Studies on nuclear binding of dehydroepiandrosterone in hepatocytes.

Experiments were conducted to determine if dehydroepiandrosterone (DHEA) specifically binds to liver nuclei or interferes in the binding of other steroid hormones. Hepatocytes were isolated from obese, female Zucker rats that were treated with and without 0.6% DHEA in their diets for 2 weeks. The hepatocytes were incubated with either [3H]DHEA, [3H]estrone, or [3H]corticosterone. The nuclei isolated from the incubated cells from either control or DHEA-treated rats had no binding with [3H]DHEA, but had the expected binding with [3H]estrone and [3H]corticosterone. Furthermore, increasing concentrations of cold, unlabeled DHEA in the incubation media with [3H]estrone or [3H]corticosterone failed to have any effect on the binding of either of these steroid hormones to the nuclei. These results suggest that DHEA treatment does not exert its effects on cellular metabolism through a receptor-mediated mechanism like other steroid hormones or by interfering in the expression of steroid hormones such as estrone and corticosterone.     

Characteristics of aldosterone binding in rat and human serum

Binding of cortisol and corticosterone by serum proteins is well established, but discrepancies exist regarding aldosterone. We have observed that approximately 1% of 3H-aldosterone incubated with rat serum was bound in a time-dependent process, although it was not competed by a large excess of non-radioactive aldosterone, assessed by Florisil separation or gel filtration on Sephadex G-50 columns. After electrophoresis on cellulose acetate of rat serum incubated with 3H-aldosterone, specific or non-specific binding to protein fractions was not obtained. Further, a 10 000-fold molar excess of aldosterone (10 microM) displaced only 34% of the bound 3H-aldosterone to rat serum, preventing the calculation of the IC50 value. Increasing concentrations of aldosterone (3-83 nM) did not displace 3H-corticosterone bound in rat serum to presumably corticosterone binding globulin (CBG). In contrast, inhibition of this binding by 3-83 nM corticosterone was concentration dependent, showing an IC50 value of 10(-8) M. In normal human serum, binding of 3H-aldosterone demonstrated competition by a 100 and 1 000-fold excess of aldosterone. Displacement curves of 3H corticosterone bound to human serum by 1.7-75 nM corticosterone or 0.05-8.8 microM aldosterone yielded IC50 values in the range of 10(-8) M for corticosterone and 10(-6) M for aldosterone. With horse serum, aldosterone's binding affinity was three orders of magnitude lower than that of corticosterone. These studies suggest that in the rat aldosterone was loosely and weakly bound to a high capacity binder, possibly albumin. In agreement with the work of others, in humans aldosterone may be bound to both CBG and albumin. The current data do not substantiate for the presence of specific aldosterone binding proteins in serum.     

The receptor binding of 3H-corticosterone by rat hepatocytes]

The binding of 3H-corticosterone was studied on rat hepatocytes both in presence of unlabeled corticosterone, obsidan and their absence at 0 degrees-4 degrees C. The analysis of binding by the method of Scatchard showed that there are two types of specific binding sites for 3H-corticosterone. Possible existence of proper glucocorticoid receptors (Ka = 4 x 10(9)M-1, n = 0.52 x 10(-14) mol/mg prot.) has been shown, as well as possibility of 3H-corticosterone interaction with beta-adrenoreceptors (Ka = 1.2 x 10(9)M-1, n = 0.9 x 10(-14) mol/mg prot.) have been demonstrated on hepatocytes.     

Reconstitution of galactosyl receptor inactivation in permeabilized rat hepatocytes is ATP-dependent.

