Effect of dimethylsulphoxide on the functional characteristics of isolated perfused rat liver

Exposure of rat liver, perfused with 7% BSA in Krebs-Ringer bicarbonate buffer, to 1.4 m Me₂SO at 35 °C had no effect on the release of potassium from the livers, but the rate of urea synthesis fell from 0.6 to 0.1 μmol/min. Bile production also decreased and the total amount collected during perfusion was only half that produced by controls. After perfusion for 4 hr at 35 °C control livers and those exposed to Me₂SO started to release GOT into the perfusate but livers exposed to the cryoprotective compound released the enzyme at a faster rate.Exposure of livers to Me₂SO at 5 °C resulted in potassium being released at a slower rate (0.98 μmol/min) than from cooled controls (1.19 μmol/min) and urea synthesis was decreased from 0.8 to 0.2 μmol/min. Bile production also declined but, because bile flow normally ceases during hypothermia, the effect on this aspect of liver function was probably less than was found at 35 °C. Release of GOT from livers exposed to Me₂SO at 5 °C was quite different from that observed at 35 °C; the enzyme appeared in the perfusate after about 8 hr and it was present in much lower concentration than was found with appropriately cooled controls which started to release the enzyme after 6 hr.Thus, exposure of rat liver to Me₂SO at 5 °C appears to be slightly less damaging than exposure at 35 °C and it may even have a beneficial effect on some aspects of liver function in vitro.     

Cryoprotective concentrations of polyethyleneoxide exhibit low toxicity toward the isolated perfused rat liver

Isolated perfused rat livers were exposed for 30 min at 35 °C to 10 and 15% (v/v) solutions of polyethyleneoxide with a mean molecular weight of 400. A dual-circuit perfusion system was employed to ensure efficient removal of the polyethyleneoxide from the liver.Bile production and urea synthesis by the livers was depressed during exposure to polyethyleneoxide but resumed within 30 min after its removal. The ability of the livers to maintain a constant concentration of glucose in perfusates and their retention of both potassium and aspartate aminotransferase were also altered after exposure to the cryoprotectant.Polyethyleneoxide at 10% (v/v) was considered to be relatively nontoxic toward the isolated rat liver and it therefore shows promise as a cryoprotective compound which may allow long-term storage of the liver at subzero temperatures.     

Effect of fatty acids on physical properties of microsomes from isolated perfused rat liver

A computer-centered spectrofluorimeter was used to examine the physicochemical properties of hepatic microsomes and microsomal lipids obtained from isolated rat livers perfused with medium containing palmitate or oleate. The fatty acid composition and degree of unsaturation of the liver microsomal lipids reflected that the fatty acid present in the perfusate. The absorption corrected fluorescence, relative fluorescence efficiency, polarization, and fluorescence anisotropy of several fluorescent probe molecules were measured to determine if their different microenvironments may be altered by the type of fatty acid infused. The probe molecules β-parinaric acid and 1.6-diphenyl-1,3,5-hexatriene had higher values for each of these parameters when incorporated into microsomes obtained from livers perfused with a medium containing palmitate than with oleate. The same parameters measured for cholesta-5,7,9(11)-trien-3β-ol and N-phenyl-1-naphthylamine were not altered. These differences appeared to be primarily due to alterations in microviscosity of the probe microenvironments since the rotational correlation time of 1,6-diphenyl-1,3,5-hexatriene was 25% lower in the microsomes from livers perfused with oleate as compared to livers perfused with palmitate. Thermal discontinuities in Arrhenius plots were noted in the intact microsomes but not in the isolated microsomal lipids with the fluorescence probe molecule β-parinaric acid. Break points occurred at 10°C and 26°C for microsomes from livers perfused with palmitate and at 12°C and 17°C for microsomes from livers perfused with oleate containing medium. These results suggest that the physicochemical properties of liver microsomes were determined in part by the fatty acid in the perfusate.     

Isolation of a unique peptide inhibitor of hormone-responsive adenylate cyclase.

