Metabolic markers following beta-adrenoceptor agonist infusion in footshock-stressed rats

Stress hormones can alter metabolic functions in adipose tissue and liver, as well as the sensitivity of rat white adipocytes and rat atrial responses to ß-adrenergic agonists. In this study, we examined the effects of three daily footshock stress sessions on the plasma corticosterone, glucose, glycerol and triacylglycerol levels of fed, conscious male rats, and on the plasma glucose, glycerol and triacylglycerol levels of the same rats following iv infusions of ß-adrenergic agonists (isoproterenol: 0.4 nmol kg-1 min-1, noradrenaline: 5.0 æg kg-1 day-1, and BRL 37344 ([+ or -]-[4-(2-[(2-[3-chlorophenyl]-2-hydroxyethyl)amino]propyl)phenoxy]acetic acid), a selective ß3-adrenoceptor agonist: 0.4 nmol kg-1 min-1). Plasma corticosterone levels increased significantly after each stress session, while triacylglycerol levels increased after the first session and glucose increased after the second and third sessions. Glycerol levels were unaltered after stress. These results suggest that repeated footshock stress may induce a metabolic shift from triacylglycerol biosynthesis to glucose release by hepatic tissue, with glycerol serving as one of the substrates in both pathways. Stressed rats were more sensitive to infusion of noradrenaline plus prazosin and to infusion of isoproterenol, with elevated plasma glucose, glycerol and triacylglycerol levels. The higher sensitivity of stressed rats to isoproterenol and noradrenaline was probably related to the permissive effect of plasma corticosterone. Only BRL 37344 increased plasma glycerol levels in stressed rats, probably because ß3-adrenoceptors are not involved in hepatic triacylglycerol synthesis, thus allowing glycerol to accumulate in plasma

Rat liver responsiveness to gluconeogenic substrates during insulin-induced hypoglycemia

Hepatic responsiveness to gluconeogenic substrates during insulin-induced hypoglycemia was investigated. For this purpose, livers were perfused with a saturating concentration of 2 mM glycerol, 5 mM L-alanine or 5 mM L-glutamine as gluconeogenic substrates. All experiments were performed 1 h after an ip injection of saline (CN group) or 1 IU/kg of insulin (IN group). The IN group showed higher (P<0.05) hepatic glucose production from glycerol, L-alanine and L-glutamine and higher (P<0.05) production of L-lactate, pyruvate and urea from L-alanine and L-glutamine. In addition, ip injection of 100 mg/kg glycerol, L-alanine and L-glutamine promoted glucose recovery. The results indicate that the hepatic capacity to produce glucose from gluconeogenic precursors was increased during insulin-induced hypoglycemia.

Natural estrous cycle in normal and diabetic bitches. II) serum nonesterified fatty acids and serum free glycerol levels during glucose and insulin tests

Actions and interactions of spontaneous diabetes mellitus (DM) and natural estrous cycles (sex seasons) on the regulation of serum monesterified fatty acids (NEFAs) and free glycerol (FG) levels in bitches in the fasting condition and during i.v. glucose (IVGTT) and insulin (ITT) tolerance tests, were studied. DM increased serum NEFAs concentration both in the basal condition and during IVGTT; it provoked a fall response to glucose load which is absent in normal controls. Estrous cycles did not modify these observations. Serum NEFAs levels during ITT were unresponsive in normal and diabetic bitches at every sex stage; flat, overlapped serum NEFAs profiles were then observed except for the diabetic group at A, which showed an early abrupt fall response of this variable from its high base line. DM increased also serum FG concentration in the fasting condition and during IVGTT. In the normal controls, serum FG base line was not affected by sex status; similary shaped, increasing, overlapped curves during the test were observed. In the diabetic bitches "in season" (either phase), serum FG basal value was hardly above in respect to anestrous, but during IVGTT their flat profiles coincided. DM increased serum FG concentration in the basal condition and during ITT, and modified the profiles of this variable. In normal dogs in the basal condition, serum FG concentration remained unaffected by sex status; this variable hard, transiently increased during ITT, which was not influenced by "sex seasons"; therefore, similarly shaped, overlapped serum FG profiles were then observed. In the normal and diabetic bitches, serum FG base line was not changed by "sex seasons". During ITT, serum FG mean profile in the diabetic bitches at EP was modestly above that observed in those at LP; differences for any other comparisions in normals or diabetic bitches were nonsignificant. As reported by us elsewhere, impaired glucose metabolism and absolute insulin dificiency induced ketose-prone, acidotic, insulin-dependent diabetic chryses in certain normal and diabetic beaches "in season" studied here. The unability of these animals for hydrolizingglyceride-glycerol via lipoproteinlipase (IVGTT) or via hormone sensitive fractions of lipase (ITT) and the abolished serum NEFAs suppressibility during modest hiperinsulinemia (ITT) appear to contribute to the production of such chryses...

Effect of bilateral vasectomy on testicular metabolism in albino rats.

The adult Wistar strain albino rats were vasectomised by conventional method and maintained for six months. The vasectomized rat testis had elevated water content with depleted dry matter. Glycogen content was increased with indication of mobilization of hexoses into HMP pathway. The vasectomized rat testis showed preferential utilisation of triglycerides. In view of increased 3 beta-HSD and 17 beta-HSD activities, accelerated androgenesis was envisaged in vasectomized rat testis.