Gut Microbes. , 2021., Jan-Dec;13(1):1-11. doi: 10.1080/19490976.2020.1863133.

http://www.ncbi.nlm.nih.gov/pubmed/33382352

Vijay A Astbury S Le Roy C et al.

Abstract

Prebiotics are compounds in food that benefit health via affecting the gut microbiome. Omega-3 fatty acids have been associated with differences in gut microbiome composition and are widely accepted to have health benefits, although recent large trials have been inconclusive. We carried out a 6-week dietary intervention comparing the effects of daily supplementation with 500 mg of omega-3 versus 20 g of a well-characterized prebiotic, inulin. Inulin supplementation resulted in large increases in Bifidobacterium and Lachnospiraceae. In contrast, omega-3 supplementation resulted in significant increases in Coprococcus spp. and Bacteroides spp, and significant decreases in the fatty-liver associated Collinsella spp. On the other hand, similar to the results with inulin supplementation which resulted in significant increases in butyrate, iso-valerate, and iso-butyrate (p < .004), omega-3 supplementation resulted in significant increases in iso-butyrate and isovalerate (p < .002) and nearly significant increases in butyrate (p < .053). Coprococcus, which was significantly increased post-supplementation with omega-3, was found to be positively associated with iso-butyric acid (Beta (SE) = 0.69 (0.02), P = 1.4 x 10-3) and negatively associated with triglyceride-rich lipoproteins such as VLDL (Beta (SE) = -0.381 (0.01), P = .001) and VLDL-TG (Beta (SE) = -0.372 (0.04), P = .001) after adjusting for confounders. Dietary omega-3 alters gut microbiome composition and some of its cardiovascular effects appear to be potentially mediated by its effect on gut microbial fermentation products indicating that it may be a prebiotic nutrient.

Link to Full Text

Key Points

This study showed that six weeks of supplementation with 500 mg of omega-3 (providing 165 mg of EPA and 110 mg DHA) led to significant increases in Coprococcus​ spp. and Bacteroides​ spp, while decreases were also observed for Collinsella​ spp., which is associated with fatty-liver. There were significant changes in the levels of bacterial fermentation products following a 6-week intervention with omega-3 supplementation and the overall effects were comparable to inulin fiber supplementation supporting the role of omega-3 as a potential prebiotic. The current findings suggest that the cardiovascular benefits of omega 3 supplementation may be mediated by the gut microbiome. Significant decreases in abundance of the genus Collinsella​ were also found. This genus has been reported to be increased three-fold in people with non-alcohol fatty liver disease.