We have perfused isolated rat livers with hypocalcemic (4.4 mg 100 ml) Krebs-Ringer bicarbonate albumin buffer. After 15 min of perfusion, a substance appeared in the perfusate which decreased rat renal adenylate cyclase activation by parathyroid hormone (PTH). The material in the perfusate was purified greater than 50,000-fold by Bio-Gel P-10 chromatography. The purified antagonist decreased the activation of rat renal cortical adenylate cyclase by PTH, glucagon, and epinephrine 75 to 100%. Concentration response curves for each of the hormones indicated a noncompetitive interaction of the inhibitor with the hormone. The inhibition was not species-specific, as the activation of the parathyroid hormone-responsive adenylate cyclase in cat renal cortex was also abolished by the inhibitor from the perfused rat liver. The inhibitor is a peptide, Mr equal to similar to 1000, which is heat-stable, acid-stable, alkai-labile, and is destroyed by trypsin, leucine aminopeptidase, and elastase. It is not destroyed by phosphodiesterase, 5'-nucleotidase, alkaline phosphatase, neuraminidase, RNase, or phospholipase A. The inhibitor is not produced by isolated rat livers perfused with normocalcemic perfusion media. It is unclear whether the peptide is synthesized by the liver or whether it is a breakdown product of a larger peptide or protein in the liver. This is the first reported peptide inhibitor of adenylate cyclase.     

Ultrastructural and hormonal metabolic studies of rat liver maintained in vitro by perfusion at 30 degrees C and 37 degrees C: a time course study by TEM, SEM and RIA

Isolated rat liver perfusion system has been extensively used for metabolic and functional studies. Results derived from the application of this system may reflect true biochemical changes but they may also be associated with some structural changes. This study was undertaken to correlate the cytological changes and functional integrity of isolated rat liver perfused in vitro at normal physiological temperature (37 degrees C) and 30 degrees C, using a non-recirculating system. The livers were perfused for 3 hours with modified Ham's F10 culture medium supplemented with thyroxine hormone (T4). The hepatocyte structural integrity was studied by light microscopy, transmission and scanning electron microscopy. The triiodothyronine (T3) and T4 hormones in the perfusion medium and the effluent fractions were assessed by radioimmunoassay. The livers perfused at 30 degrees C remained morphologically intact at the ultrastructural level for 3 hours whilst at 37 degrees C, hepatocytes in the centrilobular zone exhibited marked structural alterations. The percentage of T4 uptake was significantly higher (P less than 0.01) in livers perfused at 30 degrees C (50.8 +/- 7.7% vs 38 +/- 7.7%, 37 degrees C), but the net T3 output (3.16 +/- 1.04 micrograms) and the conversion of T4 to T3 (4 +/- 0.62%) were significantly higher (P less than 0.001) in livers perfused at 37 degrees C in comparison to livers perfused at 30 degrees C (1.61 +/- 0.84 micrograms and 1.68 +/- 0.76%, respectively). In conclusion, at 30 degrees C the hepatic T4 uptake is not inhibited, but the rate of T4 to T3 conversion has decreased, additionally the livers remain morphologically well preserved throughout the experimental period.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of temperature change on the tolerance of isolated contracting cardiac muscle to hypoxia.

The effects of graded temperature changes on tolerance to hypoxia are evaluated in isometrically contracting isolated muscle preparations from the rat. After equilibration at 28 °C, the temperature was changed to either 21 ° or 35 °C. Mechanical performance was measured after temperature change, during 60 min of hypoxia at a given temperature and a subsequent 30 min-period of reoxygenation at 28 °C. Performance as measured by (1) developed tension, (2) contracture tension, and (3) recovery on reoxygenation was diminished by raising temperature to 35 °C during hypoxia while no change in tolerance was demonstrated by lowering temperature from 28 ° to 21 °C.     

