Category Archives: THC (Delta-9-Tetrahydrocannabinol)

Do cannabinoids have a therapeutic role in transplantation?

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“Cannabinoids are a group of terpenophenolic compounds structurally similar to delta-9-tetrahydrocannabinol (THC) from the plant Cannabis sativa.

Cannabinoids have emerged as powerful drug candidates for the treatment of inflammatory and autoimmune diseases due to their immunosuppressive properties.

Significant clinical and experimental data on the use of cannabinoids as anti-inflammatory agents exist in many autoimmune disease settings, but virtually no studies have been undertaken on their potential role in transplant rejection. Here we suggest a theoretical role for the use of cannabinoids in preventing allograft rejection.

…manipulation of endocannabinoids in vivo by activating their biosynthesis and inhibiting cellular uptake and metabolism may offer another pathway to regulate immune response during allograft rejection.

…cannabinoids have emerged as novel anti-inflammatory agents because of their efficacy in the treatment of many immune-mediated disorders such as multiple sclerosis, rheumatoid arthritis and autoimmune hepatitis.

Transplantation is one critical area of medicine that requires the use of immunosuppressants.

 Inasmuch as, immune cells constitute an important resource of endocannabinoids, it may be easier to manipulate their levels during an immune response, which could have a direct and immediate impact on such cells that determine the fate of the allograft.

In summary, targeting cannabinoid receptors and understanding the role and use of exo-and endocannabinoids in experimental allograft rejection models may provide an exciting new beginning with significant translational impact.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2923447/

Attenuation of experimental autoimmune hepatitis by exogenous and endogenous cannabinoids: involvement of regulatory T cells.

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“Immune-mediated liver diseases including autoimmune and viral hepatitis are a major health problem worldwide. Natural cannabinoids such as Delta(9)-tetrahydrocannabinol (THC) effectively modulate immune cell function, and they have shown therapeutic potential in treating inflammatory diseases.

We investigated the effects of THC in a murine model of concanavalin A (ConA)-induced hepatitis…

Our data demonstrate that targeting cannabinoid receptors using exogenous or endogenous cannabinoids and use of FAAH inhibitors may constitute novel therapeutic modalities to treat immune-mediated liver inflammation.

δ-9-Tetrahydrocannabinol (THC), the major psychoactive component of marijuana (Cannabis sativa), has wide-ranging pharmacological properties. The cannabinoid compounds possess significant immunosuppressive and anti-inflammatory properties. THC and cannabinoid receptor agonists have shown promise in several models of inflammation.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2828293/

Immunoactive effects of cannabinoids: considerations for the therapeutic use of cannabinoid receptor agonists and antagonists

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“The active constituents of Cannabis sativa have been used for centuries as recreational drugs and medicinal agents. Today, marijuana is the most prevalent drug of abuse in the United States and, conversely, therapeutic use of marijuana constituents are gaining mainstream clinical and political acceptance.

Given the documented contributions of endocannabinoid signaling to a range of physiological systems, including cognitive function, and the control of eating behaviors, it is unsurprising that cannabinoid receptor agonists and antagonists are showing significant clinical potential.

In addition to the neuroactive effects of cannabinoids, an emerging body of data suggests that both endogenous and exogenous cannabinoids are potently immunoactive.

The central premise of this review article is that the immunological effects of cannabinoids should be considered in the context of each prescribing decision.

We present evidence that the immunological effects of cannabinoid receptor agonists and antagonists are highly relevant to the spectrum of disorders for which cannabinoid therapeutics are currently offered.

Therapeutically relevant cannabinoid receptor ligands include tetra-hydrocannabinol itself, its synthetic forms, and its closely related compounds.

As a final point, the application of CB1 antagonists may be immunostimulative…”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3804300/

Cannabinoid Modulation of Neuroinflammatory Disorders

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Table 1.

Cannabis sativa is a herb belonging to the Cannabaceae family, characterized by palmate leaves and numerous fibers. Its first record as a medicine dates back to 5000 years ago and it was found in China, where cannabis was used for a myriad of purposes and diseases, including malaria, neuropathic pain, nausea, sexual dysfunction and constipation.

The use of cannabis spread from Central Asia and deeply influenced Indian folk medicine. However, sedative and psychotropic effects of cannabis turned it into a recreational drug. This fact resulted in discrimination against the consumption of the cannabis plant and its derivatives, which delayed the scientific findings in this field…

In recent years, a growing interest has been dedicated to the study of the endocannabinoid system. The isolation of Cannabis sativa main psychotropic compound, Δ(9)-tetrahydrocannabinol (THC), has led to the discovery of an atypical neurotransmission system that modulates the release of other neurotransmitters and participates in many biological processes, including the cascade of inflammatory responses.

In this context, cannabinoids have been studied for their possible therapeutic properties in neuroinflammatory diseases. In this review, historic and biochemical aspects of cannabinoids are discussed, as well as their function as modulators of inflammatory processes and therapeutic perspectives for neurodegenerative disorders, particularly, multiple sclerosis.

