Tag Archives: therapeutic

The endocannabinoid system in peripheral lymphocytes as a mirror of neuroinflammatory diseases.

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Abstract

“During immuno-mediated attack of the brain, activation of endocannabinoids represents a protective mechanism, aimed at reducing both neurodegenerative and inflammatory damage through various and partially converging mechanisms that involve neuronal and immune cells. Here, we review the main alterations of the endocannabinoid system (ECS) within the central nervous system and in peripheral blood mononuclear cells, in order to discuss the intriguing observation that elements of the peripheral ECS mirror central dysfunctions of endocannabinoid signaling. As a consequence, elements of blood ECS might serve as novel, non-invasive diagnostic tools of several neurological disorders, and targeting the ECS might be useful for therapeutic purposes. In addition, we discuss the appealing working hypothesis that the presence of type-1 cannabinoid receptors on the luminal side, and that of type-2 cannabinoid receptors on the abluminal side of the blood-brain barrier, could drive a unidirectional transport of AEA in the luminal –> abluminal direction (i.e., from blood to brain), thus implying that blood may be a reservoir of AEA for the brain. On this basis, it can be expected that an unbalance of the endogenous tone of AEA in the blood may sustain a similar unbalance of its level within the brain, as demonstrated in Huntington’s disease, Parkinson’s disease, multiple sclerosis, attention-deficit/hyperactivity disorder, schizophrenia, depression and headache.”

http://www.ncbi.nlm.nih.gov/pubmed/18781987

CNS immune surveillance and neuroinflammation: endocannabinoids keep control.

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Abstract

“To avoid inflammatory escalation, the central nervous system (CNS) harbors an impressive arsenal of cellular and molecular mechanisms enabling strict control of immune reactions. We here summarize studies suggesting that the old paradigm of the “CNS immune privilege” is overly simplistic. The immune system is allowed to keep the CNS under surveillance, but in a strictly controlled, limited and well-regulated manner. The first line of defense lies outside the brain parenchyma to spare neuronal tissue from the detrimental effects of an inflammatory immune response. As a second line of defense neuroinflammation is unavoidable when pathogens infiltrate the brain or the CNS-immune-homeostasis fails. Inflammation in the CNS is often accompanied by divers brain pathologies. We here review recent strategies to maintain brain homeostasis and modulate neuroinflammation. We focus on Multiple Sclerosis as an example of a complex neuroinflammatory disease. In the past years, several in vitro, in vivo and clinical studies suggested that the endocannabinoid system participates crucially in the immune control and protection of the CNS. We discuss here the endocannabinoid system as a key regulator mechanism of the cross talk between brain and the immune system as well as its potential as a therapeutic target.”

http://www.ncbi.nlm.nih.gov/pubmed/18781977

Endocannabinoids in neuroimmunology and stress.

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Abstract

“Two topics are presented in this review. In the first section, we review data regarding the effects of the endocannabinoids (eCBs) and cannabinoid receptors on neuroimmune function. The function of eCBs in the interaction between the immune system and the central nervous system (CNS) is of particular interest, since the CNS itself is a rich source of eCBs while being exquisitely sensitive to inflammation. There are several sites at which cannabinoids can influence neuroinflammation. Microglial cells express both CB receptors and make eCBs. Activation of CB receptors on these cells seems to promote migration and proliferation but to reduce activation to macrophages. In several neurodegenerative diseases, up-regulation of microglial CB2 receptors have been observed. It is our hypothesis that microglial CB receptor activity is anti-inflammatory and could be exploited to manipulate neuroinflammatory processes with a minimum of unwanted effects. The second topic discussed suggests that the eCB/CB1 receptor pair is involved in the responses of animals to acute, repeated and variable stress. The roles of this pair are complex and dependent upon previous stress, among other things. Dysfunctional responding to stress is a component of several human neuropsychiatric disorders, including anxiety and panic disorders, post-traumatic stress disorders, premenstrual dysphoria and quite possibly, drug abuse. While it is too early to say with certainty, it is very possible that either inhibition or potentiation of endocannabinoid signaling will be an efficacious novel therapeutic approach to more than one human psychiatric disease.”

http://www.ncbi.nlm.nih.gov/pubmed/16375683

Regulation of neuroinflammation by herbal medicine and its implications for neurodegenerative diseases. A focus on traditional medicines and flavonoids.