A subpopulation of galactosyl receptors (GalRs) on isolated rat hepatocytes undergo a reversible inactivation and reactivation process during constitutive recycling (McAbee, D. D., and Weigel, P. H. (1988) Biochemistry 27, 2061-2069). Here, we report the reconstitution of this GalR inactivation in digitonin-permeabilized rat hepatocytes. Permeabilization of freshly isolated cells at 4 degrees C with 0.002% (w/v digitonin releases cytosol containing 35-40% of the total cellular protein, 10-15% of a lysosomal marker, and 5-10% of an early endosomal marker. Incubation of permeabilized cells with cytosol at 37 degrees C results in a time-dependent reduction of total 125I-asialoorosomucoid binding activity, which proceeds with first order kinetics (t 1/2 = 11.3 min). Only half of the total cellular GalRs are affected; maximal GalR activity loss, obtained by 30 min, is 50.5 +/- 9.5% (n = 21) of the control (4 degrees C) value. Increasing the digitonin concentration up to 0.055% does not increase the extent of inactivation. Permeabilized cells with reduced GalR activity were assessed for GalR protein content by Western blot analysis and by binding of anti-GalR antibody. The results show that the reduced 125I-asialoorosomucoid binding is due to GalR inactivation rather than receptor protein degradation. GalR inactivation does not occur in the absence of cytosol or in the presence of dialyzed cytosol. The cytosol also loses its GalR inactivating ability in the presence of an ATP-depleting system. GalR inactivation in the absence of cytosol is achieved by incubating permeabilized washed cells at 37 degrees C with ATP but not with ADP, AMP, or other NTPs. The rate and extent of inactivation are dependent on the ATP concentration. Half-maximal and maximal GalR inactivation are obtained at 0.3 and 3.0 mM ATP, respectively. In the presence of cytosol, permeabilized hepatocytes could replenish cytosolic ATP by oxidative phosphorylation. As a result, similar levels of GalR inactivation were obtained with 500-fold lower ATP concentrations. We conclude that ATP is the only cytosolic component necessary for GalR inactivation in permeabilized rat hepatocytes.     

Identification of a cell surface-binding protein for the core protein of the basement membrane proteoglycan

We have identified a protein(s) on the surface of hepatocytes that binds to the core protein of the heparan sulfate proteoglycan of basement membranes. These cells attached and spread on substrates prepared from the basement membrane heparan sulfate proteoglycan (HSPG) and its core protein (HSPG-core). Three proteins (Mr = 38,000, 36,000, and 26,000) were found to bind to a HSPG-core affinity column using extracts of iodinated hepatocytes, whereas proteins extracted from isolated membranes contained primarily the larger protein (Mr = 38,000). Similar results were obtained using a solid phase binding technique using labeled HSPG-core. Binding of HSPG-core to the protein (Mr = 38,000) was not altered by the presence of an excess of heparin, heparan sulfate, fibronectin, laminin, or collagen IV but was reduced by unlabeled HSPG-core. Similar studies showed that the binding protein (Mr = 3,0000) was present in extracts from the membranes of Engelbreth-Holm-Swarm tumor cells, Madin-Darby canine kidney cells, COS cells, melanoma cells, and rat kidney epithelial cells but not in fibroblasts. The protein was found in increased amounts in 3T3 cells treated with retinoic acid. These observations suggest that a variety of cells that contact basement membrane contain the proteoglycan-binding protein.     

The liver angiotensin receptor involved in the activation of glycogen phosphorylase

Specific angiotensin binding to rat hepatocytes and purified liver plasma membranes was measured by using biologically active [(3)H]angiotensin (sp. radioactivity 14Ci/mmol). The kinetic parameters for angiotensin binding to hepatocytes are: K(+1) (association rate constant). 100mum(-1).min(-1); K(-1) (dissociation rate constant), 2min(-1); K(d) (dissociation constant). 30nm; maximal binding capacity, 0.42pmol/10(6) cells or 260000 sites/cell. Angiotensin binding to membranes is profoundly affected by GTP (0.1mm) and NaCl (100mm); these regulatory compounds greatly enhance both the rate of association and of dissociation and also the extent of dissociation. K(d) amounts to 10nm in the presence of GTP+NaCl and to 1.5nm in their absence; maximal binding capacity is 0.70pmol/mg of protein, both with or without GTP+NaCl. The relative affinities of 11 angiotensin structural analogues were deduced from competition experiments for [(3)H]angiotensin binding to hepatocytes and to membranes (in the latter case, GTP + NaCl were not included, in order to study the higher affinity state of the receptor). These are highly correlated with their biological activity (activation of glycogen phosphorylase in hepatocytes). Binding to membranes occurs in the same concentration range as the biological effect. On the other hand, the existence of numerous spare receptors is suggested by the observation that binding of the agonists to hepatocytes requires 25-fold higher concentrations than those needed for their biological activity. These data clearly suggest that the detected binding sites correspond to the physiological receptors involved in the glycogenolytic action of angiotensin on rat liver.     

Alpha-1 adrenergic receptor number and receptor density in isolated hepatocytes from foetal, juvenile and adult rats.

