Acute heat stress and dietary methionine effects on IGF-I, GHR, and UCP mRNA expression in liver and muscle of quails.

This study evaluated the expression of insulin-like growth factor I (IGF-I), growth hormone receptor (GHR), and uncoupling protein (UCP) mRNA in muscle and liver of quails that were in thermal comfort or exposed to heat stress and that were fed diets with or without methionine supplementation. Meat quails were fed a diet that either met the nutritional demands for methionine (MS) or did not meet this demand (methionine-deficient diet, MD). The animals were either kept at a thermal comfort temperature (25°C) or exposed to heat stress (38°C for 24 h starting on the 6th day). RNA was extracted from liver and breast muscle, and cDNA was synthesized and amplified using quantitative reverse transcription-polymerase chain reaction. Animals that were fed the MS diet and remained at the thermal comfort temperature exhibited increased IGF-I mRNA expression in the liver (0.56 AU). The GHR mRNA expression in the liver and muscle was influenced by both the study variables. Animals receiving the MS diet showed higher GHR expression, while increased expression was observed in animals at the thermal comfort temperature. The UCP mRNA expression in the muscle was influenced by both methionine supplementation and heat stress. Higher expression was observed in animals that received the MD diet (2.29 vs 3.77 AU) and in animals kept in thermal comfort. Our results suggest that heat stress negatively affects the expression of growth-related genes and that methionine supplementation is necessary to appropriately maintain the levels of IGF-I, GHR, and UCP transcripts for animal metabolism.

Effects of methionine supplementation on the redox state of acute heat stress-exposed quails.

The aims of the present study were to evaluate the possible effects of heat stress (HS) on H2O2 production and to evaluate whether methionine supplementation (MS) could mitigate the deleterious effects on cell metabolism and the redox state induced by oxidative stress. Meat quails (Coturnix coturnix coturnix) were fed a diet that either met the nutritional demands for methionine or did not meet this demand (methionine deficient [MD] diet) for 7 d. The animals were either kept at a thermal comfort temperature (25°C) or exposed to HS (38°C for 24 h, starting on the sixth day). Heat stress induced decreased food intake (P = 0.0140), decreased daily weight gain (P < 0.0001), and increased water intake (P = 0.0211). A higher rate of H2O2 production was observed in HS animals (0.0802 vs. 0.0692 nmol of reactive oxygen species [ROS] produced per minute per milligram of protein; P = 0.0042) and in animals fed with the MD diet (0.0808 vs. 0.0686 nmol of ROS produced per minute per milligram of protein; P = 0.0020). We observed effects of the interaction between diet and the environment on the activities of glutathione peroxidase (GP-x) and catalase (P = 0.0392 and P < 0.0001, respectively). Heat stress induced higher levels of GP-x activity in animals on the MS diet and higher catalase activity in animals on the MD diet. Glutathione (GSH) levels were higher in animals on the MS diet (P = 0.0273) and in animals that were kept in thermal comfort (P = 0.0018). The thiobarbituric acid reactive substances level was higher in HS animals fed with the MD diet (P = 0.0386). Significant effects of the interaction between supplementation and environment were observed on uric acid concentration levels, which were higher in HS animals fed the MS diet (P = 0.008), and on creatine kinase activity levels, which were lower in HS animals fed the MD diet (1,620.33 units/L; P = 0.0442). Our results suggest that under HS conditions, in which H2O2 production is increased, MS was able to mitigate ROS-induced damage, possibly by increasing the activities of antioxidant elements such as GSH, GPx activity, and uric acid concentration, which were present in higher levels in animals that were subjected to HS and fed the MS diet.

Actions of quercetin on gluconeogenesis and glycolysis in rat liver.

