFICANCE:

The capacity of AjA to increase selectively and markedly 15d-PGJ(2), an eicosanoid which facilitates resolution of inflammation, suggests that AjA may have value as a therapeutic agent for the treatment of rheumatoid arthritis (RA) and other diseases characterized by acute and chronic inflammation.”

http://www.ncbi.nlm.nih.gov/pubmed/18840450

Activation and Binding of Peroxisome Proliferator-Activated Receptor γ by Synthetic Cannabinoid Ajulemic Acid

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   “Ajulemic acid (AJA) is a synthetic analog of the tetrahydrocannabinol (THC) metabolite THC-11-oic acid; THC is a major active ingredient of the drug marijuana derived from the plant cannabis. AJA has potent analgesic and anti-inflammatory activity without the psychotropic action of THC. Unlike the nonsteroidal anti-inflammatory drugs, AJA is not ulcerogenic at therapeutic doses, making it a promising anti-inflammatory drug. However, the mechanism of AJA action remains unknown. Here we report that AJA binds directly and specifically to the peroxisome proliferator-activated receptor γ (PPARγ), a pharmacologically important member of the nuclear receptor superfamily. Functional assay indicates that AJA activates the transcriptional activity of both human and mouse PPARγ at pharmacological concentrations. Activation of PPARγ by AJA requires the AF-2 helix of the receptor, suggesting that AJA activates PPARγ through the ligand-dependent AF-2 function. AJA binding consistently enables PPARγ to recruit nuclear receptor coactivators. In addition, we show that AJA inhibits interleukin-8 promoter activity in a PPARγ-dependent manner, suggesting a link between the anti-inflammatory action of AJA and the activation of PPARγ. Finally, we find that AJA treatment induces differentiation of 3T3 L1 fibroblasts into adipocytes, a process mediated by PPARγ. Together, these data indicate that PPARγ may be a molecular target for AJA, providing a potential mechanism for the anti-inflammatory action of AJA, and possibly other cannabinoids. These studies also implicate other potential therapeutic actions of AJA through PPARγ activation in multiple signaling pathways.”

“The mood-altering drug marijuana derived from the hemp plant Cannabis sativa contains a group of biosynthetically related substances known collectively as cannabinoids. Tetrahydrocannabinol (THC), one of the major cannabinoids in marijuana, has potent analgesic and anti-inflammatory activities, but it also exhibits psychotropic effects, which limit its clinical application. Considerable effort has been expended toward the goal of creating nonpsychotropic cannabinoid derivatives that retain therapeutic actions but are free of psychotropic activity. A useful template for this search is the THC metabolite THC-11-oic acid…”

http://molpharm.aspetjournals.org/content/63/5/983.long

Ajulemic Acid, a Synthetic Nonpsychoactive Cannabinoid Acid, Bound to the Ligand Binding Domain of the Human Peroxisome Proliferator-activated Receptor γ*

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  “Ajulemic acid (AJA) is a synthetic analog of THC-11-oic acid, a metabolite of tetrahydrocannabinol (THC), the major active ingredient of the recreational drug marijuana derived from the plant Cannabis sativa. AJA has potent analgesic and anti-inflammatory activity in vivo, but without the psychotropic action of THC. However, its precise mechanism of action remains unknown. Biochemical studies indicate that AJA binds directly and selectively to the isotype γ of the peroxisome proliferator-activated receptor (PPARγ) suggesting that this may be a pharmacologically relevant receptor for this compound and a potential target for drug development in the treatment of pain and inflammation. Here, we report the crystal structure of the ligand binding domain of the γ isotype of human PPAR in complex with ajulemic acid, determined at 2.8-Å resolution. Our results show a binding mode that is compatible with other known partial agonists of PPAR, explaining their moderate activation of the receptor, as well as the structural basis for isotype selectivity, as observed previously in vitro. The structure also provides clues to the understanding of partial agonism itself, suggesting a rational approach to the design of molecules capable of activating the receptor at levels that avoid undesirable side effects.”

“AJA (also known as CT-3, IP-751, or 1′,1′-dimethylheptyl-Δ8-tetrahydrocannabinol-11-oic acid) was originally designed based on observations of the metabolic transformations of THC using the metabolite THC-11-oic acid as a template. AJA suppresses neuropathic pain in humans and prevents joint tissue injury in rat models of inflammatory arthritis. In all cases, these effects are observed without producing the motor side effects associated with THC.”

“In summary, our results show that AJA, as well as other THC analogs, in presenting specific binding together with minimal toxicity and good bioavailability may provide useful novel templates for rational drug design aimed at PPARγ regulation.”

 http://www.jbc.org/content/282/25/18625.long

Ajulemic acid: A novel cannabinoid produces analgesia without a “high”.

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Abstract

   “A long-standing goal in cannabinoid research has been the discovery of potent synthetic analogs of the natural substances that might be developed as clinically useful drugs. This requires, among other things, that they be free of the psychotropic effects that characterize the recreational use of Cannabis. An important driving force for this goal is the long history of the use of Cannabis as a medicinal agent especially in the treatment of pain and inflammation. While few compounds appear to have these properties, ajulemic acid (AJA), also known as CT-3 and IP-751, is a potential candidate that could achieve this goal. Its chemical structure was derived from that of the major metabolite of Delta9-THC, the principal psychotropic constituent of Cannabis. In preclinical studies it displayed many of the properties of non-steroidal anti-inflammatory drugs (NSAIDs); however, it seems to be free of undesirable side effects. The initial short-term trials in healthy human subjects, as well as in patients with chronic neuropathic pain, demonstrated a complete absence of psychotropic actions. Moreover, it proved to be more effective than placebo in reducing this type of pain as measured by the visual analog scale. Unlike the narcotic analgesics, signs of dependency were not observed after withdrawal of the drug at the end of the one-week treatment period. Data on its mechanism of action are not yet complete; however, the activation of PPAR-gamma, and regulation of eicosanoid and cytokine production, appear to be important for its potential therapeutic effects.”

http://www.ncbi.nlm.nih.gov/pubmed/15240185