Linoleic Acid Increases Prostaglandin E2 Release and Reduces Mitochondrial Respiration and Cell Viability in Human Trophoblast-Like Cells.

ABSTRACT

BACKGROUND/AIMS: The omega 6 fatty acid (FA) linoleic acid (LA) is required for embryonic development; however, omega 6 FAs can alter cellular metabolism via inflammation or modulation of mitochondrial function. Fetal LA is obtained from the maternal diet, and FAs are transported to the fetus via placental FA transporters (FATPs) and binding proteins (FABPs), but specific proteins responsible for LA transport in placental trophoblasts are unknown. Dietary LA consumption is increasing, but the effect of elevated LA on trophoblast function is not clear. METHODS: Swan71 trophoblasts were exposed to physiological and supraphysiological concentrations of LA for 24 hours. Quantification of mRNA was determined using real time PCR, and protein concentration was determined by Western blot analysis. Cell viability, citrate synthase activity and mitochondrial respiration were determined. RESULTS: Exposure to 300 and 500 µM LA increased FATP1 and FATP4 mRNA expression. 500 µM LA increased FATP1 and FATP4 protein expression. Exposure to 500 µM increased FABP5 mRNA expression, while exposure to 100 to 500 µM LA decreased FABP3 mRNA expression. 300 and 500 µM LA decreased FABP3 protein expression. Cell viability was decreased by exposure to LA (100 to 1000 µM). Citrate synthase activity and routine mitochondrial respiration were significantly decreased by exposure to 300 and 500 µM LA, and maximal respiration and spare respiratory capacity were decreased by exposure to 100 to 500 µM LA. 300 and 500 µM LA increased reactive oxygen species generation in human trophoblasts. Moreover, exposure to 300 and 500 µM LA decreased IL-6 secretion. Exposure to 500 µM LA increased IL-8, NF-κB and PPAR-γ mRNA expression, but decreased NF-κB protein expression. 300 µM LA decreased IL-8 protein expression. Further, exposure to 100 to 500 µM LA increased prostaglandin E2 and leukotriene B4 release. CONCLUSION: Exposure to LA decreases cell viability, alters mRNA expression of FA transport related proteins, mitochondrial respiration and function, and inflammatory responses in trophoblasts. These findings may have implications on placental function when women consume high levels of LA.