Cannabinoid compounds may be extracted from the plant (phytocannabinoids) or be artificially obtained (synthetic cannabinoids)…

To date, it is still impossible to prove or rule out all benefits of cannabis described empirically by ancient herbal practitioners. For now, science aims to understand how cannabinoid compounds are associated with neuroinflammation and how cannabis-based medicine can help millions of patients worldwide.”

 http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3386505/

Activation through cannabinoid receptors 1 and 2 on dendritic cells triggers NF-kappaB-dependent apoptosis: novel role for endogenous and exogenous cannabinoids in immunoregulation.

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“Cannabinoids are compounds derived from the Cannabis sativa (marijuana) plant, as well as produced endogenously in the brain and by immune cells. Cannabinoids mediate their effect through cannabinoid receptors (CB), designated CB1 and CB2, which belong to a superfamily of G-protein-coupled receptors.

CB1 receptors are expressed at high levels in CNS, where they regulate psychoactivity. CB1 receptors are also expressed on immune cells. In contrast, the CB2 receptors are primarily expressed on immune cells and do not contribute to the psychoactivity. The presence of endogenous CB-ligand systems in immune cells suggests that they may play a critical physiological role, the precise nature of which remains to be characterized.

Cannabinoids can decrease the immune response… Cannabinoids have also been widely used in the treatment of pain and inflammation.

Moreover, preliminary studies have shown the possible use of cannabinoids in the treatment of autoimmune diseases such as multiple sclerosis.

Recent studies from our lab demonstrated that Δ9-tetrahydrocannabinol (THC) can trigger apoptosis in vivo in thymocytes and splenocytes, which may account for immunosuppression.

 We demonstrate for the first time that THC and endocannabinoids such as anandamide can induce apoptosis in DCs through activation of CB1 and CB2 receptors.

These studies provide the basis for understanding the mechanism by which THC triggers immunosuppression and mediates anti-inflammatory properties.

Many studies have suggested the use of THC or related cannabinoids in the treatment of autoimmune diseases.”

http://www.jimmunol.org/content/173/4/2373.long

Cannabinoid-induced apoptosis in immune cells as a pathway to immunosuppression.

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“Cannabinoids are a group of compounds found in the marijuana plant (Cannabis sativaL.). Marijuana has been used both for recreational and medicinal purposes for several centuries.

Cannabinoids have been shown to be effective in the treatment of nausea and vomiting associated with cancer chemotherapy, anorexia and cachexia seen in HIV/AIDS patients, as well as neuropathic pain, and spasticity in multiple sclerosis.

More recently, the anti-inflammatory properties of cannabinoids are drawing significant attention. In the last 15 years, studies with marijuana cannabinoids led to the discovery of cannabinoid receptors (CB1 and CB2) and their endogenous ligands, which make up what is known as the endocannabinoid system.

Cannabinoids are a group of compounds present in Cannabis plant (Cannabis sativa L.). They mediate their physiological and behavioral effects by activating specific cannabinoid receptors. With the recent discovery of the cannabinoid receptors (CB1 and CB2) and the endocannabinoid system, research in this field has expanded exponentially.

Cannabinoids have been shown to act as potent immunosuppressive and anti-inflammatory agents and have been shown to mediate beneficial effects in a wide range of immune-mediated diseases such as multiple sclerosis, diabetes, septic shock, rheumatoid arthritis, and allergic asthma.

Cannabinoid receptor 1 (CB1) is mainly expressed on the cells of the central nervous system as well as in the periphery. In contrast, cannabinoid receptor 2 (CB2) is predominantly expressed on immune cells. The precise mechanisms through which cannabinoids mediate immunosuppression is only now beginning to be understood…

In this review, we will focus on apoptotic mechanisms of immunosuppression mediated by cannabinoids on different immune cell populations and discuss how activation of CB2 provides a novel therapeutic modality against inflammatory and autoimmune diseases as well as malignancies of the immune system, without exerting the untoward psychotropic effects…

…cannabinoids do induce apoptosis in immune cells, alleviating inflammatory responses and protecting the host from acute and chronic inflammation.

The cumulative effect of cannabinoids on all cell populations of the immune system can be beneficial, when there is a need for immune suppression.

For example, in patients with autoimmune diseases such as multiple sclerosis, arthritis and lupus, or in those with septic shock, where the disease is caused by activated immune cells, targeting the immune cells via CB2 agonists may trigger apoptosis and act as anti-inflammatory therapy.

CB2 select agonists are not psychoactive and because CB2 is expressed primarily in immune cells, use of CB2 agonists could provide a novel therapeutic modality against autoimmune and inflammatory diseases.

In addition to the use of exogenous cannabinoids, in vivo manipulation of endocannabinoids may also offer novel treatment opportunities against cancer and autoimmune diseases.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3005548/

Direct suppression of autoreactive lymphocytes in the central nervous system via the CB2 receptor.