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Abstract

“Herbal medicine has long been used to treat neural symptoms. Although the precise mechanisms of action of herbal drugs have yet to be determined, some of them have been shown to exert anti-inflammatory and/or anti-oxidant effects in a variety of peripheral systems. Now, as increasing evidence indicates that neuroglia-derived chronic inflammatory responses play a pathological role in the central nervous system, anti-inflammatory herbal medicine and its constituents are being proved to be a potent neuroprotector against various brain pathologies. Structural diversity of medicinal herbs makes them valuable source of novel lead compounds against therapeutic targets that are newly discovered by genomics, proteomics, and high-throughput screening.”

http://www.ncbi.nlm.nih.gov/pubmed/15956812

The endocannabinoid system in ageing: a new target for drug development.

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Abstract

“Endocannabinoids are a new class of lipids, which include amides, esters and ethers of long chain polyunsaturated fatty acids. Anandamide (N-arachidonoylethanolamine; AEA) and 2-arachidonoylglycerol are the main endogenous agonists of cannabinoid receptors able to mimic several pharmacological effects of Delta(9)-tetrahydrocannabinol, the active principle of Cannabis sativa preparations like hashish and marijuana. AEA is released “on demand” from membrane lipids, and its activity at the receptors is limited by cellular uptake followed by intracellular hydrolysis. Together with AEA and congeners, the proteins which bind, synthesize, transport and hydrolyze AEA form the “endocannabinoid system”. Endogenous cannabinoids are present in the central nervous system and in peripheral tissues, suggesting a physiological role as broad spectrum modulators. This review summarizes the main features of the endocannabinoid system, and the latest advances on its involvement in ageing of central and peripheral cells. In addition, the therapeutic potential of recently developed drugs able to modulate the endocannabinoid tone for the treatment of ageing and age-related human pathologies will be reviewed.”

http://www.ncbi.nlm.nih.gov/pubmed/17100593

Curing addiction with cannabis medicines

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“Smokers trying to quit in the future could do it with the help of cannabis based medicines, according to research from The University of Nottingham.

Teams of pharmacologists, studying the cannabis-like compounds which exist naturally in our bodies (endocannabinoids), are exploring the potential for medical treatment. This includes treating conditions as diverse as obesity, diabetes, depression and addiction to substances like nicotine.

Scientists have known about endocannabinoids since the mid-1990s. This led to an explosion in the number of researchers looking into the future medical uses of cannabinoids and cannabis compounds.

Dr Steve Alexander, Associate Professor in the School of Biomedical Sciences, focused on a number of these projects in editing the first themed podcast for the British Journal of Pharmacology.

Dr Alexander said: “It is clear that there is very realistic potential for cannabinoids as medicines. Scientists are looking at a range of possible applications.”

One of these researchers is Professor David Kendall, a cellular pharmacologist at the University: “The brain is full of cannabinoid receptors. And so, not surprisingly with diseases like depression and anxiety, there’s a great deal of interest in exploiting these receptors and in doing so, developing anti-depressant compounds.”

Addiction is a real target – researchers like Professor Kendall believe the endocannabinoids could be a crucial link to addictive behaviour: “We know that the endocannabinoid system is intimately involved in reward pathways and drug seeking behaviour. So this tends to indicate that that if the link involving endocannabinoids and the reward pathway, using inhibitors, can be interrupted, it could turn down the drive to seek addictive agents like nicotine.”

Because cannabinoids have also been shown to bring down blood pressure, it is hoped that related compounds can be used in patients with conditions like hypertension.

Dr Michael Randall, a cardiovascular pharmacologist at the University has looked at how endocannabinoids cause blood vessels to relax. “This could have many implications,” Dr Randall said. “The endocannabinoids appear to lower blood pressure under certain conditions; states of shock for example. If the endocannabinoids are of physiological importance, this could have real therapeutic possibilities.”