1. The action of quercetin on glucose catabolism and production was investigated in the perfused rat liver. 2. Quercetin inhibited lactate production from glucose: 80% inhibition was found at a quercetin concentration of 100 micro M, and at higher concentrations inhibition was complete. 3. Pyruvate production from glucose presented a complex pattern, but stimulation was evident at 100 and 300 micro M quercetin. Oxygen uptake tended to be increased. 4. Glucose synthesis from lactate and pyruvate was inhibited. Inhibition was already evident at 50 micro M quercetin and almost complete at 300 micro M. Concomitantly, the increment in oxygen uptake caused by lactate plus pyruvate was stimulated by 50 micro M quercetin, but clearly inhibited by higher concentrations (100-500 micro M). 5. Glucose phosphorylation in the high-speed supernatant fractions of liver homogenates was inhibited by quercetin, but only at concentrations above 150 micro M. 6. It is concluded that quercetin can inhibit both glucose degradation and production and increase the cytosolic NAD(+)/NADH ratio. 7. These effects are likely to arise from many causes. Reduction of oxidative phosphorylation, inhibition of Na(+)-K(+)-ATPase, inhibition of glucokinase and inhibition of glucose 6-phosphatase could all contribute to the overall action of quercetin.

Action of quercetin on glycogen catabolism in the rat liver.

1. The influence of quercetin on glycogen catabolism and related parameters was investigated in the isolated perfused rat liver and subcellular systems. 2. Quercetin stimulated glycogenolysis (glucose release). This effect was already evident at a concentration of 50 microM maximal at 300 microM and declined at higher concentrations. Quercetin also stimulated oxygen consumption, with a similar concentration dependence. 3. Lactate production from endogenous glycogen (glycolysis) was diminished by quercetin without significant changes in pyruvate production. 4. Quercetin did not inhibit glucose transport into cells but decreased intracellular sequestration of [5-(3)H]glucose under conditions of net glucose release. 5. In isolated mitochondria, quercetin diminished the energy transduction efficiency. It also inhibited several enzymatic activities, e.g. the K(+)-ATPase/Na(+)-ATPase of plasma membrane vesicles and the glucose 6-phosphatase of isolated microsomes. 6. No significant changes of the cellular contents of AMP, ADP and ATP were found. The cellular content of glucose 6-phosphate, however, was increased (3.12-fold). 7. Some of the effects of quercetin (glycogenolysis stimulation) can be attributed to its action on mitochondrial energy metabolism, as, for example, uncoupling of oxidative phosphorylation. However, the multiplicity of the effects on several enzymatic systems certainly produces an intricate interplay that also generates complex and apparently contradictory effects.

Relato de caso: abscesso esplênico / Report of case: esplenic abscess

Os abscessos esplênicos constituem uma patologia incomum, encontrada em 0,14 a 0,7 por cento em séries de necropsias. O diagnóstico geralmente é difícil, pois sua apresentaçäo clínica é inespecífica1. Caso o diagnóstico e o tratamento näo sejam realizados precocemente, a evoluçäo fatal é freqüente2,3. Os autores relatam um caso de abscesso esplênico, e enfatizam a terapêutica adotada, que foi exclusivamente clínica, numa patologia onde a conduta praticamente padronizada é a esplenectomia ou drenagem percutânea, ambos acompanhados de antibioticoterapia.

Relato de caso: abscesso esplênico

The splenic abscess forms an unusual pathology, found only in 0,14 to 0,7 percent in a series of autopsies. The diagnosis is generally difficult because its clinical presentation is inespecific. When the diagnosis and treatment does not occur at early stages, the evolution is often fatal. Authors report a case of splenic abscess, emphasizing the therapy adapted, wich was exclusively clinical, in a pathology where the most common management is the esplenectomy or percutaneos drainage, both followed by antibiotic therapy.

Os abscessos esplênicos constituem uma patologia incomum, encontrada em 0,14 a 0,7% em séries de necropsias. O diagnóstico geralmente é difícil, pois sua apresentação clínica é inespecífica¹ Caso o diagnóstico e o tratamento não sejam realizados precocemente, a evolução fatal é freqüente2,3. Os autores relatam um caso de abscesso esplênico, e enfatizam a terapêutica adotada, que foi exclusivamente clínica, numa patologia onde a conduta praticamente padronizada é a esplenectomia ou drenagem percutânea, ambos acompanhados de antibioticoterapia.