Influence of ischaemic time on the production of bile by perfused rat liver

Production of bile has been studied in rat livers in situ and in livers perfused with rat blood or with bovine erythrocytes in Krebs Ringer buffer containing bovine albumin. The mean rate bile flow in four in situ livers remained almost constant for 3 hr following cannulation while bile flow in vitro decreased gradually throughout the 3-hr perfusion period. The total amount of bile produced in vitro decreased linearly with increase in ischaemic time. This decrease was greater in livers perfused with rat blood than with bovine erythrocytes. The length of the ischaemic time had no effect on other indices of liver function which were measured, i.e., urea synthesis, the ability to maintain a low concentration of ammonia in the perfusate, and the ability to retain potassium within the cells.     

Alteration in biological properties of human albumin during storage

The effects of human albumin preparations on oxidative energy metabolism and lipid svnthesis were investigated in rat liver slices incubated with sodium [1-¹⁴C]acetate as precursor. Labeled CO₂ production and incorporation of precursor into the major lipid classes was increased 2 to 3-fold by fresh preparations of albumin (fraction V), and by defatted fraction V, whereas highly purified cystalline albumin was less active. Albumin preparations from various commercial suppliers varied widely in activity. Activity of fraction V was preserved during storage at ?20°C, and gradually lost at +3°C in the course of 1 year. In contrast, defatted fractions rapidly lost activity in storage at both temperatures. After 1 year in storage at +3°C, albumin preparations became inhibitory to CO₂ production and lipid synthesis. The results suggest that commercial albumin used in metabolic studies, and in clinical situations may have unpredictable or undesirable effects related to state of purity and storage conditions of the protein.     

Temperature-induced vertical shift of proteins in membranes

Thermotropic changes in the transverse order of microsomal membranes isolated from Tetrahymena are revealed by low-angle X-ray diffraction. These are correlated with the lateral order of the membrane lipids by wide-angle X-ray diffraction. Upon lowering the temperature from 28 °C to 2 °C, the Bragg period of the membrane stack reveals an abrupt increase of ~3.0 nm at ~19 °C, which is reversible upon reheating to 28 °C. This is coupled with an alteration in the electron density profile, revealing a shift of mass from the hydrophobic core towards one of the two hydrophilic surfaces. Between 35 °C and 0 °C, the membrane lipids undergo a broad, thermotropic “two-stage” liquid crystalline ? crystalline phase separation with a “breakpoint” at ~18 °C. This breakpoint signals an abrupt lipid redistribution, presumably due to a change in the composition of the two coexisting liquid crystalline and crystalline lipid phases. We conclude: (1) the temperature-induced mass shift reflects a shift in the transverse partition of proteins in membranes; (2) this is triggered by an abrupt lipid redistribution occurring during a broad liquid crystalline ? crystalline phase separation.     

Effects of hypothermic hypoxia on anaerobic energy metabolism in isolated anuran livers

Many lower vertebrates (reptilian and amphibian species) are capable of surviving natural episodes of hypoxia and hypothermia. It is by specific metabolic adaptations that anurans are able to tolerate prolonged exposure to harsh environmental stresses. In this study, it was hypothesized that livers from an aquatic frog would possess an inherent metabolic ability to sustain high levels of ATP in an isolated organ system, providing insight into a metabolic system that is well-adapted for low temperature in vitro organ storage. Frogs of the species, R. pipiens were acclimated at 20 °C and at 5 °C. Livers were preserved using a clinical preservation solution after flushing. Livers from 20 °C-acclimated frogs were stored at 20 °C and 5 °C and livers from 5 °C-acclimated frogs were stored at 5 °C. The results indicated that hepatic adenylate status was maintained for 96 h during 5 °C storage, but not longer than 4–10 h during 20 °C storage. In livers from 5 °C-acclimated animals subjected to 5 °C storage, ATP was maintained at 100% throughout the 96-h period. Warm acclimation (20 °C) and 20 °C storage resulted in poorer maintenance of ATP; energy charge values dropped to 0.50 within 2 h and by 24 h, only 24% of control ATP remained. Lactate levels remained less than 25 μ mol/g dry weight in all 5 °C-stored livers; 20 °C-stored livers exhibited greater accumulation of this anaerobic end-product (lactate reached 45–50 μ mol/g by 10 h). The data imply that hepatic adenylate status is largely dependent on exposure to hypothermic hypoxia and although small amounts of ATP were accounted for by anaerobic glycolysis, there must have been either a substantial reduction in cellular energy-utilization or an efficient use of low oxygen tensions. Accepted: 24 August 1998     