“In terms of getting better medicines the endocannabinoid system has a lot to offer,” said Dr Alexander. “The range of cannabis-related medicines is currently limited, but by increasing our knowledge in this area we can increase our stock.”

The University of Nottingham”

http://www.brightsurf.com/news/headlines/36296/Curing_addiction_with_cannabis_medicines.html

Positron Emission Tomography Shows Elevated Cannabinoid CB (1) Receptor Binding in Men with Alcohol Dependence.

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Abstract

“BACKGROUND:

Several lines of evidence link cannabinoid (CB) type 1 (CB (1) ) receptor-mediated endogenous CB (eCB) signaling to the etiology of alcohol dependence (AD). However, to date, only peripheral measures of eCB function have been collected in living humans with AD and no human in vivo data on the potentially critical role of the brain CB (1) receptor in AD have been published. This is an important gap in the literature, because recent therapeutic developments suggest that these receptors could be targeted for the treatment for AD.”

 

“CONCLUSIONS:

These findings agree with preclinical evidence and provide the first, albeit still preliminary in vivo evidence suggesting a role for brain CB (1) receptors in AD. The current study design does not answer the important question of whether elevated CB (1) receptors are a preexisting vulnerability factor for AD or whether elevations develop as a consequence of AD.”

http://www.ncbi.nlm.nih.gov/pubmed/22551199

Neuromodulatory role of the endocannabinoid signaling system in alcoholism: an overview.

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Abstract

“The current review evaluates the evidence that some of the pharmacological and behavioral effects of ethanol (EtOH), including EtOH-preferring behavior, may be mediated through the endocannabinoid signaling system. The recent advances in the understanding of the neurobiological basis of alcoholism suggest that the pharmacological and behavioral effects of EtOH are mediated through its action on neuronal signal transduction pathways and ligand-gated ion channels, receptor systems, and receptors that are coupled to G-proteins. The identification of a G-protein-coupled receptor, namely, the cannabinoid receptor (CB1 receptor) that was activated by Delta(9)-tetrahydrocannabinol (Delta(9)-THC), the major psychoactive component of marijuana, led to the discovery of endogenous cannabinoid agonists. To date, two fatty acid derivatives identified to be arachidonylethanolamide (AEA) and 2-arachidonylglycerol (2-AG) have been isolated from both nervous and peripheral tissues. Both these compounds have been shown to mimic the pharmacological and behavioral effects of Delta(9)-THC. The involvement of the endocannabinoid signaling system in the development of tolerance to the drugs of abuse including EtOH has not been known until recently. Recent studies from our laboratory have demonstrated for the first time the down-regulation of CB1 receptor function and its signal transduction by chronic EtOH. The observed down-regulation of CB1 receptor binding and its signal transduction results from the persistent stimulation of the receptors by the endogenous CB1 receptor agonists, AEA and 2-AG, the synthesis of which has been found to be increased by chronic EtOH treatment. This enhanced formation of endocannabinoids may subsequently influence the release of neurotransmitters. It was found that the DBA/2 mice, known to avoid EtOH intake, have significantly reduced brain-CB1-receptor function consistent with other studies, where the CB1 receptor antagonist SR141716A has been shown to block voluntary EtOH intake in rodents. Similarly, activation of the CB1 receptor system promoted alcohol craving, suggesting a role for the CB1 receptor gene in excessive EtOH drinking behavior and development of alcoholism. Ongoing investigations may lead to the development of potential therapeutic strategies for the treatment of alcoholism.”

http://www.ncbi.nlm.nih.gov/pubmed/12052043

ROLE OF THE ENDOCANNABINOID SYSTEM IN THE DEVELOPMENT OF TOLERANCE TO ALCOHOL

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“Alcohol dependence is a leading cause of morbidity and various medical and socio-economic problems. It is defined by compulsive, excessive use of alcohol despite negative consequences. Alcohol dependence is usually accompanied by tolerance to the intoxicating effects of alcohol and by withdrawal symptoms including tremors and confusion when consumption of alcohol ceases. Although important advances have been made in recent years in understanding the mechanisms underlying the development of tolerance to and dependence on alcohol, the exact mechanisms are still elusive. The present article reviews the role played by the endocannabinoid system in the molecular mechanism involved in the development of alcohol tolerance, which possibly influences alcohol-drinking behaviour.”

