Bile secretion in hemoglobin-free perfused rat liver

Hemoglobin-free perfused rat liver was demonstrated to be a suitable experimental model in studying bile secretion. Bile flow slowly decreased to more than 3 h of perfusion. Despite differences in metabolic states, the bile flow was the same in the recirculating as in the nonrecirculating mode of perfusion. Sulfobromophthalein stimulated bile flow at high rates of infusion. In bile, the ratio conjugated to unconjugated sulfobromophthalein also increased with sulfobromophthalein infusion rate. The access of [14C]insulin, [14C] sucrose, and inorganic [32P] phosphate from perfusate into bile was restricted. Bile flow, secretion of taurocholate and sulfobromophthalein, and bile pressure are compared with values from anesthetized animals and from isolated livers perfused with medium containing erythrocytes.     

Clearance of rat C-reactive protein in vivo and by perfused liver.

The clearance in vivo of rat C-reactive protein (CRP) was studied: (i) in the whole animal and (ii) by using a rat liver perfusion system. Rat CRP is a glycosylated serum protein containing a complex-type biantennary carbohydrate structure on each of its five subunits. The half-life of rat asialo CRP was approximately 5 min. More than 75% of the radioactivity associated with rat asialo CRP and asialo alpha 1-acid glycoprotein (AGP) was recovered in the liver. A small amount of radioactivity (0.8%) associated with rat CRP and rat asialo CRP was found in the lungs. Competitive inhibition of the clearance of 125I-labelled rat asialo CRP from the circulation by asialo AGP was dose dependent, and resulted in a corresponding decrease in the recovery of radioactivity associated with rat asialo CRP in the liver. This indicated that asialo AGP and rat asialo CRP were cleared by the hepatic asialoglycoprotein receptor. This observation was confirmed when the clearance of rat asialo CRP was studied using a rat liver perfusion system. Using this system, the clearance of rat asialo CRP and asialo AGP from the perfusate was inhibited by N-acetylgalactosamine, but not by phosphorylcholine, a ligand through which most of the CRP reactions are mediated. This study provides an example of a circulating serum glycoprotein containing a biantennary carbohydrate structure that is cleared by the asialoglycoprotein receptor.     

Inhibition of intracellular protein degradation by ethanol in perfused rat liver.

Ethanol (50 mM) inhibited proteolysis in the perfused rat liver during stringent amino acid deprivation and also in the presence of normal and 10 times normal concentrations of plasma amino acids. The concentration-response curve of ethanol reached a plateau after 5 mM in both the presence and the absence of normal plasma amino acids, suggesting inhibition by oxidation products of ethanol. Intracellular glutamine, tyrosine and proline increased in concentration with ethanol, but the increases were too small to explain the observed inhibition of proteolysis. The uptake of 125I-asialofetuin was slightly decreased and the output of ammonia increased in the presence of ethanol. These, together with a significant suppression of basal proteolysis in the presence of amino acids, suggest that lysosomal function was directly affected. Electron-microscopic examination of lysosomal components showed that the aggregate volume of autophagosomes (initial vacuoles) were significantly smaller in livers perfused with ethanol than in controls. However, the equivalent volume of autolysosomes (degradative vacuoles) was the same in both groups. According to these results, ethanol inhibits protein degradation in the liver by two discrete mechanisms: one decreasing the formation of autophagic vacuoles and the other involving lysosomotropic inhibition, possibly via ammonia.     

Regulation of lysosomal fusion during deprivation-induced autophagy in perfused rat liver.

Previous studies have demonstrated that autophagic vacuoles induced in hepatocytes of the perfused rat liver can be effectively separated from secondary lysosomes in self-generating gradients of colloidal silica/polyvinylpyrrolidone. Here we show that, as autophagy is increased by graded amino acid deprivation, the lysosomal marker N-acetyl-beta-D-glucosaminidase shifts progressively from dense to buoyant gradient fractions, an effect attributable to enhanced lysosome-autophagosome fusion and the formation of additional autolysosomes. Both the amount of the shift and the aggregate volume of autolysosomes were directly proportional to the increase in protein degradation above basal. Because the total quantity of protein sequestered in the vacuoles is also a direct function of deprivation-induced proteolysis, the relative specific activity of the marker enzyme in autolysosomes (enrichment) would be expected to remain constant over the full range of deprivation; numerical estimates of enrichment, in fact, did not differ from the mean (43.9) by more than 5%. The close correspondence between cytoplasmic sequestration and fusion was maintained, despite a greater than 3-fold increase in the average volume of individual vacuoles. This suggests the existence of an intrinsic regulatory mechanism which limits the number of fusions per vacuole, on the basis of information derived from vacuolar volume.     

