Cannabinoids and neuroinflammation

Abstract

“Growing evidence suggests that a major physiological function of the cannabinoid signaling system is to modulate neuroinflammation. This review discusses the anti-inflammatory properties of cannabinoid compounds at molecular, cellular and whole animal levels, first by examining the evidence for anti-inflammatory effects of cannabinoids obtained using in vivo animal models of clinical neuroinflammatory conditions, specifically rodent models of multiple sclerosis, and second by describing the endogenous cannabinoid (endocannabinoid) system components in immune cells. Our aim is to identify immune functions modulated by cannabinoids that could account for their anti-inflammatory effects in these animal models.”

Conclusion

“Cells involved in neuroinflammation express functional cannabinoid receptors and produce and degrade endocannabinoids, suggesting that the endocannabinoid signaling system has a regulatory function in the inflammatory response. Specifically, during neuroinflammation, there is an upregulation of components involved in the cannabinoid signaling system. This suggests that the cannabinoid signaling system participates in the complex development of this disease, which includes a tight orchestration of the various immune cells involved. If this is the case, the cannabinoid signaling machinery may provide ideal targets, since these would be more susceptible to pharmacological effects than those in the same system under healthy conditions. In line with this, cannabinoid compounds alter the functions of these cells, generally by eliciting anti-inflammatory effects. In the case of MS, neuroinflammation is accompanied by autoimmunity and suppressing the immune response may halt or even prevent associated symptoms. As seen in rodent models of MS, cannabinoids ameliorate the progression of and symptoms associated with neuroinflammation. Future experiments into the components that alter endocannabinoid production and degradation, cannabinoid receptor expression, and effects of cannabinoid receptor agonists on immune cells will provide the necessary information to design more effective treatments for neuroinflammation.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1574256/