“The present review evaluates the evidence that the endocannabinoid system plays in the development of tolerance to alcohol. The identification of a G-protein-coupled receptor, namely, the cannabinoid receptor (CB1 receptor), which was activated by Δ9-tetrahydrocannabinol (Δ9-THC), the major psychoactive component of marijuana, led to the discovery of endogenous cannabinoid agonists. Until now, four fatty acid derivatives identified to be arachidonylethanolamide (AEA), 2-arachidonylglycerol (2-AG), 2-arachidonylglycerol ether (noladin ether) and virodhamine have been isolated from both nervous and peripheral tissues. Both AEA and 2-AG have been shown to mimic the pharmacological and behavioural effects of Δ9-THC. The role of the endocannabinoid system in the development of tolerance to alcohol was not known until recently. Recent studies from our laboratory have implicated for the first time a role for the endocannabinoid system in development of tolerance to alcohol. Chronic alcohol treatment has been shown to down-regulate CB1 receptors and its signal transduction. The observed downregulation of CB1 receptor function results from the persistent stimulation of the receptors by AEA and 2-AG, the synthesis of which has been shown to be increased by chronic alcohol treatment. The enhanced formation of endocannabinoids may subsequently influence the release of neurotransmitters. It was found that the DBA/2 mice, known to avoid alcohol intake, have significantly reduced CB1 receptor function in the brain, consistent with other studies in which the CB1 receptor antagonist SR 141716A has been shown to block voluntary alcohol intake in rodents. Similarly, activation of the CB1 receptor system promoted alcohol craving, suggesting a role for the CB1 receptor gene in excessive alcohol drinking behaviour and development of alcoholism. Ongoing investigations may lead to a better understanding of the mechanisms underlying the development of tolerance to alcohol and to develop therapeutic strategies to treat alcoholism.”

“CONCLUSION

Over the past seven years, remarkable advances have been made towards our understanding of the role played by the endocannabinoid system in the development of alcohol tolerance and alcohol-drinking behaviour. These studies have provided strong evidence that CB1 receptors and the endocannabinoid system serve as an attractive therapeutic target for the treatment of alcohol tolerance and alcohol-related disorders. The data reviewed here provide convincing evidence that alcohol tolerance involves the downregulation of the CB1 receptor and its function. The observed neuro-adaptation may be due to increased accumulation of the endocannabinoids AEA and 2-AG. Treatment with the CB1 receptor antagonist SR 141716A led to reduced consumption of alcohol in rodents and activation of the same endogenous cannabinoid systems by the CB1 receptor agonist promoted alcohol craving, which may be related to the change in the levels of dopamine in the NAc. Further, reduced alcohol intake by the CB1 receptor knockout mice is consistent with our previous observation that significantly lower levels of functional CB1 receptors are found in the alcohol-avoiding DBA/2 mouse strain compared with the alcohol-preferring C57BL/6 mouse strain. These observations suggest the involvement of the CB1 receptors in controlling voluntary alcohol consumption and the involvement of the endocannabinoid system in the development of alcohol tolerance. However, further studies are necessary to unfold the exact mechanism by which alcohol exerts its pharmacological and behavioural effects through the endocannabinoid system. The investigation of the detailed signalling cascade for the actions of both endocannabinoids and CB1 receptors will be of great value in understanding their physiological and functional role in several neurological disorders, voluntary alcohol intake and alcohol craving, including the behavioural neuroadaptation to alcohol. Such studies may also lead to the development of endocannabinoid signalling-targeted drugs, which may help to reduce both alcohol intake and alcohol craving. These results suggest that the cannabinoid antagonist, SR 141716A, may be useful as a potential therapeutic agent in alcohol dependence.”

http://www.ncbi.nlm.nih.gov/pubmed/15550443

http://alcalc.oxfordjournals.org/content/40/1/15.long

The endocannabinoid signaling system: a potential target for next-generation therapeutics for alcoholism

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“Alcoholism is a complex disorder affecting modern society in many ways, yet there are few effective treatment strategies currently available.”

