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14 results on '"SCHREIBER SS"'

1. The effect of pressure or flow stress on right ventricular protein synthesis in the face of constant and restricted coronary perfusion.

Author

Schreiber SS, Rothschild MA, Evans C, Reff F, and Oratz M

Subjects
Adenosine Triphosphate analysis, Albumins metabolism, Animals, Blood Pressure, Carbon Radioisotopes, Cardiac Volume, Guinea Pigs, Heart Ventricles analysis, Heart Ventricles physiopathology, Hypoxia physiopathology, Iodine Radioisotopes, Lactates biosynthesis, Lysine metabolism, Male, Models, Biological, Muscle Proteins isolation & purification, Perfusion, Stress, Physiological metabolism, Coronary Circulation, Heart Ventricles metabolism, Muscle Proteins biosynthesis, Pressure
Abstract

Cardiac stress produced by hypertension or excess volume loading results in different types of hypertrophy. Elevated left ventricular pressure rapidly results in increased myocardial protein synthesis in vivo and in vitro, but such rapid alterations are not consistently seen in volume loading. The difference in response is difficult to clarify since it is not possible to effect alterations in left ventricular pressure or perfusion without profoundly affecting coronary perfusion. The present study describes cardiac protein synthesis in the right ventricle of the young guinea pig heart in vitro by utilizing a perfusion model in which the right ventricle could be stressed by elevations of pressure or volume loading in the presence of constant and restricted coronary perfusion. With coronary flow maintained at 4 ml/min per heart equivalent to 25 ml/min/g dry wt, an increase in right ventricular pressure from normal levels of 3 mm Hg to 11 mm Hg resulted in a 60 percent increase of myocardial incorporation of (14C)lysine into protein. However, with further increases of right ventricular pressure to 22 mm Hg, protein synthesis dropped back to normal levels. The falloff in protein synthesis was not due to decreased contractility, alterations in intracellular lysine pool specific activity, or alterations in distribution of coronary flow. a 60 percent increase in coronary perfusion was again associated with a similar response of protein synthesis to progressive elevations of pressure despite a rise in the ATP levels and a fall in lactate production. Thus, a deficiency of O2 did not entirely explain the decline of protein synthesis with maximal pressures. At all levels of coronary perfusion, volume loading for 3 h did not result in increased protein incorporation of (14C)lysine. The studies support a relationship between ventricular pressure and protein synthesis unrelated to coronary flow per se. A pressure receptor triggering protein synthesis within the ventricular wall is postulated. Such a relationship is not apparent in short-term volume loading in vitro.

Published
1975
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3. Albumin to ascites: demonstration of a direct pathway bypassing the systemic circulation.

Author

Zimmon DS, Oratz M, Kessler R, Schreiber SS, and Rothschild MA

Subjects
Blood Circulation, Carbon Isotopes, Humans, Liver metabolism, Lymph analysis, Male, Plasma analysis, Serum Albumin biosynthesis, Serum Albumin, Radio-Iodinated, Thoracic Duct, Albumins analysis, Ascites metabolism, Ascitic Fluid analysis, Liver Cirrhosis metabolism, Serum Albumin analysis
Abstract

The transport of plasma albumin and newly made albumin into ascitic fluid was studied in eight patients with cirrhosis and ascites. The thoracic duct was cannulated in two patients and lymph collected over a period of 2 hr. Simultaneously albumin-(131)I and carbonate-(14)C were injected intravenously. The albumin-(131)I measured the transfer of plasma albumin into ascites and into thoracic duct lymph. The carbonate-(14)C, by labeling newly formed albumin, permitted the estimation of the transfer of newly formed albumin into plasma, ascites, and lymph. If the newly synthesized albumin entering ascites and thoracic duct lymph is delivered initially into the plasma, then the ratios of the albumin-(14)C and -(131)I in ascites and lymph compared with the content of albumin-(14)C and -(131)I in plasma would be identical. However, if some newly formed albumin is delivered directly into ascites or lymph, the ratio for albumin-(14)C would be higher than that for albumin-(131)I in lymph or ascites. The ratios of both labeled albumins found in ascites or lymph are expressed as per cent of the total plasma pool. In the eight patients studied 4.2-11.7% of the albumin-(14)C in plasma was found in ascites in 2 hr whereas only 0.4-2.2% of plasma albumin-(131)I entered in this same period. In the two patients studied during thoracic duct lymph drainage 6.1 and 13.5% of newly made albumin-(14)C appeared in lymph in 2 hr whereas only 2.8 and 3.8% of plasma albumin-(131)I was found in the lymph. In cirrhosis with ascites some newly formed albumin entered ascites and thoracic duct lymph by a direct pathway from the liver bypassing the systemic circulation.