Alpha-1 adrenergic receptor number was defined by [3H]-prazosin binding in crude membrane preparations of hepatocytes and in intact hepatocytes isolated from foetal (day 22 of gestation), juvenile (12 days old), adult female and adult male (90-150 days old) rats and compared with the alpha-1 adrenergic response (measured by epinephrine stimulated glucose liberation in presence of the beta-antagonist propranolol). The alpha-1 receptor number (expressed as fmol bound [3H]-prazosin/mg membrane protein or as receptor number/cell) increases in an age-dependent fashion reaching the highest values in hepatocytes of adult female and male rats. Statistically significant differences could be found between foetal, juvenile and adult rat hepatocytes. No differences in [3H]-prazosin binding were observed between hepatocytes of adult female and adult male rats. The receptor density (expressed as receptor number/microns 2 cell surface), however, was found to be equal in juvenile and adult rats. There are no differences of alpha-1 adrenergic response in juvenile, adult female and adult male rat hepatocytes, whereas the values in foetal hepatocytes were significantly lower. So the biological response is closely correlated with the receptor density and not with the receptor number per cell.     

Binding of chondroitin sulfate, dermatan sulfate and fat-storing cell-derived proteoglycans to rat hepatocytes

1. The interaction of isolated rat hepatocytes with exogenous 3H-labeled chondroitin-4-sulfate and dermatan sulfate and with biosynthetically 35S-labeled proteoglycans secreted by cultured rat liver fat-storing cells has been studied. 2. All ligands are bound by hepatocytes in a concentration-dependent manner. Scatchard-plot analysis of the data revealed the existence of high- and low-affinity binding modes. 3. The cell-bound exogenous [3H]glycosaminoglycans could be displaced by each unlabeled ligand and by heparin, whereas displacement of the endogenous material was less effective. 4. Binding of all ligands to hepatocytes increased with time. For the exogenous glycosaminoglycans the two- to threefold amount was retained at 37 degrees C as compared to 4 degrees C; it was markedly reduced by pretreatment of the cells with trypsin. 5. Degradation of the exogenous ligands could be detected neither for the cell-bound fraction nor for the free glycosaminoglycans in the culture medium. 6. The binding of the ligands to hepatocytes is viewed as a cell-matrix interaction. Its possible pathobiochemical relevance in liver fibrosis or neoplasia is discussed.     

Polyhormonal regulation of avian and mammalian corticosteroidogenesis in vitro

1. The combined actions of ACTH, corticosterone and prolactin (PRL) in the acute regulation of corticosteroidogenesis were investigated using isolated adrenocortical cells from intact and hypophysectomized (hypox) rats (Rattus norvegicus) and from intact male domestic fowl (Gallus gallus domesticus). 2. Exogenous corticosterone suppressed to about 50% ACTH-induced corticosterone production of cells from either species. This suppression, in part, was due to corticosterone degradation. 3. oPRL, in the presence or absence of ACTH, raised corticosterone production of hypox rat cells, but not intact rat and domestic fowl cells. 4. In addition, oPRL counteracted the corticosterone-induced suppression of net ACTH-stimulated corticosterone production of hypox rat and intact domestic fowl cells, but not intact rat cells. 5. The potency of oPRL with domestic fowl cells was 4 times that with hypox rat cells. 6. Furthermore, in domestic fowl cells, the effect of oPRL was Ca2+-dependent.     

Cell and species differences in metabolic activation of chemical carcinogens

Metabolic activation and DNA binding of aflatoxin B1 (AFB1), N-nitrosodimethylamine (DMN) and benzo[a]pyrene (B[a]P) were compared in human, rat and mouse hepatocytes and human pulmonary alveolar macrophages (PAM). The degree of carcinogen activation by hepatocytes and PAM was measured by cell-mediated mutagenesis assays in which co-cultivated Chinese hamster V79 cells were used to monitor mutagenic metabolites. Hepatocytes from human, mouse and rat metabolized DMN and released the active metabolites to induce either ouabain- or 6-thioguanine-resistant mutation. The mutation frequencies mediated by hepatocytes of the 3 animal species were approximately 3-9 mutants/10(5) survivors at a concentration of 0.2 mM DMN. The variations of radioactivity bound to liver cell DNA were relatively small in cultured mouse, rat, and human hepatocytes exposed to 14C label DMN (0.5 mM) and the binding values were in a range of 6-12 X 10(3) pmoles/mg DNA. However, rat hepatocytes were at least 10-fold more effective than either human or mouse hepatocytes in generating mutagenic metabolites of AFB1 and also had a much higher AFB1 metabolite DNA-binding value. The AFB1 DNA-binding levels were 4.1, 12-27 (range), 120 pmoles/mg DNA respectively in mouse, human, and rat liver cells following AFB1 (3.3 microM) exposure for 20 h. Hepatocytes from the 3 animal species were unable to mediate mutation in the presence of 4 microM B[a]P; PAM activated B[a]P and effectively mediated mutation in the co-cultivated V79 cells. In contrast to results with hepatocytes, PAM failed to generate enough mutagenic metabolites of AFB1 (3.3 microM) and the mediation of mutations was seen only at very high concentration of DMN (80 mM). The genotoxic effects of the 3 carcinogens on hepatocytes from different species in vitro were in agreement with the in vivo animal experiments in that mice are relatively resistant to AFB1 carcinogenesis whereas rats are sensitive; B[a]P is not effective as a complete liver carcinogen in adult rat and mouse whereas DMN induces liver cancer.     