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The cannabinoid system is evolutionally conserved and is present in invertebrates and vertebrates. One of the best-studied cannabinoids is Δ9-tetrahydrocannabinol (THC), the predominant active component of Cannabis sativa or marijuana.

The marijuana plant has been exploited by humans since their early history and was used for centuries in Asian medicine to reduce the severity of pain, inflammation and asthma. However, only recently have the mechanisms of the medicinal properties of THC begun to be understood. This understanding is largely due to the identification and cloning of two cannabinoid receptors.

The cannabinoid system is now recognized as a regulator of both the nervous and immune systems.

Although marijuana has been used for centuries for the treatment of a variety of disorders, its therapeutic mechanisms are only now being understood.

The best-studied plant cannabinoid, delta9-tetrahydrocannabinol (THC), produced by Cannabis sativa and found in marijuana, has shown evidence of being immunosuppressive in both in vivo and in vitro.

These studies are theoretically in agreement with the suggestions of others that cannabinoid receptor agonists would be beneficial for the treatment of MS in humans.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2219523/

Multiple sclerosis may disrupt endocannabinoid brain protection mechanism

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“Since the discovery of the endocannabinoids [eCB; anandamide and 2-arachidonoylglycerol (2-AG), various pathological conditions were shown to increase the eCB tone and to inhibit molecular mechanisms that are involved in the production, release, and diffusion of harmful mediators such as proinflammatory cytokines or excess glutamate.

In this issue of PNAS, Witting et al.  demonstrate that, unexpectedly and contrary to the effects of other brain diseases, cell damage induced by experimental autoimmune encephalomyelitis (EAE), an immune-mediated disease widely used as a laboratory model of multiple sclerosis (MS), does not lead to enhancement of eCB levels, although the cannabinoid receptors remain functional.

Nearly two decades ago, Lyman et al.  reported that Δ9-THC, the psychoactive component of marijuana, suppresses the symptoms of EAE. A few years later, Wirguin et al. reported the same effect by Δ8-THC, a more stable and less psychotropic analogue of Δ9-THC.

Thus, THC was shown to inhibit both clinical and histological signs of EAE even before the endocannabinoids were described.

THC was also shown to control spasticity and tremor in chronic relapsing EAE, a further autoimmune model of MS , and to inhibit glutamate release via activation of the CB1-cannabinoid receptor in EAE. Moreover, mice deficient in the cannabinoid receptor CB1 tolerate inflammatory and excitotoxic insults poorly and develop substantial neurodegeneration after immune attack in EAE.

Thus, the brain loses some of its endogenous neuroprotective capacity, but it may still respond to exogenous treatment with 2-AG or other CB1 agonists. Assuming that the biochemical changes taking place in the EAE model of MS are similar to those in MS itself, these results represent a biochemical-based support to the positive outcome noted with cannabinoid therapy in MS.

These data suggest that the high level of IFN-γ in the CNS, noted in mice with EAE, disrupts eCB-mediated neuroprotection, while maintaining functional cannabinoid receptors, thus providing additional support for the use of cannabinoid-based medicine to treat MS.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1458835/

The role of the endocannabinoid system in atherosclerosis.

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“Our current understanding of the pathophysiology of atherosclerosis suggests a prominent role for immune responses from its initiation through its complications. Given the increasing prevalence of cardiovascular risk factors worldwide, there is an urgent need to better understand the underlying mechanisms to improve current treatment protocols.

A growing body of evidence suggests that endocannabinoid signalling plays a critical role in the pathogenesis of atherogenesis and its clinical manifestations. Blocking CB(1) receptors has been shown to mediate not only weight reduction, but also several cardiometabolic effects in rodents and humans, indicating a potential relevance for the process of atherosclerosis.

Activation of CB(2) receptors with Delta(9)-tetrahydrocannabinol (THC) has been shown to inhibit atherosclerotic plaque progression in mice, mainly by inhibiting macrophage recruitment.

In conclusion, the precise role of the endocannabinoid system during atherosclerosis is not yet understood.”

http://www.ncbi.nlm.nih.gov/pubmed/18426500

http://www.thctotalhealthcare.com/category/atherosclerosis-2/

Cannabinoid receptors in atherosclerosis.

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“…cannabinoid receptors are potential targets for the treatment of atherosclerosis…

Cannabinoids, such as Delta9-tetrahydrocannabinol, the major psychoactive compound of marijuana… was shown to inhibit disease progression through pleiotropic effects on inflammatory cells.

The development of novel cannabinoid receptor ligands that selectively target CB2 receptors or pharmacological modulation of the endocannabinoid system might offer novel therapeutic strategies in the treatment of atherosclerosis.

The immunomodulatory capacity of cannabinoids is now well established and suggests a broad therapeutic potential of cannabinoids for a variety of conditions, including atherosclerosis.”

http://www.ncbi.nlm.nih.gov/pubmed/16960500

http://www.thctotalhealthcare.com/category/atherosclerosis-2/