Published
1969
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4. Alcohol-induced depression of albumin synthesis: reversal by tryptophan.

Author

Rothschild MA, Oratz M, Mongelli J, and Schreiber SS

Subjects
Animals, Arginine biosynthesis, Carbon Dioxide metabolism, Carbon Isotopes, DNA metabolism, Depression, Chemical, In Vitro Techniques, Liver cytology, Male, Perfusion, RNA metabolism, Rabbits, Ribosomes metabolism, Urea biosynthesis, Drug Antagonism, Ethanol antagonists & inhibitors, Liver metabolism, Serum Albumin biosynthesis, Tryptophan pharmacology
Abstract

The influence of alcohol on albumin synthesis was studied in the isolated perfused rabbit liver. Carbonate-(14)C was used to label the intracellular arginine pool which serves as the precursor of both the carbon of urea and the guanido carbon of arginine in albumin. The control group synthesized albumin at a rate of 33 mg/100 g of wet liver weight during 2.5 hr of perfusion. When alcohol, 220 mg/100 ml, was added to the perfusate, albumin synthesis decreased to between 7 and 11 mg, less than one-third the control rate. The addition of 10 mM tryptophan to perfusates containing alcohol prevented most of the inhibitory effects and albumin synthesis increased to average 24 mg. Further, the addition of alcohol to the perfusate decreased the hepatic protein/DNA ratio from 70 to 54 and the RNA/DNA ratio from 2.3 to 1.8, changes equivalent to those seen after a 24 hr fast. The addition of tryptophan to the perfusate prevented these findings in both instances. Endoplasmic membrane-bound polysomes were examined for aggregation. Alcohol decreased the quantity of heavier aggregates. Reaggregation occurred when tryptophan was added but quantitative changes in albumin synthesis could not be related to the degree of reaggregation.

Published
1971
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9. Ethanol, acetaldehyde, and myocardial protein synthesis.

Author

Schreiber SS, Briden K, Oratz M, and Rothschild MA

Subjects
Acetaldehyde biosynthesis, Albumins metabolism, Alcoholism complications, Animals, Carbon Isotopes, Depression, Chemical, Ethanol metabolism, Guinea Pigs, Heart drug effects, Heart Diseases etiology, Humans, In Vitro Techniques, Liver metabolism, Lysine metabolism, Perfusion, Propranolol pharmacology, Acetaldehyde pharmacology, Ethanol pharmacology, Muscle Proteins biosynthesis, Myocardium metabolism
Abstract

The cause of alcoholic myocardiopathy is unknown. The effects of acute exposure to ethanol or its metabolite acetaldehyde on protein synthesis in working, intact, guinea pig hearts in vitro were studied utilizing lysine-(14)C perfusion. Ethanol at 250 mg/100 ml, a level sufficient to markedly inhibit hepatic production of albumin, did not alter cardiac function, the equilibration of the intracellular free lysine pool in either ventricle, or the incorporation of lysine-(14)C into protein. Thus, in controls and ethanol-perfused hearts, the incorporation of lysine in 3 hr was 44.1+/-1.5 and 42.8+/-1.2 mumoles lysine/g protein N for the right ventricles and 25.6+/-1.0 and 24.3+/-0.8 for the left ventricles, respectively. Only at lethal levels, 1500 mg/100 ml ethanol, was protein synthesis depressed. Acetaldehyde 3.5 mg/100 ml (0.8 mM) effected a markedly positive chronotropic and inotropic effect on the perfused heart and slightly depressed equilibration of the intracellular free lysine pool. However, determinations of protein incorporation of lysine-(14)C based on intracellular lysine-(14)C specific activities showed a significant decrease from control right and left ventricle values, to 27.1+/-2.8 and 14.9+/-1.9. Propanalol, which abolished the chronotropic effect, did not prevent the inhibition of protein synthesis. The studies suggest that acetaldehyde, which inhibits cardiac protein synthesis in vitro, may play a role in alcoholic myocardiopathy by interfering with normal myocardial protein synthesis.

Published
1972
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10. Albumin synthesis in cirrhotic subjects with ascites studied with carbonate-14C.

