Transformation and action of extracellular NAD+ in perfused rat and mouse livers.

Aim: Transformation and possible metabolic effects of extracellular NAD+ were investigated in the livers of mice (Mus musculus; Swiss strain) and rats (Rattus novergicus; Holtzman and Wistar strains).

Methods: The livers were perfused in an open system using oxygen-saturated Krebs/Henseleit-bicarbonate buffer (pH 7.4) as the perfusion fluid.

Transformation and actions of extracellular NADP(+) in the rat liver.

The possible actions and transformation of extracellular NADP(+) in the rat liver have not yet been studied. Considering the various effects of its analogue NAD(+) in the liver, however, effects of NADP(+) can equally be expected. In the present work, this question was approached in the isolated perfused rat liver to get a preliminary picture of the action of extracellular NADP(+) in this organ.

The action of extracellular NAD+ in the liver of healthy and tumor-bearing rats: model analysis of the tumor-induced modified response.

The chronic inflammatory state induced by cancer is expected to affect the actions of extracellular NAD(+) in the liver because these are largely mediated by eicosanoids. Under this assumption the present work was planned to investigate the influence of the Walker-256 tumor on the action of extracellular NAD(+) on metabolism and hemodynamics in the perfused rat liver. The experiments were done with livers from healthy and tumor-bearing rats with measurements of gluconeogenesis from lactate, pyruvate production, oxygen consumption and portal pressure.

Transformation products of extracellular NAD(+) in the rat liver: kinetics of formation and metabolic action.

The perfused rat liver responds in several ways to NAD(+) infusion (20-100 microM). Increases in portal perfusion pressure and glycogenolysis and transient inhibition of oxygen consumption and gluconeogenesis are some of the effects that were observed. Extracellular NAD(+) is also extensively transformed in the liver.

The metabolic changes caused by dexamethasone in the adjuvant-induced arthritic rat.

The action of orally administered dexamethasone (0.2 mg kg(-1) day(-1)) on metabolic parameters of adjuvant-induced arthritic rats was investigated. The body weight gain and the progression of the disease were also monitored.

Low doses of tumour necrosis factor alpha and interleukin 1beta diminish hepatic gluconeogenesis from alanine in vivo.

Previous reports have attributed a stimulating action on hepatic gluconeogenesis to tumour necrosis factor alpha (TNFalpha) administered to rats at high doses (250 mug/kg). However, in adjuvant-induced arthritic rats, which present TNFalpha and other interleukins in the circulation, hepatic gluconeogenesis is diminished. The same occurs in some types of experimental cancer models as, for example, rats bearing the Walker-256 tumour.

Metabolic effects of carbenoxolone in rat liver.

The action of carbenoxolone on hepatic energy metabolism was investigated in the perfused rat liver and isolated mitochondria. In perfused livers, carbenoxolone (200-300 microM) increased oxygen consumption, glucose production and glycolysis from endogenous glycogen. Gluconeogenesis from lactate or fructose, an energy-dependent process, was inhibited.

Effects of methotrexate on calcium flux in rat liver mitochondria, microsomes and plasma membrane vesicles.

The metabolic effects of methotrexate in perfused livers are similar to those exerted by hormones acting through Ca(2+)-dependent mechanisms. The aim of the present study was to determine whether the effects of methotrexate are mediated by a direct action on cellular Ca(2+) fluxes. Methotrexate did not affect the ATP-dependent (45)Ca(2+) uptake by mitochondria, microsomes and inside-out plasma membrane vesicles and Ca(2+) efflux from plasma membrane vesicles.

The action of extracellular NAD+ on gluconeogenesis in the perfused rat liver.

In the rat liver NAD+ infusion produces increases in portal perfusion pressure and glycogenolysis and transient inhibition of oxygen consumption. The aim of the present work was to investigate the possible action of this agent on gluconeogenesis using lactate as a gluconeogenic precursor. Hemoglobin-free rat liver perfusion in antegrade and retrograde modes was used with enzymatic determination of glucose production and polarographic assay of oxygen uptake.

The hemodynamic effects of zymosan in the perfused rat liver.

The actions of zymosan on hepatic microcirculation and on the cell membrane permeability were investigated using the multiple-indicator dilution technique. The experimental system was the perfused rat liver. [(3)H]Water, [(3)H]sucrose and [(14)C]urea or [(14)C]bicarbonate were simultaneously injected into the portal vein.

Liver parenchyma heterogeneity in the response to extracellular NAD+.

The perfused rat liver responds intensely to NAD+ infusion (20-100 microM). Increases in portal perfusion pressure and glycogenolysis and transient inhibition of oxygen consumption are some of the effects that were observed. The aim of the present work was to investigate the distribution of the response to extracellular NAD+ along the hepatic acinus.

The action of extracellular NAD+ on Ca2+ efflux, hemodynamics and some metabolic parameters in the isolated perfused rat liver.

The action of NAD+ on hemodynamics and metabolism of the isolated perfused rat liver was investigated. Extracellular NAD+ (20-100 microM) stimulated glycogen breakdown (glucose release) and inhibited oxygen uptake. Lactate production was predominantly increased, and pyruvate production was predominantly inhibited.

Naproxen affects Ca(2+) fluxes in mitochondria, microsomes and plasma membrane vesicles.

There is substantial evidence that nonsteroidal anti-inflammatory drugs (NSAIDs) affect cellular processes regulated by Ca(2+) ions, including the metabolic responses of the liver to Ca(2+)-dependent hormones. The aim of the present study was to determine whether the effects of naproxen are mediated by a direct action on cellular Ca(2+) fluxes. The effects of naproxen on 45Ca(2+) fluxes in mitochondria, microsomes and inside-out plasma membrane vesicles were examined.

Kinetic properties of the glucose 6-phosphatase of the liver from arthritic rats.

According to previous reports, adjuvant-induced arthritic rats present reduced activities of the hepatic glucose 6-phosphatase. A kinetic study was done in order to characterize this phenomenon. Microsomes were isolated from livers of arthritic and control rats (Holtzman strain) and the glucose 6-phosphatase was measured at various temperatures (13-37 degrees C) and glucose 6-phosphate concentrations.

Effect of Stryphnodendron adstringens (barbatimão) on energy metabolism in the rat liver.

The action of a barbatimão extract on hepatic energy metabolism was investigated using isolated mitochondria and the perfused rat liver. In mitochondria the barbatimão extract inhibited respiration in the presence of ADP and succinate. Stimulation occurred, however, after ADP phosphorylation (state IV respiration).

The urea cycle in the liver of arthritic rats.

The urea cycle in the liver of adjuvant-induced arthritic rats was investigated using the isolated perfused liver. Urea production in livers from arthritic rats was decreased during substrate-free perfusion and also in the presence of the following substrates: alanine, alanine + ornithine, ammonia, ammonia + lactate, ammonia + pyruvate and glutamine but increased when arginine and citrulline + aspartate were the substrates. No differences were found with ammonia + aspartate, ammonia + aspartate + glutamate, aspartate, aspartate + glutamate and citrulline.