Liver desaturase activities and FA composition in monkeys. Effect of a low-protein diet

Maternal caloric restriction spares fetal brain polyunsaturated fatty acids in Wistar rats

There is increasing interest in the role of developmental programming; however, the impact on fetal oxidative stress and brain fatty acid levels has been relatively unexplored. Recent reports have shown that caloric restriction regimens in adult animals reduce the occurrence of chronic diseases by reducing the oxidative stress and altering the long chain polyunsaturated fatty acids (LCPUFA). The present study examined whether caloric restriction during pregnancy alters oxidative stress and essential fatty acid metabolism in mother and offspring at birth. Pregnant female rats were fed either a standard chow (C, n=7) or were calorie restricted (CR, n=7) by feeding 60% of the intake of the control. Oxidative stress marker (malondialdehyde) and polyunsaturated fatty acid profiles in brain and liver were analyzed in both dams and offspring. Total weight gain during pregnancy was lower (p<0.01) in the CR group as compared to the control group but did not affect the litter size and weight. Brain malondialdehyde levels were lower (p<0.05) in dams from the CR group. There was no change in brain and liver LCPUFA levels in both male and female offspring in the CR group. Most of the polyunsaturated fatty acids were reduced (p<0.05) in plasma and brain in the CR dams. Caloric restriction during pregnancy did not alter LCPUFA metabolism in the offspring suggesting that during maternal caloric restriction mothers own stores are mobilized to provide docosahexaenoic acid and arachidonic acid for fetal brain development.

The effect of fetal pig size and stage of gestation on tissue fatty acid metabolism and profile

The fetus requires an adequate supply of fatty acids for optimum growth and development. It has been hypothesized that reduced activity of enzymes of fatty acid metabolism could contribute to inadequate fetal growth. In a porcine model of differential fetal growth we examined heart and liver fatty acid synthase, delta5-desaturase and delta6-desaturase gene expression and measured hepatic fatty acid profile to assess long-chain polyunsaturated fatty acid status. On gestation days 45, 65 and 100 sows were killed and tissues extracted from an average-sized fetus and the smallest fetus from each litter. As early as day 45, considerable hepatic delta5- and delta6-desaturase was detected, and this expression significantly increased as gestation progressed. In contrast, cardiac desaturase expression remained stable with time. Fatty acid synthase expression was greatest at day 65 in the liver, but was not expressed in the heart. Overall, the smallest fetus did not exhibit reduced tissue delta5- or delta6-desaturase expression or compromised polyunsaturated fatty acid status at any stage. In fact, small fetuses expressed more cardiac delta5-desaturase than their average-sized siblings, possibly in response to a stress to the heart. It is clear from this study that fatty acid metabolism changes markedly as gestation progresses, and reduced fatty acid supply does not cause inadequate growth in this porcine model of fetal development.