Oxyradical Stress, Endocannabinoids, and Atherosclerosis.

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“Atherosclerosis is responsible for most cardiovascular disease (CVD) and is caused by several factors including hypertension, hypercholesterolemia, and chronic inflammation.

Oxidants and electrophiles have roles in the pathophysiology of atherosclerosis and the concentrations of these reactive molecules are an important factor in disease initiation and progression.

Overactive NADPH oxidase (Nox) produces excess superoxide resulting in oxidized macromolecules, which is an important factor in atherogenesis. Although superoxide and reactive oxygen species (ROS) have obvious toxic properties, they also have fundamental roles in signaling pathways that enable cells to adapt to stress.

In addition to inflammation and ROS, the endocannabinoid system (eCB) is also important in atherogenesis.

Linkages have been postulated between the eCB system, Nox, oxidative stress, and atherosclerosis.

For instance, CB2 receptor-evoked signaling has been shown to upregulate anti-inflammatory and anti-oxidative pathways, whereas CB1 signaling appears to induce opposite effects.

The second messenger lipid molecule diacylglycerol is implicated in the regulation of Nox activity and diacylglycerol lipase β (DAGLβ) is a key biosynthetic enzyme in the biosynthesis eCB ligand 2-arachidonylglycerol (2-AG).

Furthermore, Nrf2 is a vital transcription factor that protects against the cytotoxic effects of both oxidant and electrophile stress.

This review will highlight the role of reactive oxygen species (ROS) in intracellular signaling and the impact of deregulated ROS-mediated signaling in atherogenesis.

In addition, there is also emerging knowledge that the eCB system has an important role in atherogenesis.

We will attempt to integrate oxidative stress and the eCB system into a conceptual framework that provides insights into this pathology.”

http://www.ncbi.nlm.nih.gov/pubmed/26702404

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

An Introduction to the Endogenous Cannabinoid System.

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“The endocannabinoid system (ECS) is a widespread neuromodulatory system that plays important roles in central nervous system development, synaptic plasticity, and the response to endogenous and environmental insults.

The ECS comprises cannabinoid receptors, endogenouscannabinoids (endocannabinoids), and the enzymes responsible for the synthesis and degradation of the endocannabinoids.

The most abundant cannabinoid receptors are the CB1 cannabinoid receptors; however, CB2 cannabinoid receptors, transient receptor potential channels, and peroxisome proliferator activated receptors are also engaged by some cannabinoids.

Exogenous cannabinoids, such as tetrahydrocannabinol, produce their biological effects through their interactions with cannabinoid receptors.

The best-studied endogenous cannabinoids are 2-arachidonoyl glycerol and arachidonoyl ethanolamide (anandamide). Despite similarities in chemical structure, 2-arachidonoyl glycerol and anandamide are synthesized and degraded by distinct enzymatic pathways, which impart fundamentally different physiologic and pathophysiologic roles to these two endocannabinoids.

As a result of the pervasive social use of cannabis and the involvement of endocannabinoids in a multitude of biological processes, much has been learned about the physiologic and pathophysiologic roles of the ECS.

This review provides an introduction to the ECS with an emphasis on its role in synaptic plasticity and how the ECS is perturbed in schizophrenia.”

http://www.ncbi.nlm.nih.gov/pubmed/26698193

Human rights, public health and medicinal cannabis use.

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“This paper explores the interplay between the human rights and drug control frameworks and critiques case law on medicinal cannabis use to demonstrate that a bona fide human rights perspective allows for a broader conception of ‘health’.

This broad conception, encompassing both medicalised and social constructionist definitions, can inform public health policies relating to medicinal cannabis use.

The paper also demonstrates how a human rights lens can alleviate a core tension between the State and the individual within the drug policy field.

The leading medicinal cannabis case in the UK highlights the judiciary’s failure to engage with an individual’s human right to health as they adopt an arbitrary, externalist view, focussing on the legality of cannabis to the exclusion of other concerns.

Drawing on some international comparisons, the paper considers how a human rights perspective can lead to an approach to medicinal cannabis use which facilitates a holistic understanding of public health.”

http://www.ncbi.nlm.nih.gov/pubmed/26692654

Beneficial effects of a Cannabis sativa extract treatment on diabetes-induced neuropathy and oxidative stress.

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“Neuropathy is the most common complication of diabetes and it is still considered to be relatively refractory to most of the analgesics. The aim of the present study was to explore the antinociceptive effect of a controlled cannabis extract (eCBD) in attenuating diabetic neuropathic pain.

