Omega-3 Fatty Acids Fight Inflammation via Cannabinoids

Omega-3 Fatty Acids Fight Inflammation via Cannabinoids

Summary: A new study in PNAS reveals how the body converts omega 3 fatty acids into endocannabinoids, which can have anti-inflammatory effects.

Source: University of Illinois.

Chemical compounds called cannabinoids are found in marijuana and also are produced naturally in the body from omega-3 fatty acids. A well-known cannabinoid in marijuana, tetrahydrocannabinol, is responsible for some of its euphoric effects, but it also has anti-inflammatory benefits. A new study in animal tissue reveals the cascade of chemical reactions that convert omega-3 fatty acids into cannabinoids that have anti-inflammatory benefits – but without the psychotropic high.

The findings are published in the Proceedings of the National Academy of Sciences.

Foods such as meat, eggs, fish and nuts contain omega-3 and omega-6 fatty acids, which the body converts into endocannabinoids – cannabinoids that the body produces naturally, said Aditi Das, a University of Illinois professor of comparative biosciences and biochemistry, who led the study. Cannabinoids in marijuana and endocannabinoids produced in the body can support the body’s immune system and therefore are attractive targets for the development of anti-inflammatory therapeutics, she said.

In 1964, the Israeli chemist Raphael Mechoulam was the first to discover and isolate THC from marijuana. To test whether he had found the compound that produces euphoria, he dosed cake slices with 10 milligrams of pure THC and gave them to willing friends at a party. Their reactions, from nonstop laughter, to lethargy, to talkativeness, confirmed that THC was a psychotropic cannabinoid.

Image shows fish oil pills.

It wasn’t until 1992 that researchers discovered endocannabinoids produced naturally in the body. Since then, several other endocannabinoids have been identified, but not all have known functions.

Cannabinoids bind to two types of cannabinoid receptors in the body – one that is found predominantly in the nervous system and one in the immune system, Das said.

“Some cannabinoids, such as THC in marijuana or endocannabinoids can bind to these receptors and elicit anti-inflammatory and anti-pain action,” she said.

“Our team discovered an enzymatic pathway that converts omega-3-derived endocannabinoids into more potent anti-inflammatory molecules that predominantly bind to the receptors found in the immune system,” Das said. “This finding demonstrates how omega-3 fatty acids can produce some of the same medicinal qualities as marijuana, but without a psychotropic effect.”

ABOUT THIS NEUROSCIENCE RESEARCH ARTICLE

The study was an interdisciplinary effort led by recent comparative biosciences alumnus Daniel McDougle and supported by current biochemistry graduate student Josephine Watson. The team included U. of I. animal sciences professor Rodney Johnson; U. of I. bioengineering professor Kristopher Kilian; Michael Holinstat, of the University of Michigan; and Lucas Li, the director of the Metabolomics Center at the Roy J. Carver Biotechnology Center at Illinois.

Das also is an affiliate of the Beckman Institute for Advanced Science and Technology at Illinois.

Funding: The National Institutes of Health and the American Heart Association supported this research.

Source: Aditi Das – University of Illinois
Image Source: NeuroscienceNews.com image is in the public domain.
Original Research: Abstract for “Anti-inflammatory ω-3 endocannabinoid epoxides” by Daniel R. McDougle, Josephine E. Watson, Amr A. Abdeen, Reheman Adili, Megan P. Caputo, John E. Krapf, Rodney W. Johnson, Kristopher A. Kilian, Michael Holinstat, and Aditi Das in PNAS. Published online July 7 2017 doi:10.1073/pnas.1610325114

CITE THIS NEUROSCIENCENEWS.COM ARTICLE
University of Illinois “Omega-3 Fatty Acids Fight Inflammation via Cannabinoids.” NeuroscienceNews. NeuroscienceNews, 19 July 2017.
<http://neurosciencenews.com/inflammation-omega-3-cannabinoids-7130/&gt;.

Abstract

Anti-inflammatory ω-3 endocannabinoid epoxides

Clinical studies suggest that diets rich in ω-3 polyunsaturated fatty acids (PUFAs) provide beneficial anti-inflammatory effects, in part through their conversion to bioactive metabolites. Here we report on the endogenous production of a previously unknown class of ω-3 PUFA–derived lipid metabolites that originate from the crosstalk between endocannabinoid and cytochrome P450 (CYP) epoxygenase metabolic pathways. The ω-3 endocannabinoid epoxides are derived from docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA) to form epoxyeicosatetraenoic acid-ethanolamide (EEQ-EA) and epoxydocosapentaenoic acid-ethanolamide (EDP-EA), respectively. Both EEQ-EAs and EDP-EAs are endogenously present in rat brain and peripheral organs as determined via targeted lipidomics methods. These metabolites were directly produced by direct epoxygenation of the ω-3 endocannabinoids, docosahexanoyl ethanolamide (DHEA) and eicosapentaenoyl ethanolamide (EPEA) by activated BV-2 microglial cells, and by human CYP2J2. Neuroinflammation studies revealed that the terminal epoxides 17,18-EEQ-EA and 19,20-EDP-EA dose-dependently abated proinflammatory IL-6 cytokines while increasing anti-inflammatory IL-10 cytokines, in part through cannabinoid receptor-2 activation. Furthermore the ω-3 endocannabinoid epoxides 17,18-EEQ-EA and 19,20-EDP-EA exerted antiangiogenic effects in human microvascular endothelial cells (HMVEC) and vasodilatory actions on bovine coronary arteries and reciprocally regulated platelet aggregation in washed human platelets. Taken together, the ω-3 endocannabinoid epoxides’ physiological effects are mediated through both endocannabinoid and epoxyeicosanoid signaling pathways. In summary, the ω-3 endocannabinoid epoxides are found at concentrations comparable to those of other endocannabinoids and are expected to play critical roles during inflammation in vivo; thus their identification may aid in the development of therapeutics for neuroinflammatory and cerebrovascular diseases.

“Anti-inflammatory ω-3 endocannabinoid epoxides” by Daniel R. McDougle, Josephine E. Watson, Amr A. Abdeen, Reheman Adili, Megan P. Caputo, John E. Krapf, Rodney W. Johnson, Kristopher A. Kilian, Michael Holinstat, and Aditi Das in PNAS. Published online July 7 2017 doi:10.1073/pnas.1610325114

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