Arginine uptake by isolated rat liver mitochondria

The question of arginine uptake by mitochondria is important in that arginine is an allosteric effector of N-acetylglutamate synthetase. Thus, changes in mitochondrial arginine concentration have the potential for acutely modifying levels of N-acetylglutamate, a compound necessary for maximal activity of carbamyl phosphate synthesis. Mitochondria were isolated from chow-fed rats, incubated with [guanido-¹⁴C]arginine and were centrifuged through silicon oil into perchloric acid for determination of intramitochondrial metabolites. Arginine was separated from urea by cation-exchange resin. Mitochondrial water space was determined by [¹⁴C]urea arising from arginase activity associated with the mitochondrial preparations. Extramatrix space was determined by parallel incubations with [inulin-¹⁴C]carboxylic acid or [¹⁴C]sucrose There was considerable degradation of arginine by arginase associated with the mitochondrial preparation. This was inhibited by 7 mM ornithine and 7 mM lysine. Arginine was concentrated intramitochondrially to 4-times the extramitochondrial levels. The concentration ratio was decreased in the presence of ornithine and lysine but not with citrulline, NH₄Cl, glutamate, glutamate or leucine. No uptake was observed when mitochondria were incubated at 0°C. Mitochondria did not concentrate citrulline.     

The uptake of R-type cobalamin-binding protein by isolated rat liver cells

The uptake of R-type cobalamin-binding protein from human granulocytes and plasma by isolated parenchymal rat liver cells has been studied. When [⁵⁷Co]cyanocobalamin-saturated granulocyte-binding protein or transcobalamin III was incubated with the liver cells in a concentration of 500 pM, more than 80% of the vitamin was taken up in 1 h. Vitamin B-12 bound to plasma transcobalamin I, however, was not taken up unless the protein was desialylated by neuraminidase from Vibrio cholerae. The uptake of iodinated pure granulocyte-binding protein, saturated with cobalamin, reached 100% and was accompanied by increasing intracellular proteolytic degradation of the binding protein. EGTA and asialo-orosomucoid completely inhibited this process of uptake and degradation, whereas partial inhibition was caused by chloroquine and colchicine. These observations provide evidence that these (asialo)-R-type cobalamin-binding proteins are taken up by the cell through the plasma membrane receptor for asialoglycoproteins by means of endocytosis followed by proteolysis of the binding protein in the lysosomes.     

d-glucose uptake in human liver cell cultures

Summary The kinetic parameters ford-glucose uptake were studied in human liver cell cultures under strictly defined experimental conditions. Using a wide concentration range (0.005 to 30 mmol/l), the kinetic data obtained suggested strongly thatd-glucose in human liver cell cultures can be transported by two separate systems. For the high-affinity system, the apparentK _m was 0.645±0.21 mmol/l and the V_max, 12.49±3.74 nmol/mg protein per min. For the low-affinity system, the apparentK _m was 6.91±0.58 mmol/l and the V_max, 79.90±5.27 nmol/mg protein per min. At a concentration of 2.1×10⁻⁷ mol/l, cytochalasin B preferentially inhibited the high-affinityd-glucose site or transport system. The time course ofd-glucose uptake, studied in two cell lines from patients with hereditary fructose intolerance, was significantly higher than for the control lines. This work was supported by Grant I.N.S.E.R.M. CRL 77-5-210-4.     

Changes in lipoprotein binding and uptake by hepatocytes during rat liver regeneration

The binding and uptake of cholesterol enriched lipoproteins by isolated hepatocytes was decreased at 16 hours after partial hepatectomy, with a tendency to return to control values as the regeneration proceeds. The number of lipoprotein binding sites of total cellular membranes remained similar to control at 16 and 24 hours. The plasma lipoprotein pattern, determined by electrophoretic analysis, showed a lower per cent of very low density lipoproteins (VLDL) and a higher per cent of low density lipoproteins (LDL) at 16 and 24 hours post-partial hepatectomy. At these times, plasma lecithin: cholesterol acyltransferase (LCAT) activity was decreased. It is intriguing to suggest that the regenerating liver could regulated the blood lipoprotein pattern and the uptake of lipoproteins by modulating the surface expression of the receptors.     

