Plant and marine N3-PUFA regulation of fatty acid trafficking along the adipose tissue-liver axis varies according to nutritional state.

Marine sourced N3-PUFA regulate lipid metabolism in adipose tissue and liver; however, less is known about plant sourced N3-PUFA. The goal of this study was to investigate plant and marine N3-PUFA regulation of fatty acid trafficking along the adipose tissue-liver axis according to nutritional state. Mice were fed low-fat diets (7% w/w) containing either lard, flaxseed, or menhaden oils for 8 weeks, and were euthanized in either fed or fasted states. Substrate utilization and physical activity were assessed during the transition from a fed to fasted state. Plasma biomarkers (triacylglycerol [TAG], non-esterified fatty acids [NEFA]), as well as liver and epididymal adipose tissue (eWAT) lipogenic and lipolytic markers, were measured. Neither plant nor marine N3-PUFA influenced substrate utilization or activity during the transition from a fed to fasted state. In the fed state, marine N3-PUFA reduced plasma TAG levels compared to the other diets, with no further reduction seen in fasted mice. Hepatic lipogenic markers (Fasn, Acc, Scd1, and Elovl6) were reduced in the fed state with marine N3-PUFA, but not plant N3-PUFA. In the fasted state, mice fed either N3-PUFA accumulated less liver TAG, had lower plasma NEFA, and suppressed eWAT HSL activity compared to lard. Marine N3-PUFA are more potent regulators of lipogenesis than plant N3-PUFA in the fed state, whereas both N3-PUFA influence eWAT lipolysis and plasma NEFA in the fasted state. This work provides novel insights regarding N3-PUFA regulation of fatty acid trafficking along the adipose tissue-liver axis according to nutritional state.