Regulation of production and release of lipoprotein by the perfused rat liver

The relationship between protein and triglyceride release into d < 1.007 lipoprotein was studied in the isolated perfused rat liver. Livers were perfused with a medium either high or low in linoleate content. Perfusion with the linoleate-rich medium resulted in a marked increase in the net release of both d < 1.007 lipoprotein triglyceride and lipoprotein protein, and caused a significant increase in amino acid incorporation into the protein moiety. Amino acid incorporation into d 1.008-1.21 protein was not affected by fatty acid concentration, while incorporation into whole perfusate and tissue proteins was depressed by a perfusate high in fatty acid content. Electron microscopic studies demonstrated that the livers with the higher rate of triglyceride release also produced a greater number of lipoprotein particles. The particles they released were also somewhat larger. These studies suggest that the intracellular concentration of newly esterified triglyceride and (or) some other lipid metabolite can specifically influence the release and perhaps the synthesis of d < 1.007 lipoprotein protein. They also suggest that the liver increases its rate of triglyceride release primarily by producing more lipoprotein particles.     

Bile acid metabolism in mammals. VIII. Biliary secretion of cholylarginine by the isolated perfused rat liver.

In studies of cholic acid metabolism using the isolated perfused rat liver system, an unknown conjugate of cholic acid was observed. This conjugate comprised 15-27% of the biliary bile acids in these experiments, was less polar than cholylglycine on thin-layer chromatography using butanol, acetic acid, and water, and had an apparent molecular weight greater than that of cholyltaurine on gas-liquid chromatography. Amino acid analysis of the hydrolyzed conjugate demonstrated the presence of arginine. Perfusion studies with radioactive arginine, and mass spectrometric analysis proved that the conjugate was cholylarginine. Secretion of this conjugate does not represent a deficiency of available glycine and taurine.     

Regulation of protein phosphatase activity by regucalcin localization in rat liver nuclei.

The regulatory role of regucalcin on protein phosphatase activity in isolated rat liver nuclei was investigated. Phosphatase activity toward phosphotyrosine and phosphoserine was significantly increased by the addition of CaCl(2) (10(-5) and 10(-4) M) in the enzyme reaction mixture. Trifluoperazine (25 and 50 microM), an antagonist of calmodulin, significantly inhibited protein phosphatase activity toward phosphoserine, while it had no effect on the enzyme activity toward phosphotysine and phosphothreonine. Cyclosporin A (10(-6)-10(-4) M), an inhibitor of Ca(2+)/calmodulin-dependent protein phosphatase activity toward phosphoserine, but not phosphotyrosine and phosphoserine. Thus, Ca(2+)/calmodulin-dependent phosphatases were present in liver nuclei. Regucalcin (0.25 and 0.5 microM) had an inhibitory effect on liver nuclear phosphatase activity toward phosphotyrosine, phosphoserine, and phosphothreonine. The presence of anti-regucalcin monoclonal antibody (25 and 50 ng/ml) in the enzyme reaction mixture caused a significant elevation of nuclear phosphatase activity toward three phosphoaminoacids. An analysis with sodium sulfate-polyacrylamide gel electrophoresis suggested a possibility of localization of regucalcin in liver nuclei. Moreover, regucalcin was determined in liver nuclei using enzyme-linked immunoadsorbent assay. The present study demonstrates that the endogenous regucalcin inhibits phosphatase activity in the liver nuclei.     