Insulin stimulates GDP release from G proteins in the rat and human liver plasma membranes

Plasma membranes (1–2 mg protein) prepared from the livers of adult male rats and human organ donors were incubated with 0.6 μM [α-³²P] guanosine triphosphate (GTP) in an adenosine triphosphate (ATP)-regenerating buffer at 37°C for 1 h; during this incubation, the [³²P]GTP is hydrolyzed and the nucleotide that is predominantly bound to the membranes is [³²P] guanosine diphosphate (GDP). [³²P]GDP release from the liver membranes was proportional to the protein concentration and increased as a function of time. At 5 mM, Ca²⁺, Mg²⁺, Mn²⁺, and Zn²⁺ maximally inhibited GDP release by 80–90%, whereas, 5 mM Cu²⁺ maximally stimulated the reaction by 100%. Therefore, cations were not included in the buffer used in the GDP release step. One μM Gpp(NH)p (5′-guanylylimidodiphosphate), a nonhydrolyzable analog of GTP, maximally stimulated [³²P]GDP release in the liver membranes by up to 30%. Although 10 nM Gpp(NH)p had no effect on GDP release, it appeared to stabilize the hormonal effect by blocking further GDP/GTP exchange. In the rat membranes, 1–100 nM glucagon (used as a positive control) stimulated [³²P]GDP release by about 17% (P < .05); similarly, 0.1–100 nM insulin stimulated [³²P]GDP release by 10–13% (P < .05). In the human membranes, 10 pM to 100 nM insulin stimulated [³²P]GDP release by 7–10%. In the rat membranes, 10 nM insulin stimulated [³²P]GDP release by 17 and 24% at 2 and 4 min, respectively (P < .05); in the human membranes, 10 nM insulin stimulated [³²P]GDP release by about 9% at 2 and 4 min. Normal rabbit IgG (used as a control for insulin receptor antibody) by itself stimulated the GDP release by rat and human membranes. However, the stimulation of the GDP release by insulin receptor antibody was consistently higher than that observed with normal rabbit IgG. Four to 15 μg of insulin receptor antibody stimulated [³²P]GDP release by 12–22% (P < .05) and 7–14% in rat and human membranes, respectively. These results indicate that ligand binding to the insulin receptor results in a functional interaction of the receptor with a guanine nucleotide-binding transducer protein (G protein) and activation of GTP/GDP exchange.     

Hepatic heterogeneity in the response to ATP studied in the bivascularly perfused rat liver

The zonation of the purinergic action of ATP in the hepatic parenchyma was investigated in the bivascularly perfused rat liver by means of anterograde and retrograde perfusion. Livers from fed rats were used, and ATP was infused according to four different experimental protocols: (A) anterograde perfusion and ATP infusion via the portal vein; (B) anterograde perfusion and ATP via the hepatic artery; (C) retrograde perfusion and ATP via the hepatic vein; (D) retrograde perfusion and ATP via the hepatic artery. The following metabolic parameters were measured: glucose release, lactate production and oxygen consumption. The hemodynamic effects were evaluated by measuring the sinusoidal mean transit times by means of the indicator-dilution technique. ATP was infused during 20 min at four different rates (between 0.06-0.77 µmol min_-1 g liver_-1; 20-200 µM) in each of the four experimental protocols.The results that were obtained allow several conclusions with respect to the localization of the effects of ATP along the hepatic acini: (1) In retrograde perfusion the sinusoidal mean transit times were approximately twice those observed in anterograde perfusion. ATP increased the sinusoidal mean transit times only in retrograde perfusion (protocols C and D). The effect was more pronounced with protocol D. These results allow the conclusion that the responsive vasoconstrictive elements are localized in a pre-sinusoidal region; (2) All hepatic cells, periportal as well as perivenous, were able to metabolize ATP, so that concentration gradients were generated with all experimental protocols. Extraction of ATP was more pronounced in retrograde perfusion, an observation that can be attributed, partly at least, to the longer sinusoidal transit times. In anterograde perfusion, the extraction of ATP was time-dependent, a phenomenon that cannot be satisfactorily explained with the available data; (3) ATP produced a transient initial inhibition of oxygen uptake when protocols A and B were employed. These protocols are the only ones in which the cells situated shortly after the intrasinusoidal confluence of the portal vein and the hepatic artery were effectively supplied with ATP. The decrease in oxygen consumption was more pronounced at low ATP infusions when protocol B was employed. These observations allow the conclusion that the former phenomenon is localized mainly in cells situated shortly after the intrasinusoidal confluence of the portal vein and hepatic artery. Oxygen consumption in all other cells, especially the proximal periportal ones, is increased by ATP; (4) In agreement with previous data found in the literature, glycogenolysis stimulation by ATP was more pronounced in the periportal region. The cells that respond more intensively are not the proximal periportal ones, but those situated in the region of the intrasinusoidal confluence of the portal vein and the hepatic artery.     

