Mediterranean Diet Reduces Monocyte Inflammatory Gene Expression and Influences Social Behavior in Nonhuman Primates

Abstract

Western diet consumption is associated with inflammation, cardiometabolic disease, and mortality in humans, while Mediterranean diet consumption confers protective effects. One likely pathway for this association is through environmentally induced changes in monocyte function, yet the underlying mechanisms remain elusive. We conducted the first randomized, long-term diet manipulation in a non-human primate model to determine whether Western- or Mediterranean-like diets alter monocyte polarization and health. Monocyte gene expression profiles differed markedly between the two diet groups, with significant differences in over 40% of expressed genes. The Western diet induced a more proinflammatory monocyte phenotype overall and upregulated specific monocyte polarization genes. Diet also disrupted the coexpression of numerous gene pairs, including small RNAs and transcription factors associated with metabolism and adiposity in humans. Diet altered affiliative and anxiety-associated behaviors and mediation analysis showed that the diet-altered behaviors contributed significantly (∼50% of the effect of diet on gene expression) to 25% of the differentially expressed genes, suggesting that diet effects on central mechanisms also modulate monocyte gene expression. Together, these results identify both behavioral and molecular mechanisms underlying the health benefits of a Mediterranean diet regimen.