Category Archives: Addiction

Role of endocannabinoids in regulating drug dependence.

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 “This review will discuss the latest knowledge of how the endocannabinoid system might be involved in treating addiction to the most common illicit drugs. Experimental models are providing increasing evidence for the pharmacological management of endocannabinoid signaling not only to block the direct reinforcing effects of cannabis, opioids, nicotine and ethanol, but also for preventing relapse to the various drugs of abuse, including opioids, cocaine, nicotine, alcohol and metamphetamine. Preclinical and clinical studies suggest that the endocannabinoid system can be manipulated by the CB1 receptor antagonist SR141716A, that might constitute a new generation of compounds for treating addiction across different classes of abused drugs.”

“In the last 25 years the neurobiological and behavioral mechanisms that lead to drug dependence have been extensively investigated but clinical treatment is still unsatisfactory and ineffective in many subjects.”

“Experimental models are now providing evidence for the pharmacological management of endocannabinoid signaling not only to block the direct reinforcing effects of cannabis, opioids, nicotine and ethanol, but also to prevent relapse to these various substances of abuse, also including cocaine and metamphetamine. The endocannabinoid system can be manipulated by SR141716A and by all the new compounds that protect AEA and 2-AG from deactivation and prolong the lifespan of these endocannabinoid substances in vivo. Rimonabant reduces the motivational effect of drug-related stimuli and drug re-exposure, probably by altering synaptic plasticity, thus providing an effective means of preventing relapse and a new tool for the treatment of drug abuse.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2656312/

The role of the endogenous cannabinoid system in drug addiction.

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Abstract

“This review aims to present the more recent knowledge on the role of the endocannabinoid system in drug addiction. For a long time, dopamine has been consistently associated with the reinforcing effects of most drugs of abuse but, recently, pharmacological evidence points to the possibility that pharmacological management of the endocannabinoid system might not only block the direct reinforcing effect of cannabis, opioids, nicotine and ethanol, but also prevent the relapse to various drugs of abuse including opioids, cocaine, nicotine, alcohol and amphetamine. Preclinical and clinical studies suggest that the manipulation of the endocannabinoid system through the CB(1) receptor antagonist SR-141716A (rimonabant) might constitute a new therapeutical strategy for treating addiction across different classes of abused drugs.”

http://www.ncbi.nlm.nih.gov/pubmed/18560613

Cannabinoid CB1 receptor antagonists as potential pharmacotherapies for drug abuse disorders.

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Abstract

“Since the discovery of the cannabinoid CB1 receptor (CB1R) in 1988, and subsequently of the CB2 receptor (CB2R) in 1993, there has been an exponential growth of research investigating the functions of the endocannabinoid system. The roles of CB1Rs have been of particular interest to psychiatry because of their selective presence within the CNS and because of their association with brain-reward circuits involving mesocorticolimbic dopamine systems. One potential role that has become of considerable focus is the ability of CB1Rs to modulate the effects of the drugs of abuse. Many drugs of abuse elevate dopamine levels, and the ability of CB1R antagonists or inverse agonists to modulate these elevations has suggested their potential application as pharmacotherapies for treating drug abuse disorders. With the identification of the selective CB1R antagonist, rimonabant, in 1994, and subsequently of other CB1R antagonists, there has been a rapid expansion of research investigating their ability to modulate the effects of the drugs of abuse. This review highlights some of the preclinical and clinical studies that have examined the effects of CB1R antagonists under conditions potentially predictive of their therapeutic efficacy as treatments for drug abuse disorders.”

http://www.ncbi.nlm.nih.gov/pubmed/19367507

Current evidence supporting a role of cannabinoid CB1 receptor (CB1R) antagonists as potential pharmacotherapies for drug abuse disorders.

