58 research outputs found

    Tribute - Jan McMillen

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    Protein and folic acid content in the maternal diet determine lipid metabolism and response to high-fat feeding in rat progeny in an age-dependent manner

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    Maternal diet during gestation can exert a long-term effect on the progenyā€™s health by programming their developmental scheme and metabolism. The aim of this study is to analyze the influence of maternal diet on lipid metabolism in 10- and 16-week-old rats. Pregnant dams were fed one of four diets: a normal protein and normal folic acid diet (NP-NF), a protein-restricted and normal folic acid diet (PR-NF), a protein-restricted and folic-acid-supplemented diet (PR-FS), or a normal protein and folic-acid-supplemented diet (NP-FS). We also tested whether prenatal nutrition determines the reaction of an organism to a postweaning high-fat diet. Blood biochemistry and biometrical parameters were evaluated. The expression patterns of PPARĪ±, PPARĪ³, and LXRĪ± in the liver and adipose tissue were examined by real-time PCR. In the 10-week-old, rats folic acid supplementation of the maternal diet was associated with reduced circulating glucose and total cholesterol concentrations (PĀ <Ā 0.01 and PĀ <Ā 0.001, respectively). Neither prenatal diets nor postnatal feeding affected blood insulin concentrations. In the 16-week-old rats, body weight, abdominal fat mass and central adiposity were reduced in the progeny of the folic acidā€“supplemented dams (PĀ <Ā 0.01, PĀ <Ā 0.001 and PĀ <Ā 0.01, respectively). Maternal protein restriction had no effect on biometry or blood biochemical parameters. Folic acid supplementation of the maternal diet was associated with reduced expression of PPARĪ±, PPARĪ³, and LXRĪ± in the liver (PĀ <Ā 0.001). Reduced protein content in the maternal diet was associated with increased PPARĪ± mRNA level in the liver (PĀ <Ā 0.001) and reduced LXRĪ± in adipose tissue (PĀ <Ā 0.01). PPARĪ± and PPARĪ³ transcription in the liver, as well as LXRĪ± transcription in adipose tissue, was also dependent on interaction effects between prenatal and postnatal diet compositions. PPARĪ³ transcription in the liver was correlated with the abdominal fat mass, body weight, and calorie intake, while PPARĪ³ transcription in adipose tissue was correlated with reduced body weight and calorie intake. Total serum cholesterol concentration was correlated with LXRĪ± transcription in the liver. Folic acid supplementation of the maternal diet may have favorable effects for lipid metabolism in the progeny, but these effects are modified by the postnatal diet and age. Furthermore, the expression of LXRĪ±, PPARĪ±, and PPARĪ³ in the liver and adipose tissue largely depends on the protein and folic acid content in the maternal diet during gestation. However, the altered transcription profile of these key regulators of lipid metabolism does not straightforwardly explain the observed phenotype

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