Mechanism of the inhibition of protein synthesis by vasopressin in rat liver

A recent study reported that protein synthesis was inhibited in rat livers perfused with medium containing vasopressin (Chin, K. -V., Cade, C., Brostrom, M. A., and Brostrom, C. O. (1988) Int. J. Biochem. 20, 1313-1319). The inhibition of protein synthesis caused by vasopressin was associated with a disaggregation of polysomes, suggesting that peptide chain initiation was slowed relative to elongation. In contrast, Redpath and Proud (Redpath, N. T., and Proud, C. G. (1989) Biochem. J. 262, 69-75) recently reported an inhibition of peptide chain elongation by a calcium/calmodulin-dependent mechanism. Therefore, the question remained whether only peptide chain initiation was inhibited or both initiation and elongation were affected by vasopressin. In the present study, vasopressin was found to inhibit protein synthesis in both perfused rat livers and isolated rat hepatocytes. Ribosomal half-transit times in isolated hepatocytes averaged 1.9 +/- 0.1 min with or without vasopressin present in the media, demonstrating that the rate of peptide chain elongation was unaffected by vasopressin. Instead, the inhibition of protein synthesis induced by vasopressin was manifested at the level of peptide chain initiation. Vasopressin treatment resulted in both a 2-fold increase in the number of free ribosomal particles and a greater than 50% decrease in the amount of [35S]methionine bound to 43 S preinitiation complexes. In addition, the activity of eukaryotic initiation factor (eIF) 2B in crude extracts from perfused livers was reduced to 53% of the control value in response to vasopressin. The inhibition of eIF-2B activity was associated with an increase in the proportion of the alpha-subunit of eIF-2 in the phosphorylated form from 9.6% in control livers to 30.7% in livers perfused with medium containing vasopressin. The results demonstrate the novel finding that the inhibition of protein synthesis in vasopressin-treated livers is caused by a reduction in eIF-2B activity due to an increase in phosphorylation of eIF-2 alpha.     

Serial section analysis of clathrin-coated pits in rat liver sinusoidal endothelial cells

Electron microscopy and serial sections were used to examine the shape of clathrin-coated pits in sinusoidal endothelial cells of rat livers. Livers were perfused at 4 degrees C with either concanavalin A-horseradish peroxidase (conA-HRP), or HRP alone, followed by warm-up to 37 degrees C and fixation with glutaraldehyde. Alternatively, the livers were perfused with HRP at 37 degrees C, followed by fixation. All tissue was preserved using a membrane contrast enhancement technique (R-OTO) consisting of sequential osmium-ferrocyanide, thiocarbohydrazide, and osmium-ferrocyanide treatment. Peroxidase reaction product was used to identify structures participating in endocytosis. One hundred and ninety-three clathrin-coated structures were examined. Sixty-six were from livers perfused with conA-HRP at 4 degrees C, 63 were from livers perfused with only HRP at 4 degrees C, and 64 were from livers perfused with HRP at 37 degrees C. These coated structures were morphologically classified into three categories: (a) flat pits; (b) cup-shaped pits; (c) pits with a narrow neck. No isolated coated vesicles were found. In cells perfused at 4 degrees C followed by warming to 37 degrees C, the percentage of coated pits found connected to the cell surface by narrow necks was 31%, using conA-HRP, and 27% using HRP alone. In cells perfused continuously at 37 degrees C, the percentage of coated pits with narrow neck connections was 21% using HRP alone. These results suggest that the formation of coated pits connected to the surface by narrow necks is not an artifact of cell type, of experimental protocol or of incubation with a lectin.     

Abnormal secretion of proteins into bile from colchicine-treated isolated perfused rat livers.