Differences in L-alanine uptake by livers of Wistar and lean Zucker rats

The L-alanine uptake by livers of Wistar and lean Zucker rats has been studied. The hepatic uptake and fractional extraction rates of alanine were estimated in 50–55 day old rats. No significant differences in amino acid concentrations and blood flows in afferent and efferent liver vessels were seen in lean Zucker rats when compared with Wistar rats. However, the hepatic uptake (1.6±0.1 and 0.7±0.1 mol/min/100 g bw, p<0.01) and the fractional extraction (26.8±2.1 and 15.2±3.1%, p<0.05) were much lower in Zucker than in Wistar rats. The hepatic active transport of L-alanine was determinedin vitro using isolated plasma membrane vesicles. Vesicles isolated from livers of lean Zucker rats showed similar values of Km (2.5±0.7 vs 2.0±0.5 mM for Wistar and Zucker respectively, N.S.), but lower values of Vmax when compared with Wistar rats (1.1±0.1 vs 0.6±0.005 nmol/mg prot 5 s, p<0.01, for Wistar and lean Zucker rats respectively). These results indicate that, the liver of lean Zucker rats concentrates alanine less efficiently than the liver of Wistar rats. This fact correlates well with a lower capacity of the Na⁺-dependent L-alanine trasport in liver plasma membrane vesicles from lean Zucker rats.     

Oxygen uptake rates in cultured rat hepatocytes

One potential treatment of acute liver failure involves the use of an extracorporeal device composed of functional hepatocytes. A major issue in the design of such a large-scale device is providing the hepatocytes with a sufficient supply of oxygen and other nutrients. In this study, we have designed and characterized a simple perfusion system hepatocytes using this system. The OUR of hepatocytes was determined during the first day after seeding on a single collagen gel and during the long-term stable culture after the addition of a top layer of collagen. The OUR increased to 20.7 +/- 0.57 pmol/sec/mug DNA during the first 13 hours of culture on a single collagen gel, while during the next 11 hours, the OUR declined to 10.6 +/- 1.5 pmol/sec/mug DNA. In parallel with the increase in OUR during the first 10 hours, we observed significant cell spreading, suggesting that the oxygen supply to the cells may be critical for the spreading and adaptation of the anchorage-dependent hepatocytes following isolation. Addition of a top layer of collagen to hepatocyte cultures for 24 hours of culture on a single collagen layer resulted in a stable OUR for 15 days. These results indicate that OUR of hepatocytes in culture may vary depending on the phase of culture (i.e., early vs. late) and on the extracellular environment. (c) 1992 John Wiley & Sons, Inc.     

Characterization of insulin uptake into subcellular fractions of perfused rat liver using two different iodinated tracers

The binding and uptake of insulin in perfused rat liver has been investigated with specifically labelled 125I-A14-tyrosyl insulin as a tracer and compared with a commercially available iodo-insulin preparation. The commercial preparation did not show saturation uptake kinetics and the clearance from the perfusate remained low and constant throughout a wide concentration range. A14 labelled insulin showed saturation kinetics and high clearance at low carrier concentration, falling rapidly with increasing carrier concentration and reaching a steady state value of 1 ml/min. These results emphasize the importance of using specifically labelled insulin in physiological and biochemical studies of hepatic insulin metabolism. Perfusion with A14 tyrosine-labelled insulin at 4 degrees C showed apparent saturation with binding to the plasma membrane fraction. Perfusion at 37 degrees C also showed apparent saturation with uptake predominantly to the ligandosome fraction. These results implicate the plasma membrane-ligandosome pathway in the hepatic uptake of insulin at both physiological and pharmacological concentrations of the hormone.     

Uptake of asialoglycophorin-liposomes by the perfused rat liver

Asialoglycophorin-containing liposomes and their contents (¹²⁵I-labeled bovine serum albumin) were taken up by a perfused rat liver with subsequent digestion of their protein components. The uptake of these liposomes required Ca²⁺ as well as desialylation. The process was inhibited partially by asialofetuin and completely by further addition of asialoglycophorin to the perfusate.     