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Abstract

“Since the discovery of the cannabinoid CB1 receptor (CB1R) in 1988, and subsequently of the CB2 receptor (CB2R) in 1993, there has been an exponential growth of research investigating the functions of the endocannabinoid system. The roles of CB1Rs have been of particular interest to behavioral pharmacologists because of their selective presence within the central nervous system (CNS) and because of their association with brain-reward circuits involving mesocorticolimbic dopamine systems. One potential role that has become of considerable recent focus is the ability of CB1Rs to modulate the effects of drugs of abuse. Many drugs of abuse elevate dopamine levels, and the ability of CB1R antagonists or inverse agonists to attenuate these elevations has suggested their potential application as pharmacotherapies for treating drug abuse disorders. With the identification of the selective CB1R antagonist, SR141716, in 1994, and its subsequent widespread availability, there has been a rapid expansion of research investigating its ability to modulate the effects of drugs of abuse. The preliminary clinical reports of its success in retarding relapse in tobacco users have accelerated this expansion. This report critically reviews preclinical and clinical studies involving the ability of CB1R antagonists to attenuate the effects of drugs of abuse, while providing an overview of the neuroanatomical and neurochemical points of contact between the endocannabinoid system and systems mediating abuse-related effects.”

http://www.ncbi.nlm.nih.gov/pubmed/16148435

Neurobiology of addiction: insight from neurochemical imaging.

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Abstract

“Neuroimaging studies have been crucial in understanding changes in the various neurotransmitter systems implicated in addiction in the living human brain. Predominantly reduced striatal dopamine transmission appears to play an important role in psychostimulant, alcohol and heroin addiction, while addiction to cannabis may be mediated primarily by the endocannabinoid system. However, the study of other neurotransmitter systems likely involved in addiction, for example glutamate, has been limited by the number and quality of available radiotracers, and data on changes in these systems in the most common addictions are emerging only now. Further studies are needed to understand fully how the interplay of various neurotransmitter systems contributes to addiction and to ultimately help to develop more effective treatment approaches.”

http://www.ncbi.nlm.nih.gov/pubmed/22640769

An endocannabinoid hypothesis of drug reward and drug addiction.

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Abstract

“Pharmacologic treatment of drug and alcohol dependency has largely been disappointing, and new therapeutic targets and hypotheses are needed. There is accumulating evidence indicating a central role for the previously unknown but ubiquitous endocannabinoid physiological control system (EPCS) in the regulation of the rewarding effects of abused substances. Thus an endocannabinoid hypothesis of drug reward is postulated. Endocannabinoids mediate retrograde signaling in neuronal tissues and are involved in the regulation of synaptic transmission to suppress neurotransmitter release by the presynaptic cannabinoid receptors (CB-Rs). This powerful modulatory action on synaptic transmission has significant functional implications and interactions with the effects of abused substances. Our data, along with those from other investigators, provide strong new evidence for a role for EPCS modulation in the effects of drugs of abuse, and specifically for involvement of cannabinoid receptors in the neural basis of addiction. Cannabinoids and endocannabinoids appear to be involved in adding to the rewarding effects of addictive substances, including, nicotine, opiates, alcohol, cocaine, and BDZs. The results suggest that the EPCS may be an important natural regulatory mechanism for drug reward and a target for the treatment of addictive disorders.”

http://www.ncbi.nlm.nih.gov/pubmed/18991888

Endocannabinoid system involvement in brain reward processes related to drug abuse.

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“Cannabis is the most commonly abused illegal drug in the world and its main psychoactive ingredient, delta-9-tetrahydrocannabinol (THC), produces rewarding effects in humans and non-human primates. Over the last several decades, an endogenous system comprised of cannabinoid receptors, endogenous ligands for these receptors and enzymes responsible for the synthesis and degradation of these endogenous cannabinoid ligands has been discovered and partly characterized. Experimental findings strongly suggest a major involvement of the endocannabinoid system in general brain reward functions and drug abuse. First, natural and synthetic cannabinoids and endocannabinoids can produce rewarding effects in humans and laboratory animals. Second, activation or blockade of the endogenous cannabinoid system has been shown to modulate the rewarding effects of non-cannabinoid psychoactive drugs. Third, most abused drugs alter brain levels of endocannabinoids in the brain. In addition to reward functions, the endocannabinoid cannabinoid system appears to be involved in the ability of drugs and drug-related cues to reinstate drug-seeking behavior in animal models of relapse. Altogether, evidence points to the endocannadinoid system as a promising target for the development of medications for the treatment of drug abuse.”

