Trans -palmitoleic acid, a dairy fat biomarker, stimulates insulin secretion and activates G protein-coupled receptors with a different mechanism from the cis isomer.
Eliza KorkusMarcin SzustakRafal MadajArkadiusz ChworosAnna DrzazgaMaria KoziołkiewiczGrzegorz DąbrowskiSylwester CzaplickiIwona KonopkaEdyta Gendaszewska-DarmachPublished in: Food & function (2023)
Dietary trans -palmitoleic acid ( trans 16:1n-7, t POA), a biomarker for high-fat dairy product intake, has been associated with a lower risk of type 2 diabetes mellitus (T2DM) in some cross-sectional and prospective epidemiological studies. Here, we investigated the insulin secretion-promoting activity of t POA and compared them with the effects evoked by the cis -POA isomer ( c POA), an endogenous lipokine biosynthesized in the liver and adipose tissue, and found in some natural food sources. The debate about the positive and negative relationships of those two POA isomers with metabolic risk factors and the underlying mechanisms is still going on. Therefore, we examined the potency of both POA isomers to potentiate insulin secretion in murine and human pancreatic β cell lines. We also investigated whether POA isomers activate G protein-coupled receptors proposed as potential targets for T2DM treatment. We show that t POA and c POA augment glucose-stimulated insulin secretion (GSIS) to a similar extent; however, their insulin secretagogue activity is associated with different signaling pathways. We also performed ligand docking and molecular dynamics simulations to predict the preferred orientation of POA isomers and the strength of association between those two fatty acids and GPR40, GPR55, GPR119, and GPR120 receptors. Overall, this study provides insight into the bioactivity of t POA and c POA toward selected GPCR functions, indicating them as targets responsible for the insulin secretagogue action of POA isomers. It reveals that both t POA and c POA may promote insulin secretion and subsequently regulate glucose homeostasis.