Virtu Calabuig-Navarro scite author profile

Obese women, on average, give birth to babies with high fat mass. Placental lipid metabolism alters fetal lipid delivery, potentially moderating neonatal adiposity, yet how it is affected by maternal obesity is poorly understood. We hypothesized that fatty acid (FA) accumulation (esterification) is higher and FA β-oxidation (FAO) is lower in placentas from obese, compared with lean women. We assessed acylcarnitine profiles (lipid oxidation intermediates) in mother-baby-placenta triads, in addition to lipid content, and messenger RNA (mRNA)/protein expression of key regulators of FA metabolism pathways in placentas of lean and obese women with normal glucose tolerance recruited at scheduled term Cesarean delivery. In isolated trophoblasts, we measured [3H]-palmitate metabolism. Placentas of obese women had 17.5% (95% confidence interval: 6.1, 28.7%) more lipid than placentas of lean women, and higher mRNA and protein expression of FA esterification regulators (e.g., peroxisome proliferator-activated receptor γ, acetyl-CoA carboxylase, steroyl-CoA desaturase 1, and diacylglycerol O-acyltransferase-1). [3H]-palmitate esterification rates were increased in trophoblasts from obese compared with lean women. Placentas of obese women had fewer mitochondria and a lower concentration of acylcarnitines, suggesting a decrease in mitochondrial FAO capacity. Conversely, peroxisomal FAO was greater in placentas of obese women. Altogether, these changes in placental lipid metabolism may serve to limit the amount of maternal lipid transferred to the fetus, restraining excess fetal adiposity in this population of glucose-tolerant women.

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ATF4 Protein Deficiency Protects against High Fructose-induced Hypertriglyceridemia in Mice

Xiao

Zhang

et al. 2013

Journal of Biological Chemistry

121

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Background: Hypertriglyceridemia is the most common lipid disorder with incompletely understood mechanisms. Results: ATF4 deficiency attenuates lipogenesis in the liver and protects against high fructose-induced hypertriglyceridemia in mice. Conclusion: ATF4 plays a pivotal role in regulating hepatic lipid metabolism. Significance: ATF4 is a contributing factor for the pathogenesis of hypertriglyceridemia.

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Virtu Calabuig-Navarro

Effect of Maternal Obesity on Placental Lipid Metabolism

ATF4 Protein Deficiency Protects against High Fructose-induced Hypertriglyceridemia in Mice

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