“The endogenous cannabinoid is a recently discovered system that appears to play an important and pervasive role in many types of drug abuse and dependence. Endogenous cannabinoids are neuromodulators that are involved in the signalling of rewarding events and can produce reinforcing and rewarding effects in experimental animals, as they do in humans. Endogenous cannabinoids can also activate other brain systems involved in reward signalling, can modulate the reinforcing and rewarding effects of other non-cannabinoid abused drugs, and are released by drugs of abuse in brain areas involved in reward and reinforcement processes. Accumulating evidence points to the endocannabinoid system as a major target for the development of new pharmacological agents for the treatment of many different types of drug abuse and dependence.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2189556/

Endocannabinoid influence in drug reinforcement, dependence and addiction-related behaviors.

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Abstract

“The endogenous cannabinoid system is an important regulatory system involved in physiological homeostasis. Endocannabinoid signaling is known to modulate neural development, immune function, metabolism, synaptic plasticity and emotional state. Accumulating evidence also implicates brain endocannabinoid signaling in the etiology of drug addiction which is characterized by compulsive drug seeking, loss of control in limiting drug intake, emergence of a negative emotional state in the absence of drug use and a persistent vulnerability toward relapse to drug use during protracted abstinence. In this review we discuss the effects of drug intake on brain endocannabinoid signaling, evidence implicating the endocannabinoid system in the motivation for drug consumption, and drug-induced alterations in endocannabinoid function that may contribute to various aspects of addiction including dysregulated synaptic plasticity, increased stress responsivity, negative affective states, drug craving and relapse to drug taking. Current knowledge of genetic variants in endocannabinoid signaling associated with addiction is also discussed.”

http://www.ncbi.nlm.nih.gov/pubmed/21798285

Marijuana withdrawal and craving: influence of the cannabinoid receptor 1 (CNR1) and fatty acid amide hydrolase (FAAH) genes

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 “While cannabis withdrawal may not include some of the serious medical problems observed with alcohol and opioid withdrawal, it is likely that the symptoms associated with cannabis withdrawal (e.g. negative affect, appetite and sleep disturbance) contribute to the development and intractability of cannabis dependence. In this sense, cannabis withdrawal may be analogous to other, better-understood withdrawal syndromes (e.g. tobacco withdrawal, alcohol withdrawal) that have been the target of intervention efforts. Furthermore, cannabis withdrawal has been described increasingly in terms of the physiological sequelae that coincide with this syndrome, including alterations in dopamine neurotransmission, as well as alterations in other systems.”.

“These findings may have both etiological and treatment implications. For example, individuals with the CNR1 T/C genotype may be more likely to develop dependence and/or more likely to have trouble establishing abstinence or reducing marijuana use. However, longitudinal studies will be needed to clarify whether this genetic variable actually influences the trajectory of marijuana use/dependence. In addition, treatment studies that incorporate this information are needed to determine whether these (or other) genetic variants may influence treatment outcomes and determine whether alternative treatments may be indicated for these individuals.”

“In conclusion, the cannabis dependence endophenotypes, craving and withdrawal, are important factors in the etiology and treatment of cannabis dependence and, given growing recognition of the underlying physiological sequalae that coincide with long-term cannabis use, these phenotypes are likely to lend themselves to the identification of underlying genetic factors that have direct implications for treatment approaches.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2873690/

The genetic basis of the endocannabinoid system and drug addiction in humans.

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Abstract

“The cannabinoid receptor (CNR1) and the fatty acid amide hydrolase (FAAH) genes are located on chromosomes 6 and 1 in the 6q15 and 1p33 cytogenetic bands, respectively. CNR1 encodes a seven-transmembrane domain protein of 472 amino acids, whereas FAAH encodes one transmembrane domain of 579 amino acids. Several mutations found in these genes lead to altered mRNA stability and transcription rate or a reduction of the activity of the encoded protein. Increasing evidence shows that these functional mutations are related to dependence upon cocaine, alcohol, marijuana, heroin, nicotine and other drugs. One of the most compelling associations is with the C385A single nucleotide polymorphism (SNP), which is found in the FAAH gene. For all of the genetic polymorphisms reviewed here, it is difficult to form overall conclusions due to the high diversity of population samples being studied, ethnicity, the use of volunteers, heterogeneity of the recruitment criteria and the drug addiction phenotype studied. Care should be taken when generalizing the results from different studies. However, many works have repeatedly associated polymorphisms in the CNR1 and FAAH genes with drug-related behaviours; this suggests that these genes should be examined in further genetic studies focusing on drug addiction and other psychiatric disorders.”

http://www.ncbi.nlm.nih.gov/pubmed/21937688