The role of macrophages in the uptake of endotoxin by the mouse liver

The purpose of this investigation was to analyse the macrophage subpopulations involved in the uptake of endotoxin in the liver. The results show that in normal B10.D2 mice the liver macrophages constitute a heterogeneous population of cells which, depending on their state of differentiation, are distinguished by their differential distribution in the liver acinus and by their ability to phagocytose latex.     

Hexose uptake by Catharanthus roseus cell suspensions is inhibited by a high medium salt content

Summary The uptake of glucose and fructose from the medium by Catharanthus roseus cell suspensions was strongly inhibited by high medium salt concentration, such as found in LS (Linsmaier and Skoog 1965) medium. After inoculation into standard LS nutrient medium with less than 5 mM hexose no uptake occurred, while in low salt medium hexose was completely depleted. At a hexose concentration of 50 mM the uptake rate was higher in low salt medium than in standard medium. The lower rate of uptake at high salt concentration was not the result of a pH or osmotic effect of the salts. Probably the affinity of the hexose carrier is affected by the ion concentration of the medium. The decrease in medium salt concentration during normal batch culture probably will have a considerable effect on hexose uptake.Abbreviations LS Linsmaier and Skoog - S sucrose - N mineral nitrogen - K K₂SO₄ - F fructose     

Modulation of cell proliferation and polyamine metabolism in rat liver cell cultures by the iron chelator O-trensox

The antiproliferative effects of the iron chelator O-trensox and the ornithine-decarboxylase (ODC) inhibitor alpha-difluoromethylornithine (DFMO) were characterized in the rat hepatoma cell line FAO, the rat liver epithelial cell line (RLEC) and the primary rat hepatocyte cultures stimulated by EGF. We observed that O-trensox and DFMO decreased cell viabilty and DNA replication in the three culture models. The cytostatic effect of O-trensox was correlated to a cytotoxicity, higher than for DFMO, and to a cell cycle arrest in G0/G1 or S phases. Moreover, O-trensox and DFMO decreased the intracellular concentration of spermidine in the three models without changing significantly the spermine level. We concluded that iron, but also polyamine depletion, decrease cell growth. However, the drop in cell proliferation obtained with O-trensox was stronger compared to DFMO effect. Altogether, our data provide insights that, in the three rat liver cell culture models, the cytostatic effect of the iron chelator O-trensox may be the addition of two mechanisms: iron and polyamine depletion.     

In vitro induction of the fat-storing phenotype in a liver connective tissue cell line-GRX

Summary Liver connective tissue cells have been characterized as perisinusoidal myofibroblasts and hepatic lipocytes (Ito cells, fat-storing cells). A concept of a single mesenchymal cell population that may be modulated between these two phenotypes has been postulated. We have previously established a continuous murine cell line, GRX, obtained from fibrotic granulomatous lesions induced by schistosomal infection in mouse liver. This cell line is considered to represent liver myofibroblasts. In the present study we have induced the conversion of these cells into lipocyte (fat storing) phenotype by treatment with insulin and indomethacin. We have quantified the lipid synthesis and the increase of activity of involved enzymes during the induction of the fat-storing phenotype and described modifications of cell organization along this modulation of cell functions. This work was supported by FINEP and CNPq (Brazil).     

Uptake of asialo-glycophorin by the perfused rat liver and isolated hepatocytes

Perfused rat livers took up asialo-glycophorin, a glycoprotein derived from human erythrocyte membraneds, with a $\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}$ for the clearance of 7 min. As a comparison, asialo-orosomucoid was taken up by this system with a $\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}$ of 3.5 min. Both proteins were digested and their ¹²⁵I labels were released to the perfusate as free ¹²⁵I^?. EGTA completely inhibited uptake of these glycoproteins, but not uptake of denatured bovine serum albumin. Addition of Ca²⁺ reversed the inhibition nearly completely. Isolated hepatocytes had an uptake rate of approximately 3 ng/min per 10⁶ cells for the asialo forms of glycophorin, orosomucoid and fetuin. Cellular uptake of each of these asialoglycoproteins could be inhibited by one of the other proteins. Asialo-fetuin caused a 95% inhibition of the uptake rate of asialo-orosomucoid by the perfused liver. This fetal calf glycoprotein had a similar inhibitory effect on asialo-glycophorin, but only after an initial 40% of the asialo-glycophorin had been taken up by the liver at an almost normal rate during the first 30 min of perfusion. The possiblity of an alternative hepatic removal system for asialo-glycophorin is suggested.     