Author

Rothschild MA, Oratz M, Zimmon D, Schreiber SS, Weiner I, and Van Caneghem A

Subjects
Adult, Aged, Alkaline Phosphatase blood, Aspartate Aminotransferases blood, Bilirubin blood, Carbon Isotopes, Carbonates, Cholesterol blood, Humans, In Vitro Techniques, Iodine Isotopes, Middle Aged, Prothrombin Time, Serum Globulins analysis, Ascites metabolism, Liver Cirrhosis metabolism, Serum Albumin biosynthesis
Abstract

The synthesis of serum albumin was measured in 19 patients with cirrhosis of the liver and ascites. Carbonate-(14)C was used to label the guanido carbon of arginine in albumin.18 of the patients had the diagnosis of cirrhosis confirmed by biopsy and/or by the presence of esophageal varices. Seven patients with albumin synthesis rates of 42-105 mg/kg per day demonstrated the lowest serum cholesterol esters and highest serum glutamic oxalacetic transaminase (SGOT) levels, while the seven patients whose albumin synthesis rates ranged from 203-378 mg/kg per day, had significantly higher cholesterol ester levels and significantly lower values for SGOT. The serum albumin levels were equally depressed in all patients. In patients with cirrhosis and ascites albumin production was found to be normal or elevated in seven of the 19 subjects, and only markedly depressed in seven patients, in spite of the fact that the serum albumin level was depressed in all patients.

Published
1969
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11. Effects of carbon tetrachloride on albumin synthesis.

Author

Rothschild MA, Oratz M, and Schreiber SS

Subjects
Aniline Compounds pharmacology, Animals, Antioxidants pharmacology, Carbon Isotopes, Carbon Tetrachloride antagonists & inhibitors, Carbonates metabolism, Cortisone pharmacology, DNA analysis, Depression, Chemical, Fasting, Lactates analysis, Liver analysis, Liver drug effects, Liver metabolism, Male, Perfusion, Polyribosomes drug effects, Pyruvates analysis, RNA analysis, Rabbits, Tryptophan pharmacology, Urea biosynthesis, Albumins biosynthesis, Carbon Tetrachloride pharmacology
Abstract

The effects of CCl(4) on albumin synthesis were studied employing the isolated perfused liver. Carbonate-(14)C was used to measure newly synthesized albumin. 2.5 ml of CCl(4) was administered by stomach tube 2 hr before perfusion. Albumin synthesis decreased from 36 to 5 mg following the ingestion of CCl(4). Preperfusing the livers for 1 hr before measuring albumin synthesis resulted in an increase to 12 mg, and the addition of tryptophan to a final concentration of 10 mM resulted in a further increase to 19 mg. Cortisone did not protect against the toxic effects of CCl(4) when administered to the donor rabbits. Fasting resulted in an increased sensitivity to CCl(4) and an antioxidant was not effective in protecting against the toxic manifestations of CCl(4).

Published
1972
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12. Effects of a short-term fast on albumin synthesis studied in vivo, in the perfused liver, and on amino acid incorporation by hepatic microsomes.

Author

Rothschild MA, Oratz M, Mongelli J, and Schreiber SS

Subjects
Animals, Blood Urea Nitrogen, Blood Volume, Carbon Isotopes, Carbonates metabolism, Centrifugation, Chemical Precipitation, Electrophoresis, Immunoelectrophoresis, Leucine metabolism, Liver Circulation, Male, Perfusion, Phenylalanine metabolism, Rabbits, Serum Albumin analysis, Tritium, Uracil Nucleotides pharmacology, Albumins biosynthesis, Amino Acids metabolism, Fasting, Liver metabolism, Microsomes metabolism
Abstract

Carbonate-(14)C was used to label the hepatic intracellular arginine pool and direct measurement of albumin synthesis was made in six rabbits before and after an 18-36 hr fast. 18 perfusion studies were performed with livers derived from fed and fasted rabbits (18-24 hr). Microsomal amino acid-incorporating ability with leucine-(3)H and phenylalanine-(14)C was compared in 17 studies, using microsomes isolated from livers taken from fed and fasted rabbits and from isolated perfused livers whose donors were fed and fasted. Albumin synthesis is rapidly inhibited by fasting. Albumin synthesis decreased 33% in vivo and 53% in the perfused liver. The microsomes from perfused livers taken from fed animals did not demonstrate a significantly reduced capacity to incorporate leucine-(3)H or phenylalanine-(14)C into protein. Microsomes derived from perfused and nonperfused livers whose donors were fasted incorporated 32-54% less tracer than microsomes obtained from fed donor rabbits. Microsomes separated from perfused livers removed from fed and fasted rabbits responded to polyuridylic acid stimulation and phenylalanine-(14)C incorporation rose from 58 to 171%. An 18-36 hr fast inhibits albumin production in vivo and in the perfused liver. The microsomal system is less active in the fasted state and perfusion per se does not inhibit the microsomal response.

Published
1968
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