ABSTRACT
Foram avaliadas as alterações no metabolismo materno durante a prenhez em ratas Wistar, prenhes e não-prenhes, submetidas à restrição protéica, que receberam dietas isocalóricas (15,74 kJ/g), controle ou hipoprotéica (17 por cento versus 6 por cento), distribuídas em quatro grupos (n = 7), quais sejam: controle não-prenhe (CNP) e prenhe (CP) e hipoprotéico não-prenhe (HNP) e prenhe (HP), do 1º ao 18º dia de prenhez. Parâmetros bioquímicos, hormonais e relacionados à síntese de lipídios foram considerados. Utilizou-se ANOVA a duas vias seguido de teste Tukey-HSD e teste t de Student, significância de p < 0,05. A restrição protéica elevou a síntese de lipídios e a atividade da enzima málica (EM) no fígado (FIG) e reduziu a massa ( por cento) e a razão lipí+dio/glicogênio nesse tecido, bem como reduziu a ingestão protéica (total e por cento), o conteúdo ( por cento) de lipídios na glândula mamária (GMA), as proteínas e a albumina séricas, com consequente redução nas massas da placenta e fetos. A prenhez reduziu a proteinemia, a albuminemia, a síntese de lipídios, a atividade da EM, os lipídios e o glicogênio no FIG. Mas elevou a massa corporal final, a massa ( por cento) do tecido adiposo gonadal (GON), do FIG e da GMA, e reduziu a massa ( por cento) da carcaça (CARC), a síntese e o conteúdo de lipídios no GON e, na GMA, o conteúdo de lipídios. A insulinemia elevou-se na prenhez, com glicemia reduzida, caracterizando resistência hormonal. A leptina e a prolactina também se elevaram na prenhez, sendo o aumento maior no HP. A restrição protéica na prenhez modificou o metabolismo materno, alterando a síntese de lipídios no FIG e o perfil hormonal, além de reduzir a massa da placenta e dos fetos.
Metabolism alterations were evaluated in female Wistar rats (dams) during pregnancy. Pregnant and non-pregnant dams submitted to protein restriction, were fed isocaloric (15.74 kJ/g), control or hypoproteic (17 percent vs. 6 percent) diets, and distributed in four Groups (n=7) as follows: non-pregnant control (NPC), pregnant control (PC), non-pregnant hypoproteic (NPH), and pregnant hypoproteic (PH); from Day 1 to Day 18 of pregnancy. Biochemical, hormonal and metabolic parameters related to lipid synthesis were assessed. The two-way ANOVA, followed by Tukey-HSD and Student-t tests were used, with a significance of p< 0.05. Protein restriction elevated lipid synthesis and malic enzyme (ME) activity in the liver, and reduced mass and the lipid/glycogen ratio in this tissue; it also lowered protein ingestion (total and percent), lipid content ( percent) in the mammary gland (MAG), serum proteins and albumin, with consequent reduction of placenta and fetal masses. Pregnancy reduced serum protein and albumin concentrations, lipid synthesis, ME activity, hepatic lipid and glycogen content. However, it increased final body mass; increased relative masses of gonad (GON), liver and MAG; but reduced lipid synthesis and content of GON, lipid content of MAG and the relative mass of carcass. Pregnancy Insulinemia increased during pregnancy with reduced glycemia, characterizing hormonal resistance. Leptin and prolactin were also increased during pregnancy, being the highest increase in observed in HP rats. Protein restriction in pregnancy modified maternal metabolism, altering lipid synthesis in the liver and hormonal profile and decreasing the placenta and fetus masses.
Subject(s)
Animals , Female , Pregnancy , Rats , Diet, Protein-Restricted/adverse effects , Maternal Nutritional Physiological Phenomena/physiology , Analysis of Variance , Adipose Tissue/metabolism , Fetus/metabolism , Gonads/metabolism , Hormones/biosynthesis , Lipids/biosynthesis , Liver Glycogen/biosynthesis , Liver/chemistry , Liver/enzymology , Models, Animal , Malate Dehydrogenase/biosynthesis , Mammary Glands, Animal/metabolism , Placenta/metabolism , Rats, WistarABSTRACT
Gossypol, a natural racemic mixture with action on NADP- and NAD-oxidoreductases from diverse species, has been proposed as a possible antiamebic medication considering several of its pharmacological properties. In this study it was found that malic enzyme and alcohol dehydrogenase from Entamoeba histolytica are strongly inhibited by (ñ)-gossypol, and both (+)- and (-)- enantiomers. The inhibition was of the noncompetitive type among their respective substrates in all cases. The (ñ)-, (+)-, (-)-gossypol half-maximal inhibitory concentrations (IC 50) for the malic enzyme were 3.71, 13.37 and 1.03 µM, and againts the alcohol dehydrogenase 79.64, 124.43 and 42.56 µM, respectively. Therefore, the (-) enantiomer resulted 3.6 and 13.0 times more potent than the racemic mixture and (+)- gossypol, respectively, to inhibit the malic enzyme, and 1.9 times and 2.9 times more potent than the racemic mixture and (+)-gossypol, respectively, against the alcohol dehydrogenase. Accordingly, one possible mechanism of the antiamebic affect of gossypol could be the inhibition of vital NADP-dependent enzymes as those analyzed in this study