Biometric, nutritional, biochemical, and cardiovascular outcomes in male rats submitted to an experimental model of early weaning that mimics mother abandoning.

Literature describes breast milk as the best food for the newborn, recommending exclusive breastfeeding for up to 6 months of age. However, it is not available for more than 40% of children worldwide. Pharmacological and non-pharmacological models of 3-day early weaning were developed in rodents to investigate later outcomes related solely to this nutritional insult. Thus, the present work aimed to describe biometric, nutritional, biochemical, and cardiovascular outcomes in adult male rats submitted to 3-day early weaning achieved by maternal deprivation. This experimental model comprises not only nutritional insult but also emotional stress, simulating mother abandoning. Male offspring were physically separated from their mothers at 21st (control) or 18th (early weaning) postnatal day, receiving water/food ad libitum. Analysis performed at postnatal days 30, 90, 150, and 365 encompassed body mass and food intake monitoring and serum biochemistry determination. Further assessments included hemodynamic, echocardiographic, and cardiorespiratory evaluation. Early-weaned males presented higher body weight when compared to control as well as dyslipidemia, higher blood pressure, diastolic dysfunction, and cardiac hypertrophy in adult life. Animals early deprived of their mothers have also presented a worse performance on the maximal effort ergometer test. This work shows that 3-day early maternal deprivation favors the development of cardiovascular disease in male rats.

Overweight during lactation and its implications for biometric, nutritional and cardiovascular parameters of young and adult male and female rats.

Litter size reduction can induce early overnourishment, being an attractive experimental model to study short- and long-term consequences of childhood obesity. Epidemiological data indicate sex differences regarding cardiometabolic disorders and hypertrophic cardiomyopathy. The present study aimed to describe biometric, nutritional and cardiovascular changes related to neonatal overweight promoted by litter size reduction in young and adult Wistar rats of both sexes. Litter adjustment to eight or four pups/mother (1:1 male-to-female ratio) gave, respectively, control and overweight groups. Body mass, food intake, haemodynamic and echocardiographic parameters and cardiorespiratory capacity were evaluated at postnatal days 30 and 150. Diminished litters were correlated with higher body mass and weight gain (12 %) during lactation, validating the experimental model of neonatal overweight. Soon after weaning male (16 %) and female (25 %) offspring of these litters presented a lower food intake than their respective control, without differences in body mass. Adult males from reduced litters presented higher abdominal circumference (7 %), systolic blood pressure (10 %), interventricular septum thickness (15 %) and relative wall thickness (15 %) compared with their respective control. Rats' performance on the maximal effort ergometer test was not affected by neonatal overweight. Data suggest the occurrence of catch-down growth and hypophagia in male and female rats submitted to neonatal overweight. However, only male rats presented haemodynamic and cardiac structural changes. These findings are crucial to personalised/gender medicine.

Aerobic Training Associated with Arginine Supplementation Reduces Collagen-Induced Platelet Hyperaggregability in Rats under High Risk to Develop Metabolic Syndrome.

BACKGROUND: Increased platelet response is seen in individuals with metabolic syndrome. Previous reports have shown that arginine supplementation and aerobic exercise training enhance vascular nitric oxide (NO) activity and inhibit platelet hyperaggregability; however, the effects of their association remain unknown. AIM: To investigate whether arginine supplementation and aerobic exercise association may exert beneficial effects, reducing platelet hyperaggregability in rats under high risk to develop metabolic syndrome. METHODS: Wistar rats were divided into two groups: control (C) and fructose (F - water with 10% of fructose). After two weeks, the F group was subdivided into four groups: F, the same as before; fructose + arginine (FA - 880 mg/kg/day of L-arginine by gavage); fructose + training (FT); and fructose + arginine + training (FTA). Treatment lasted for eight weeks. RESULTS: The fructose administration was able to increase the collagen-induced platelet aggregation (27.4 ± 2.7%) when compared to the C group (8.0 ± 3.4%). Although the arginine supplementation (32.2 ± 6.3%) or aerobic training (23.8 ± 6.5%) did not promote any change in platelet collagen-induced hyperaggregability, the association of arginine supplementation and aerobic exercise promoted an inhibition of the platelet hyperaggregability induced by fructose administration (13.9 ± 4.4%) (P < 0.05). These effects were not observed when ADP was employed as an agonist. In addition, arginine supplementation associated with aerobic exercise promoted a decrease in interleukin-6 (IL-6) and interleukin-8 (IL-8) serum levels when compared to the fructose group, demonstrating an anti-inflammatory effect. CONCLUSIONS: Our data indicate an important role of arginine supplementation associated with aerobic exercise, reducing platelet hyperaggregability and inflammatory biomarker levels in rats under high risk to develop metabolic syndrome.

Study of digoxin use in a public health unit.

Digoxin is used for heart failure associated to systolic dysfunction and high ventricular rate. It has a narrow therapeutic range and intoxication may occur due to drug interactions or comorbidities. The aim of this work was to study digoxin use in a public health unit delineating the profile of patients susceptible to digitalis intoxication. Medical records belonging to patients admitted to the cardiomyopathy ward of the health unit (2009-2010) and in use of digoxin were analyzed. Among 647 patients admitted, 185 individuals using digoxin and possessed records available. The registration of plasma digoxin concentration was found in 80 records and it was out of the therapeutic range in 42 patients (52.5%). This group of individuals was constituted mainly by males patients (79%), functional class III of heart failure (65%), exhibiting renal failure (33%). The evaluated sample reflects the epidemiology of heart failure in Brazil and, although pharmacotherapy had been according to Brazilian Guidelines, apparently the monitoring was not performed as recommended. This work highlighs the necessity of plasma digoxin constant monitoring during pharmacotherapy and the development of protocols that enable a safer use, especially in male patients, functional class III and with renal dysfunction.