Studies on the uptake of benzanthrone by rat skin and its efflux through serum

The uptake of benzanthrone by rat skin showed saturation kinetics and was dependent upon the weight of skin and time, temperature and pH of the incubation medium. Heating of segments above 50‡C caused significant lowering of the uptake. The uptake was irreversibly inhibited by HgCl² and not by sodium arsenate, KCN, NaF,p-chloromercuriben zoate, N-ethyl-maleimide, cycloheximide, iodoacetic acid and 2,4-dinitrophenol suggesting that the uptake was not energy-dependent. Lipid micelles of the skin accounted for a part of the binding. Most of the benzanthrone taken up by the skin was effluxed through serum proteins.     

Progression of spontaneous malignant transformation of epithelial rat liver cell lines

Cultured epithelial cell lines from normal rat livers were shown to undergo gradual transformation and malignancy which increased with time. Morphological changes appeared both before and after cells had attained a malignant state, as detected by agar tests. The progression of the degree of malignancy was determined by the morphological appearance of the cells, the increase in the number and size of cell colonies in soft agar, the expression of gamma glutamyl transferase (GT) and the shortening of the latency period necessary for tumor formation after transplantation to syngeneic rats of cells from sequential passages.     

Theoretical analysis of insulin-dependent glucose uptake heterogeneity in 3D bioreactor cell culture

Three-dimensional (3D) cell cultures in bioreactors are becoming relevant as models for biological and physiological in vitro studies. In such systems, mathematical models can assist the experiment design that links the macroscopic properties to single-cell responses. We investigated the relationship between biochemical stimuli and cell response within a 3D cell culture in scaffold with heterogeneous porosity. Specifically, we studied the effect of insulin on the local glucose metabolism as a function of 3D pore size distribution. The multiscale mathematical model combines the mass transport within a 3D scaffold and a signaling pathways model. It considers the scaffold heterogeneity, and it describes spatiotemporal concentration of metabolites, biochemical stimuli, and cell density. The signaling model was integrated into this model, linking the local insulin concentration at cell membrane to the glucose uptake rate through glucose transporter type 4 (GLUT4) translocation from the cytosol to the cell membrane. The integrated model determines the cell response heterogeneities in a single channel, hence the biological response distribution in a 3D system. It also provides macroscopic outcomes to evaluate the feasibility of an experimental measurement of the system response. From our analysis, it became apparent that the flow rate is the most important operative variable, and that an optimum value ensures a fast and detectable cell response. This model on insulin-dependent glucose consumption rate offers insight into the cell metabolism physiology, which is a fundamental requirement for the study metabolic disorder such as Type 2 diabetes mellitus, in which the physiological insulin-dependent glucose metabolism is impaired.     

Lactosylceramide-induced stimulation of liposome uptake by Kupffer cells in vivo

Incorporation of 8 mol percent lactosylceramide into small unilamellar vesicles consisting of cholesterol and sphingomyelin in an equimolar ratio and containing [³H]inulin as a marker resulted in an increase in total liver uptake and a drastic change in intrahepatic distribution of the liposomes after intravenous injection into rats. The control vesicles without glycolipid accumulated predominantly in the hepatocytes, but incorporation of the glycolipid resulted in a larger stimulation of Kupffer-cell uptake (3.2-fold) than of hepatocyte uptake (1.2-fold). Liposome preparations both with and without lactosylceramide in which part of the sphingomyelin was replaced by phosphatidylserine, resulting in a net negative charge of the vesicles, were cleared much more rapidly from the blood and taken up by the liver to higher extents. The negative charge had, however, no influence on the intrahepatic distributions. The fast hepatic uptake of the negatively charged liposomes allowed competition experiments with substrates for the galactose receptors on liver cells. Inhibition of blood clearance and liver uptake of lactosylceramide-containing liposomes by $\text{N-}\text{acetyl-}\text{d}\text{-galactosamine}$ indicated the involvement of specific recognition sites for the liposomal galactose residues. This inhibitory effect of $\text{N-}\text{acetyl-}\text{d}\text{-galactosamine}$ was shown to be mainly the result of a decreased liposome uptake by the Kupffer cells, compatible with the reported presence of a galactose specific receptor on this cell type (Kolb-Bachofen et al. (1982) Cell 29, 859–866). The difference between the results on sphingomyelin-based liposomes as described in this paper and those on phosphatidylcholine-based liposomes as published previously (Spanjer and Scherphof (1983) Biochim. Biophys. Acta 734, 40–47) are discussed.