“Research into the endocannabinoid signaling system has grown exponentially in recent years following the discovery of cannabinoid receptors (CB) and their endogenous ligands, such as anandamide (AEA) and 2-arachidonoylglycerol (2-AG). Important advances have been made in our understanding of the endocannabinoid signaling system in various aspects of alcoholism, including alcohol-seeking behavior. Alcohol increases the synthesis or impairs the degradation of endocannabinoids, leading to a locally elevated endocannabinoid tone within the brain. Elevated endocannabinoid tone might be expected to result in compensatory down-regulation of CB1 receptors or dampened signal transduction. Following release, endocannabinoids diffuse back to the presynaptic neuron where they act as short-range modulators of synaptic activity by altering neurotransmitter release and synaptic plasticity. Mice treated with the CB1 receptor antagonist SR141716A (rimonabant) or homozygous for a deletion of the CB1 receptor gene exhibit reduced voluntary alcohol intake. CB1 knockout mice also show increased alcohol sensitivity, withdrawal, and reduced conditioned place preference. Conversely, activation of CB1 receptor promotes alcohol intake. Recent studies also suggest that elevated endocannabinoid tone due to impaired degradation contributes to high alcohol preference and self-administration. These effects are reversed by local administration of rimonabant, suggesting the participation of the endocannabinoid signaling system in high alcohol preference and self-administration. These recent advances will be reviewed with an emphasis on the endocannabinoid signaling system for possible therapeutic interventions of alcoholism.”

“Overwhelmingly, recent studies suggest that cannabinoids and alcohol activate similar reward pathways. The CB1 receptors also seem to regulate the reinforcing properties of alcohol. The discovery of cannabinoid receptors and their endogenous ligands set a landmark in cannabinoid research. These discoveries impacted significantly on alcohol research, too, since there is now considerable evidence that endocannabinoid signaling plays a key role in alcohol addiction, and this has promising clinical consequences. The purpose of this article is to analyze the interaction between alcohol and endocannabinoid signaling, paying particular attention to the reward mechanism. Therapeutic aspects driving from these new insights are also discussed.”

“THERAPEUTIC OPPORTUNITY”

“Although the detailed physiology, biochemistry and pathophysiology of the endocannabinoid signaling system have not been fully investigated, there is already overwhelming evidence to indicate that pharmacological modulation of the endocannabinoid signaling system could provide new treatments for a number of disease states, including alcohol addiction. Recently it was reported that rimonabant holds an important therapeutic role in treating liver fibrosis and alcohol abuse accounts for more than half of the prevalence of liver fibrosis and cirrhosis in the western world. Therefore, it is important to examine whether alcohol-induced liver fibrosis and cirrhosis results in increased endocannabinoid levels and rimonabant reverses alcohol-induced liver fibrosis/cirrhosis. In terms of drug development, the CB1 receptor antagonist rimonabant has progressed furthest and is in late phase III trials for the treatment of obesity and as an aid for smoking cessation. An NIAAA clinical study of the effectiveness of rimonabant to reduce voluntary alcohol drinking has progressed to phase I trials. Pending results of the clinical trials, rimonabant could become an important addition to the limited arsenal of effective treatments for alcoholism. During drug abuse there are changes in endocannabinoid levels in various brain regions. Therefore, drugs which regulate the level of endocannabinoids by inhibiting their metabolism (FAAH inhibitors such as URB597) or uptake (AM404) could locally target sites while limiting effects in uninvolved cognitive areas to produce a higher therapeutic value. Cannabinoid interactions with the dopamine system have been offered as a possible mechanism for some of the therapeutic potential of cannabinoid-based drugs in alcoholism. A recent study provides evidence of the ability of CB1 receptor antagonist to mitigate alcohol-withdrawal symptoms, and block the formation of physical dependency by inhibiting alcohol intake. Recent data on the role of CB1 receptors in alcohol drinking behavior, including alcohol tolerance as discussed in the earlier sections, clearly suggest that agents such as CB1 receptor antagonists, including rimonabant, will be promising therapeutic agents for the treatment of alcoholism.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1975858/