FKBP12 depletion leads to loss of sarcoplasmic reticulum Ca(2+) stores in rat vas deferens.

The immunophilin 12-kDa FK506 binding protein (FKBP12) stabilizes intracellular Ca(2+) release channel (CRC) activity in different tissues. In this work, the presence of FKBP12 in rat vas deferens (RVD) and its possible contribution to RVD function was investigated. Treatment under appropriate pH, temperature, and ionic conditions was used to strip FKBP12 from CRC binding sites; Western blotting revealed FKBP12 in control but not in treated homogenates. Disruption of the FKBP12-CRC complex in RVD decreased the Ca(2+) content of sarcoplasmic reticulum (SR) by increasing Ca(2+) leakage through the ryanodine receptor (RyR3 isoform) but not through 1,4,5-inositol trisphosphate receptors (IP(3)R1 and IP(3)R3 isoforms). The decrease of SR Ca(2+) content was not related to inhibition of SERCA ATPase. It seems that dissociation of FKBP12-RyR leads to conformational changes in RyR that make it difficult for ryanodine to access its binding site. Rapamycin, which is commonly used as a pharmacological tool to disrupt the FKBP12-RyR complex, decreased phenylephrine-induced contractions in RVD epididymal halves. The data suggest that FKBP12 is expressed in RVD in a labile association with RyR3. Disruption of the FKBP12-RyR3 complex may lead to modifications of RVD physiology and in consequence may compromise male fertility.

Adaptive expression pattern of different proteins involved in cellular calcium homeostasis in denervated rat vas deferens.

The activity and protein expression of plasma membrane and sarco(endo)plasmic reticulum (Ca2+-Mg2+)ATPases and ryanodine receptors were investigated in surgically denervated rat vas deferens. The function of thapsigargin-sensitive but not thapsigargin-resistant (Ca2+-Mg2+)ATPase (from sarco(endo)plasmic reticulum and plasma membrane, respectively), evidenced by enzyme activity and Ca2+ uptake experiments, was significantly depressed by 30-50% when compared to innervated vas. Western blots showed that such reduction in sarco(endo)plasmic reticulum (Ca2+-Mg2+)ATPase performance was accompanied by a decrement of similar magnitude in sarco(endo)plasmic reticulum (Ca2+-Mg2+)ATPase type 2 protein expression, without any significant change in plasma membrane (Ca2+-Mg2+)ATPase expression. Finally, [3H]ryanodine binding revealed that the density of ryanodine binding sites was reduced by 45% after denervation without modification in affinity. The present findings demonstrate that sarco(endo)plasmic reticulum proteins involved in intracellular calcium homeostasis are clearly down-regulated and brings further evidence of a modified calcium translocation in denervated rat vas deferens.

Characterization of subcellular fractions and distribution profiles of transport components involved in Ca(2+) homeostasis in rat vas deferens.

INTRODUCTION: The sarcoplasmic reticulum present in eukaryotic cells contains Ca(2+) pumps (SERCA type) that accumulate Ca(2+) from the cytosol and Ca(2+) channels, such as ryanodine receptors and inositol 1,4,5-trisphosphate receptors, that release Ca(2+) from the lumen of this organelle. The use of a preparation rich in sarcoplasmic reticulum vesicles and poorly contaminated with plasmalemmal vesicles would be a prerequisite for studies of Ca(2+) efflux through ryanodine and inositol 1,4,5-trisphosphate receptors, so the present work was aimed to characterize the distribution profiles of various markers of sarcoplasmic reticulum and plasma membrane among fractions obtained from rat vas deferens. METHODS: Oxalate-dependent Ca(2+) uptake, thapsigargin-sensitive (Ca(2+)-Mg(2+)) ATPase activity and binding of [3H]ryanodine and [3H]inositol 1,4,5-trisphosphate were measured in the nuclear, mitochondrial, and microsomal fractions obtained by differential centrifugation of rat vas deferens homogenate. RESULTS: The recovery of the thapsigargin-resistant (Ca(2+)-Mg(2+)) ATPase activity, supposed to label the plasma membrane, was the same among nuclear, mitochondrial, and microsomal fractions, whereas the recovery of the thapsigargin-sensitive (Ca(2+)-Mg(2+)) activity, oxalate-dependent Ca(2+) uptake, and [3H]inositol 1,4,5-trisphosphate binding, used as sarcoplasmic reticulum markers, was higher in nuclear fraction than in the others. The recovery profiles of the four sarcoplasmic reticulum markers, including [3H]ryanodine binding, were statistically the same among the different subcellular fractions. Caffeine, an agonist of ryanodine receptors, induced the release of 17% of Ca(2+) taken up by the vesicles present in the nuclear fraction but had no effect in microsomes. DISCUSSION: Although this nuclear fraction is less purified in sarcoplasmic reticulum markers than the microsomal fraction, it is more suitable for studying Ca(2+) release through ryanodine receptors, primarily because it is less contaminated with vesicles from the plasma membrane which are able to take up Ca(2+) but are insensitive to caffeine.