These findings highlighted the beneficial effects of cannabis extract treatment in attenuating diabetic neuropathic pain, possibly through a strong antioxidant activity and a specific action upon nerve growth factor.”

http://www.ncbi.nlm.nih.gov/pubmed/19441010

The cross-talk between electrophiles, antioxidant defence and the endocannabinoid system in fibroblasts and keratinocytes after UVA and UVB irradiation.

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“UV, including UVA and UVB radiation, is one of the most ubiquitous environmental stress factors to human skin and leads to redox imbalance and, consequently, photoaging and cancer development. The aim of the study was to verify which skin cells, keratinocytes or fibroblasts, were more susceptible to UVA or UVB irradiation.

The results presented in this paper demonstrate a strong relationship between UV-induced oxidative stress and changes in the endocannabinoid system.

The differences demonstrated in the response of the tested cells to UV irradiation allow for a better understanding of the mechanisms occurring in the human skin, which may be exploited for future therapies in dermatology.”

http://www.ncbi.nlm.nih.gov/pubmed/26674123

Cannabis for posttraumatic stress disorder: A neurobiological approach to treatment.

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“The endocannabinoid system is intricately involved in regulation of the neurobiological processes, which underlie the symptomatology of posttraumatic stress disorder (PTSD). This article discusses the neurobiological underpinnings of PTSD and the use of cannabis for treating PTSD in the New Mexico Medical Cannabis Program.”

GPR55 – a putative “type 3” cannabinoid receptor in inflammation.

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“G protein-coupled receptor 55 (GPR55) shares numerous cannabinoid ligands with CB1 and CB2 receptors despite low homology with those classical cannabinoid receptors. The pharmacology of GPR55 is not yet fully elucidated; however, GPR55 utilizes a different signaling system and downstream cascade associated with the receptor.

Therefore, GPR55 has emerged as a putative “type 3″ cannabinoid receptor, establishing a novel class of cannabinoid receptor.

Furthermore, the recent evidence of GPR55-CB1 and GPR55-CB2 heteromerization along with its broad distribution from central nervous system to peripheries suggests the importance of GPR55 in various cellular processes and pathologies and as a potential therapeutic target in inflammation.”

 http://www.ncbi.nlm.nih.gov/pubmed/26669245

Cannabis ‘Can Reduce Tumour Growth’, Expert Says

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“He believes chemicals in cannabis could be anti-cancer agents”

Cannabis

Marijuana is now used by cancer patients in some countries to ease the pain of their illness – but it might actually offer a cure.Guillermo Velasco of the Complutense University of Madrid says there is evidence that cannabinoids – chemicals in cannabis – actually reduced tumour growth in animals.But he says that there is little interest from pharmaceutical companies.

Velasco told Upworthy,, ‘One of the reasons why [it] is so complicated to promote clinical studies is that the active components of marijuana are natural products that cannot be patented and therefore there are few pharma companies interested in their clinical development.’

Earlier this year, the U.S. government admitted that the drug can shrink cancer cells in rodent studies.

In a page of official government advice, the U.S. government now says,, ‘Cannabis has been shown to kill cancer cells in the laboratory.’

The site says that the effect has so far been seen in rodent studies, and cautions,  ‘At this time, there is not enough evidence to recommend that patients inhale or ingest Cannabis as a treatment for cancer-related symptoms or side effects of cancer therapy.’’”  https://uk.news.yahoo.com/cannabis–can-reduce-tumour-growth—expert-says-120408138.html#pQEf8NO

Small Molecules from Nature Targeting G-Protein Coupled Cannabinoid Receptors: Potential Leads for Drug Discovery and Development.

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“The cannabinoid molecules are derived from Cannabis sativa plant which acts on the cannabinoid receptors types 1 and 2 (CB1 and CB2) which have been explored as potential therapeutic targets for drug discovery and development.

Currently, there are numerous cannabinoid based synthetic drugs used in clinical practice like the popular ones such as nabilone, dronabinol, and Δ9-tetrahydrocannabinol mediates its action through CB1/CB2receptors.

In recent years, many phytocannabinoids have been isolated from plants other than Cannabis. Several studies have shown that these phytocannabinoids show affinity, potency, selectivity, and efficacy towards cannabinoid receptors and inhibit endocannabinoid metabolizing enzymes, thus reducing hyperactivity of endocannabinoid systems.

Also, these naturally derived molecules possess the least adverse effects opposed to the synthetically derived cannabinoids. Therefore, the plant based cannabinoid molecules proved to be promising and emerging therapeutic alternative.

The present review provides an overview of therapeutic potential of ligands and plants modulating cannabinoid receptors that may be of interest to pharmaceutical industry in search of new and safer drug discovery and development for future therapeutics.”