Category Archives: Endocannabinoid System

Cannabis Targets Receptors in the Amygdala Linked to Anxiety

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“Marijuana may hijack cannabinoid receptors in the amygdala to reduce anxiety.”

“An international group of researchers led by Vanderbilt University has discovered for the first time that there are cannabinoid receptors in the amygdala. The amygdala is one of the primary brain regions involved in regulating anxiety and the flight-or-fight response.

“The discovery may help explain why marijuana users say they take the drug mainly to reduce anxiety” said Sachin Patel, M.D., Ph.D., the paper’s senior author and professor of Psychiatry and of Molecular Physiology and Biophysics at Vanderbilt. He said, “this could be highly important for understanding how cannabis exerts its behavioral effects.”

The study titled, “Multiple Mechanistically Distinct Modes of Endocannabinoid Mobilization at Central Amygdala Glutamatergic Synapses” is published in the March 2014 issue of the journal Neuron.”

https://www.psychologytoday.com/blog/the-athletes-way/201403/cannabis-targets-receptors-in-the-amygdala-linked-anxiety

New Study Finds Marijuana To Be Effective Against Depression, Migraine and Anxiety

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“Research has suggested that cannabis may be a promising treatment option for a number of different physical and mental health conditions, from post-traumatic stress disorder to chronic pain. A study released this week suggests that depression , anxiety and migraine can be added to that list.

Neuroscientists from the University of Buffalo’s Research Institute on Addictions found that endocannabinoids — chemical compounds in the brain that activate the same receptors as THC, an active compound in marijuana — may be helpful in treating depression, anxiety and migraine that results from chronic stress.

In studies on rats, the researchers found that chronic stress reduced the production of endocannabinoids, which affect our cognition, emotion and behavior, and have been linked to reduced feelings of pain and anxiety, increases in appetite and overall feelings of well-being. The body naturally produces these compounds, which are similar to the chemicals in cannabis. Reduction of endocannabinoid production may be one reason that chronic stress is a major risk factor in the development of depression.

Then, the research team administered marijuana cannabinoids to the rats, finding it to be an effective way to restore endocannabinoid levels in their brains — possibly, thereby, alleviating some symptoms of depression.

“Using compounds derived from cannabis — marijuana — to restore normal endocannabinoid function could potentially help stabilize moods and ease depression,” lead researcher Dr. Samir Haj-Dahmane said in a university press release.

Recent research around marijuana’s effect on symptoms of post-traumatic stress disorder further bolsters the Buffalo neuroscientists’ findings, since both disorders involve the way the brain responds to stress. A study published last year in the journal Neuropsychopharmacology, for instance, found synthetic cannabinoids triggered changes in brain centers associated with traumatic memories in rats, preventing some of the behavioral and physiological symptoms of PTSD. Another study published last year found that patients who smoked cannabis experienced a 75 percent reduction in PTSD symptoms.

However, it’s important to note that the relationship between marijuana and depression  is complex. Some research has suggested that regular and heavy marijuana smokers are at a higher risk for depression, although a causal link between cannabis use and depression has not been established. More studies are needed in order to determine whether, and how, marijuana might be used in a clinical context for patients with depression.”  http://painphysicianjournal.co/2016/06/30/new-study-finds-marijuana-to-be-effective-against-depression-migraine-and-anxiety/

http://painphysicianjournal.co/2016/06/30/new-study-finds-marijuana-to-be-effective-against-depression-migraine-and-anxiety/

Study reveals central role of endocannabinoids in habit formation

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National Institutes of Health (NIH) - Turning Discovery into Health

“Daily activities involve frequent transitions between habitual behaviors, such as driving home, and goal-directed behaviors, such as driving to a new destination on unfamiliar roads. An inability to shift between habitual and non-habitual behaviors has been implicated in obsessive-compulsive disorder (OCD), addiction, and other disorders characterized by impaired decision-making.

In a new study conducted with mice, scientists report that endocannabinoids, natural messengers in the body that are chemically similar to the active compound in marijuana, play an important role in how the brain controls this fundamental process.

The National Institute on Alcohol Abuse and Alcoholism (NIAAA), part of the National Institutes of Health, funded the study.

“The new findings point to a previously unknown mechanism in the brain that regulates the transition between goal-directed and habitual behaviors,” said George F. Koob, Ph.D., NIAAA director. “As we learn more about this mechanism, it could reveal how the brain forms habits and, more specifically, how both endocannabinoids and cannabinoid abuse can influence habitual behavior pathophysiology.” A report of the findings is now online in the journal Neuron.