The microtubule poison, colchicine, caused an abnormal output of a variety of proteins into rat bile. After 3 h of exposure to the drug, livers were isolated and perfused with media of defined protein composition. There was no essential change in permeability of the hepatobiliary system to proteins (e.g. bovine serum albumin) entering bile from the perfusion fluid. The rat (serum) albumin and fibrinogen that were secreted into bile from colchicine-treated livers were probably derived from the hepatocytes. Disruption of the microtubular system reduces the secretion of proteins at the sinusoidal face of the hepatocyte and results in an accumulation of secretory vesicles in the cytoplasm. It is suggested that under these conditions some of the vesicles discharge their contents into the bile canaliculus.     

Lacto-N-neotetraosylceramide ("paragloboside") as a possible tumor-associated surface antigen of hamster NILPY tumor.

Isolated rat hepatocytes from fed and starved rats synthesized net glucose from various precursors at similar rates. [3-¹⁴C]-lactate incorporation into glucose was also similar in hepatocytes from fed and starved rats, as was ketone body formation from oleate and octanoate. Rates of gluconeogenesis in hepatocytes from fed rats compare to rates seen in perfused livers from starved rats rather than perfused livers from fed rats. Thus metabolic rates and possibly controls may be different between perfused livers and isolated hepatocytes when using fed rats.     

Renal preservation by hypothermic perfusion. III. The lack of influence of pulsatile flow

Rabbit kidneys were perfused at 5 °C with a plasma-like solution containing dextran 70 and bovine serum albumin, and were autografted 24 hr later. One experimental group was perfused at a constant pressure of 40 mm Hg, while the second group was perfused with a pulsatile pressure having a root-mean-square (rms) equivalent of 40 mm Hg; the pulse pressure was 15 mm Hg and the pulse rate 60 min^?1 The behaviour of the two groups during perfusion and after transplantation was similar. It is concluded that pulsatile flow is without benefit during renal preservation by hypothermic perfusion.     

The effect of temperature on feeding,growth, and metabolism during the last larval stadium of the female house cricket, Acheta domesticus

Eighth instar female house crickets at 35°C developed faster, gained slightly more wet weight, and consumed less food, water, and oxygen than at 25°C. The duration of the 8th stadium at 25°C was 13 days (undisturbed), but was 14 days when disturbed by daily weighing. The duration of the 8th stadium at 30°C was 8 days and at 35°C was 6 days. During the first half of the 8th stadium at 25, 30, and 35°C, there was a high rate of food and water consumption resulting in statistically equal maximum dry weight achievement (124 mg). Respiratory quotients greater than one during this time indicated the conversion of ingested carbohydrate to fat. During the latter half of the 8th stadium, food and water consumption declined and the crickets lost weight. The period of weight loss was proportionally much longer at 25°C than at 30 or 35°C. Respiratory quotients lower than 1.0 during the latter half of the 8th stadium at 30 and 35°C indicated the metabolism of stored lipids. The respiratory quotient at 25°C never fell below 1.0, possibly because some food remained in the gut. The absorption efficiency was not influenced by temperature (25–35°C). Though the caloric content of the faeces was lower at 25°C than at 30 or 35°C, which correlated to the much longer time for food passage at 25°C than at 35°C, the difference in total calories egested was insufficient to alter the absorption efficiency. A longer period of reduced feeding and greater dry weight loss during the latter half of the 8th stadium at 25°C resulted in a lower metabolic efficiency at 25°C than at 30 or 35°C. Eighth instar crickets in response to a step-function transfer from 30°C–25 or 35°C showed an immediate (<1 hr) and complete metabolic adjustment which was not affected by the temperature history during the 7th stadium. House crickets did not exhibit temperature acclimation in the range 20–40°C, the metabolic rate being determined by ambient temperature. The Q₁₀ for oxygen consumption in the range 20–40°C was about 2.     