Effect of HDL1 infusion on biliary secretion in perfused rat liver

The effects of HDL1 lipoprotein infusion on biliary lipid secretion were studied in thein vitro model of rat perfused liver. A strong increase in bile flow was observed during and after lipoprotein infusion. This caused a significant rise in cholesterol, phospholipid and bile salt secretions. However, only the percentage of cholesterol increased with respect to the other bile lipids. The changes observed in the cholesterol/phospholipid molar ratio values of liver membrane subfractions (i.e., liver plasma membrane, mitochondria plus lysosomes and microsomes) isolated from the perfused rat liver after HDL1 administration were not significant.     

Regulation of tyrosine transminase degradation in the isolated perfused rat liver by cycloheximide and insulin

In the isolated perfused rat liver, synthesis of the enzyme tyrosine transminase (EC 2.6.1.5) is stimulated by either insulin or glucocorticoid hormone. The antibiotic cycloheximide blocks both synthesis and degradation of tyrosine transminase in insulin-treated perfused livers, whereas it blocks only synthesis of the enzyme in glucocorticoid-treated or untreated livers. When insulin is given in additions to cycloheximide, degradation of the enzyme is blocked in glucocorticoid-treated livers as well. The inhibitory effects on degradation are enzyme-specific, since tryptophan oxygenase (EC 1.13.1.12), the synthesis of which is stimulated by glucocorticoid hormone but not by insulin, is degraded at the same rate under all conditions.     

Regulation of the glycine cleavage system in the isolated perfused rat liver

The catabolism of glycine in the isolated perfused rat liver was investigated by measuring the production of 14CO2 from [1-14C]- and [2-14C]glycine. Production of 14CO2 from [1-14C]glycine was maximal as the perfusate glycine concentration approached 10 mM and exhibited a maximal activity of 125 nmol of 14CO2 X g-1 X min-1 and an apparent Km of approximately 2 mM. Production of 14CO2 from [2-14C]glycine was much lower, approaching a maximal activity of approximately 40 nmol of 14CO2 X g-1 X min-1 at a perfusate glycine concentration of 10 mM, with an apparent Km of approximately 2.5 mM. Washout kinetic experiments with [1-14C]glycine exhibited a single half-time of 14CO2 disappearance, indicating one metabolic pool from which the observed 14CO2 production is derived. These results indicate that the glycine cleavage system is the predominant catabolic fate of glycine in the perfused rat liver and that production of 14CO2 from [1-14C]glycine is an effective monitor of metabolic flux through this system. Metabolic flux through the glycine cleavage system in the perfused rat liver was inhibited by processes which lead to reduction of the mitochondrial NAD(H) redox couple. Infusion of beta-hydroxybutyrate or octanoate inhibited 14CO2 production from [1-14C]glycine by 33 and 50%, respectively. Alternatively, infusion of acetoacetate stimulated glycine decarboxylation slightly and completely reversed the inhibition of 14CO2 production by octanoate. Metabolic conditions which are known to cause a large consumption of mitochondrial NADPH (e.g. ureogenesis from ammonia) stimulated glycine decarboxylation by the perfused rat liver. Infusion of pyruvate and ammonium chloride stimulated production of 14CO2 from [1-14C]glycine more than 2-fold. Lactate plus ammonium chloride was equally as effective in stimulating glycine decarboxylation by the perfused rat liver, while alanine plus ammonium chloride was ineffective in stimulating 14CO2 production.     

Uptake of phospholipid-depleted chylomicrons by the perfused rat liver.

1. Rat lymph chylomicrons were depleted of their surface phospholipids by treatment with pure phospholipase A2 from Crotalus adamanteus venom. 2. About 80% of the phospholipids could be removed from the chylomicrons without any apparent effect on their size, neutral lipid composition or qualitative profile of their tetramethylurea-soluble apoproteins. 3. Phospholipid-depleted chylomicrons were rapidly taken up whole by liver cells when perfused through isolated rat liver preparations. The rate of uptake was dependent on the extent of phospholipid depletion and reached a maximum (4-6.5-fold greater than control chylomicrons) when 80% of the phospholipids had been removed. 4. It is speculated that the hepatic uptake of phospholipid-depleted chylomicrons occurs by a mechanism to that of chylomicron-remnants uptake.