Previous work in NIAAA’s Laboratory for Integrative Neuroscience suggested that reduced activity in the brain’s orbitofrontal cortex (OFC) underlies habit formation. Endocannabinoids are known to generally reduce the activity of neurons. In the current study, the authors, hypothesized that endocannabinoids in the OFC could be playing a key role in habit formation. The researchers used a newly developed procedure that allowed them to probe the brain mechanisms involved when a mouse shifts from goal-directed to habitual actions. By chemically inhibiting the activity of neurons in the OFC, they disrupted goal-directed behaviors and the mice relied on habitual actions instead. David Lovinger, Ph.D., chief of the NIAAA Laboratory for Integrative Neuroscience, Rui Costa, Ph.D., D.V.M., from the Champalimaud Centre for the Unknown in Lisbon, Portugal, and first author Christina Gremel, Ph.D. from NIAAA and the University of California, San Diego led the research team.

“Mice were trained to receive a food reward in two different ways,” said Dr. Lovinger. “One way required the animal to respond out of habit, while the second way demanded it to perform behaviors that were goal-directed.”

When Dr. Lovinger and his colleagues selectively deleted a particular endocannabinoid receptor, called cannabinoid type 1 (CB1), from OFC neurons, they found that mice that lacked these receptors did not form habits, but used goal-directed responses to receive the food reward. Animals with intact CB1 receptors preferentially used habitual responses to obtain the food reward. The authors say the new study points to a molecular mechanism through which endocannabinoids promote the formation of habits by reducing the flow of information in the OFC.

“Endocannabinoids appear to act as a brake in the OFC, allowing for habit formation,” said Dr. Gremel, an assistant professor of psychology and affiliated with the Neurosciences Graduate program at UCSD. “Our results suggest that alterations in the brain’s endocannabinoid system could be blocking the brain’s capacity to ‘break habits’ as observed in disorders that affect switching between goal-directed and habitual behaviors.”

The authors concluded that their findings demonstrate the existence of parallel brain circuits that mediate goal-directed and habitual behaviors. Drugs of abuse and neuropsychiatric disorders can affect decision-making by changing the balance between habitual and goal-directed actions. In particular, these mechanisms could help explain how cannabis drugs such as marijuana affect memory and decision-making.

The new findings suggest that strategies that target the brain’s endocannabinoid system might restore this balance and alleviate suffering in disorders involving these processes.”

https://www.nih.gov/news-events/news-releases/study-reveals-central-role-endocannabinoids-habit-formation?source=acsh.org

The endocannabinoid system and Post Traumatic Stress Disorder (PTSD): From preclinical findings to innovative therapeutic approaches in clinical settings.

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“Post-Traumatic Stress Disorder (PTSD) is a psychiatric chronic disease developing in individuals after the experience of an intense and life-threatening traumatic event. The post-traumatic symptomatology encompasses alterations in memory processes, mood, anxiety and arousal.

There is now consensus in considering the disease as an aberrant adaptation to traumatic stress. Pharmacological research, aimed at the discovery of new potential effective treatments, has lately directed its attention towards the “so-called” cognitive enhancers. This class of substances, by modulating cognitive processes involved in the development and/or persistence of the post-traumatic symptomatology, could be of great help in improving the outcome of psychotherapies and patients’ prognosis.

In this perspective, drugs acting on the endocannabinoid system are receiving great attention due to their dual ability to modulate memory processes on one hand, and to reduce anxiety and depression on the other.

The purpose of the present review is to offer a thorough overview of both animal and human studies investigating the effects of cannabinoids on memory processes.

First, we will briefly describe the characteristics of the endocannabinoid system and the most commonly used animal models of learning and memory. Then, studies investigating cannabinoid modulatory influences on memory consolidation, retrieval and extinction will be separately presented, and the potential benefits associated with each approach will be discussed.

In the final section, we will review literature data reporting beneficial effects of cannabinoid drugs in PTSD patients.”

http://www.ncbi.nlm.nih.gov/pubmed/27456243

Refractory trigeminal neuralgia responsive to nabiximols in a patient with multiple sclerosis.

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“Nabiximols is a cannabinoid compound approved for the treatment of multiple sclerosis (MS)-related spasticity.

However, additional symptoms, such as pain, urinary urgency and sleep disturbance, may benefit from treatment.

CASE REPORT:

The present report describes a patient with secondary progressive MS and severe lower limbs spasticity who was started on treatment with nabiximols. The patient also suffered from trigeminal neuralgia, which he was not treating due to inefficacy or side effects of all previously tried medications. After nabiximols initiation the patient experienced a marked benefit on trigeminal neuralgia, which completely resolved, while spasticity responded only partially to treatment.

CONCLUSION:

Nabiximols mechanism of action is based on the interaction with CB1 and CB2 receptors, which are expressed by central nervous system neurons and are known to modulate pain among other effects. The present case indicates that nabiximols and other cannabinoids need to be further tested for the treatment of trigeminal neuralgia.”

http://www.ncbi.nlm.nih.gov/pubmed/27456876

“Therapeutic potential of cannabinoids in trigeminal neuralgia. Considering the pronounced antinociceptive effects produced by cannabinoids, they may be a promising therapeutic approach for the clinical management of trigeminal neuralgia.”  http://www.ncbi.nlm.nih.gov/pubmed/15578967

Blockade of Cannabinoid CB1 receptor attenuates the acquisition of morphine-induced conditioned place preference along with a downregulation of ERK, CREB phosphorylation, and BDNF expression in the nucleus accumbens and hippocampus.