Calcium antagonists and heat-induced hepatic injury

Several laboratories have demonstrated the value of the isolated perfused rat liver as a suitable model for heat-induced hepatic injury in vivo. Membrane changes caused by perfusion of rat livers at 42 degrees C for 90 min were similar to those induced by toxic chemicals or hypoxia. In an evaluation of several categories of drugs reported to reduce cell injury, calcium antagonists (nifedipine, dantrolene, and verapamil), were evaluated for their therapeutic potential for heat injury. Isolated rat livers were perfused at 42 degrees C for 90 min with and without calcium antagonists. Livers were also perfused at 37 degrees C. Potassium and transaminase leakage, bile production and ultrastructure were used to evaluate their responses. Neither of the three calcium antagonists significantly improved any of the functional parameters measured. However, dantrolene produced dilated or vesicular rough endoplasmic reticulum in the heated livers. These changes suggest selective intracellular action on endoplasmic reticulum of heated livers. Ring-shaped mitochondria and vesicular endoplasmic reticulum were observed in the heated, verapamil-treated livers, but these could not be quantitatively distinguished from controls. Nifedipine did not appear to alter intracellular membranes, but did increase bile production.     

Regulation of protein secretion by crinophagy in perfused rat liver.

We examined the secretion of three serum proteins, albumin (RSA), alpha 2 mu-globulin (alpha 2 mu G), and transferrin (Trf), in the isolated perfused liver. Within 4 h of perfusion, only 20 to 35% of previously synthesized proteins were secreted by the liver into the recirculating medium. Low temperature inhibited the secretion of alpha 2 mu G and Trf, but not RSA. The amount of RSA secreted by the liver increased twofold in the presence of leupeptin, a proteinase inhibitor, or primaquine, a weak base capable of neutralizing acidic compartments. Neither drug affected Trf secretion, while the release of alpha 2 mu G was enhanced threefold by primaquine treatment. Only 55 to 70% of the total amount of these serum proteins present in the liver at the onset of perfusion could be accounted for after 4 h of perfusion. Our evidence suggests that these losses are due to protein degradation. The degradation of RSA and alpha 2 mu G was inhibited at 15 degrees C and by both leupeptin and primaquine. Contrary, RSA degradation was not altered when livers were perfused at 20 degrees C. Morphological techniques combined with immunological probes were utilized to identify possible intracellular sites of RSA degradation. RSA and cathepsin L were colocalized to large vacuoles found near the cell periphery. Entry of RSA into these vacuoles occurred at 20 degrees C but not at 15 degrees C. Our results using perfused rat livers suggest that as much as 40% of hepatic serum proteins are degraded via fusion of secretory vesicles with lysosomes (e.g., crinophagy).     

Reversible Binding of Long-chain Fatty Acids to Purified FAT,the Adipose CD36 Homolog

Transport of long-chain fatty acids into rat adipocytes was previously shown to be inhibited by the reactive derivative sulfosuccinimidyl oleate consequent to its binding to a membrane protein FAT, which is homologous to CD36. In this report, the ability of the purified protein to bind native fatty acids was investigated. CD36 was isolated from rat adipocytes by phase partitioning into Triton X-114 followed by chromatography on DEAE and then on wheat germ agglutinin. Fatty acid binding was determined by incubating CD36, solubilized in buffer containing 0.1 Triton X-100, with fatty acids at 37°C, and then by adsorbing the unbound ligand with Lipidex 1,000 at 0°C. Bovine serum albumin was used as a positive control and gelatin, a protein that does not bind fatty acids, as a negative control. Measurements with albumin yielded reproducible binding values which were not altered by the presence of 0.1% Triton X-100. Under the same conditions, gelatin yielded reproducibly negative measurements that did not differ significantly from zero. CD36 bound various long-chain fatty acids at low ligand to protein ratios. Warming the protein-FA-Lipidex mixture to 37°C removed the FA off the protein. Thus, binding was reversible and distinct from the palmitoylation of the protein known to occur on an extracellular domain. Comparison of the predicted secondary sequence of CD36 with that of human muscle fatty acid binding protein suggested that a potential binding site for the fatty acid on CD36 may exist in its extracellular segment between residues 127 and 279. Received: 17 January 1996/Revised: 8 May 1996