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“Cannabinoid CB1 receptor (CB1R) is highly expressed in the mesocorticolimbic system and associated with drug craving and relapse.

Clinical trials suggest that CB1R antagonists may represent new therapies for drug addiction.

Collectively, these findings demonstrate that 1) Repeated morphine with context exposures but not merely the pharmacological effects of morphine increased CB1R expression both in the NAc and hippocampus. 2) CB1R antagonist mediated blockade of ERK-CREB-BDNF signaling activation in the NAc and hippocampus may be an important mechanism underlying the attenuation of morphine CPP.”

http://www.ncbi.nlm.nih.gov/pubmed/27461790

Deficient Adolescent Social Behavior Following Early-Life Inflammation is Ameliorated by Augmentation of Anandamide Signaling.

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“Early-life inflammation has been shown to exert profound effects on brain development and behavior, including altered emotional behavior, stress responsivity and neurochemical/neuropeptide receptor expression and function.

The current study extends this research by examining the impact of inflammation, triggered with the bacterial compound lipopolysaccharide (LPS) on postnatal day (P) 14, on social behavior during adolescence.

We investigate the role that the endocannabinoid (eCB) system plays in sociability after early-life LPS.

These data suggest that alterations in eCB signaling following postnatal inflammation contribute to impairments in social behavior during adolescence and that inhibition of FAAH could be a novel target for disorders involving social deficits such as social anxiety disorders or autism.”

http://www.ncbi.nlm.nih.gov/pubmed/27453335

The CB1 Antagonist, SR141716A, Is Protective in Permanent Photothrombotic Cerebral Ischemia.

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“Modulation of the endocannabinoid system has been shown to have a significant impact on outcomes in animal models of stroke.

We have previously reported a protective effect of the CB1 antagonist, SR141716A, in a transient reperfusion mouse model of cerebral ischemia. This protective effect was in part mediated by activation of the 5HT1A receptor.

Here we have examined its effect in a mouse model of permanent ischemia induced by photoinjury.

The CB1 antagonist was found to be protective in this model.

As was the case following transient ischemia reperfusion, SR141716A (5mg/kg) resulted in smaller infarct fractions and stroke volumes when utilized both as a pretreatment and as a post-treatment. In contrast to the effect in a transient ischemia model, the pretreatment effect did not depend on the 5HT1A receptor.

Neurological function correlated favorably to the reduction in stroke size when SR141716A was given as a pretreatment.

With the incidence of stroke predicted to rise in parallel with an ever aging population, understanding mechanisms underlying ischemia and therapeutics remains a paramount goal of research.”

http://www.ncbi.nlm.nih.gov/pubmed/27453059

Cannabinoid Receptor 1 (CNR1) Gene Variant Moderates Neural Index of Cognitive Disruption during Nicotine Withdrawal.

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“Nicotine withdrawal-related disruption of cognitive control may contribute to the reinforcement of tobacco use.

Identification of gene variants that predict this withdrawal phenotype may lead to tailored pharmacotherapy for smoking cessation.

Variation on the cannabinoid receptor 1 gene (CNR1) has been related to nicotine dependence, and CNR1 antagonists may increase attention and memory functioning.

The current findings suggest potential efficacy of cannabinoid RECEPTOR antagonism as a pharmacotherapy approach for smoking cessation among individuals who exhibit greater nicotine withdrawal-related cognitive disruption.”

http://www.ncbi.nlm.nih.gov/pubmed/27453054

Crucial Roles of the Endocannabinoid 2-Arachidonoylglycerol in the Suppression of Epileptic Seizures.

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“Endocannabinoid signaling is considered to suppress excessive excitability of neural circuits and to protect the brain from seizures. However, the precise mechanisms of this effect are poorly understood.

Here, we report that 2-arachidonoylglycerol (2-AG), one of the two major endocannabinoids, is crucial for suppressing seizures.

We found that kainate-induced seizures in mice lacking the 2-AG synthesizing enzyme, diacylglycerol lipase α, were much more severe compared with those in cannabinoid CB1 receptor knockout mice and were comparable to those in mice lacking both CB1– and CB2-receptor-mediated signaling.

In the dentate gyrus, 2-AG suppressed excitatory input around the inner and middle molecular layers through CB1 and presumably CB2 receptors, respectively.

This 2-AG-mediated suppression contributed to decreased granule cell excitability and the dampening of seizures. Furthermore, lack of 2-AG signaling enhanced kindling epileptogenesis and spontaneous seizures after kainate-induced status epilepticus.

These results highlight critical roles of 2-AG signaling in the suppression of epileptic seizures.”

http://www.ncbi.nlm.nih.gov/pubmed/27452464