Saturable binding of thyroid hormone to isolated rat hepatocytes

The binding of [125I]triiodothyronine (T3) to freshly prepared rat hepatocytes was studied at 0 degrees C. The abundant non-saturable binding could be suppressed by washing the cells with alkaline buffer, pH 10.5 at 0 degrees C, without loss of cell viability, thus allowing detection of saturable binding. Three classes of binding sites were identified from analysis of the saturable T3 binding in the presence and absence of bromosulfophthalein (BSP). One of these classes was inhibited by BSP. The T3 dissociation constants were 3.5, 35 and 115 nM and the number of sites was respectively 0.9, 20 and 36 X 10(6) sites/cell. L-T3 had a 10-times higher affinity than D-T3 and a 50-times higher affinity than triiodothyroacetic acid. Saturable T3 binding was associated with plasma membrane-containing subcellular fractions. These binding sites may be related to those previously described in isolated plasma membranes from rat liver and could be involved in the entry of T3 into the hepatocyte.     

Specific intracellular hyaluronic acid binding to isolated rat hepatocytes is membrane-associated

Intact isolated rat hepatocytes show a small amount of specific 125I-labeled hyaluronic acid (HA) binding. However, in the presence of digitonin, a very large increase in the specific binding of 125I-HA is observed. Chondroitin sulfate, heparin and dextran sulfate were as effective as unlabeled HA in competing for 125I-HA binding to permeabilized hepatocytes, indicating that the binding sites may have a general specificity for glycosaminoglycans. After rat hepatocytes had been homogenized in a hypotonic buffer, more than 98% of the 125I-HA binding activity could be pelleted by centrifugation at 100,000 x g for 1 h. Mild alkaline treatment of hepatocyte membranes did not release 125I-HA binding activity, suggesting that the HA binding site is an integral membrane molecule. Furthermore, trypsin treatment of deoxycholate-extracted membranes destroyed the binding activity, as assessed by a dot-blot assay. This suggests that a protein component in the membrane is necessary for 125I-HA binding activity. Rat fibrinogen could be a possible candidate for the HA binding activity because HA binds specifically to human fibrinogen (LeBoeuf et al. (1986) J. Biol. Chem. 261, 12 586). Also, fibrinogen can be found in a quasi-crystalline form in rat hepatocytes and could be pelleted with the membranes. Rat fibrinogen was not responsible for the 125I-HA binding activity, since (1) purified rat fibrinogen did not bind to 125I-HA, and (2) immunoprecipitation of rat fibrinogen from hepatocyte extracts did not decrease the 125I-HA binding of these extracts. We conclude that the internal HA binding sites are membrane- or cytoskeleton-associated proteins and are neither cytosolic proteins nor fibrinogen.     

Sex-dependent effect of melatonin on the secretory activity of rat and hamster adrenal gland in vitro

Adrenal quarters from adult male or female hamsters were incubated in the presence of melatonin (10(-7) or 10(-4)M), and cortisol concentration in the incubation medium was assayed by RIA. Melatonin did not change cortisol output by adrenals obtained from the male hamsters, while a slight stimulatory effect was observed in female glands, the lower concentration of melatonin being more effective than the higher one. At both concentrations tested, melatonin notably stimulated corticosterone output by isolated rat adrenocortical cells derived from the males, and lowered corticosterone secretion by the cells obtained from the female glands only at a concentration of 10(-7) M. The lower concentration of melatonin increased ACTH (0.1 mU.ml-1)-stimulated corticosterone output by the cells of male and female rat adrenals. The pineal hormone was ineffective at a concentration of 10(-4) M, as well as in the presence of a higher dose of ACTH (1.0 mU.ml-1). These findings indicate a distinct sex-dependent effect of melatonin on in vitro cortisol and corticosterone production, and demonstrate that the modulatory effect of melatonin of the secretion of steroid hormones is more effective at lower concentrations.     

Study on the variables affecting toxicity of hybrid toxins. The effect of different target cell receptor distribution and toxin binding chain

Disulfide conjugates of diphtheria toxin (DT) and its fragment A (DTA) to asialoorosomucoid (ASOR) were prepared. The toxicity of the conjugates were compared with DT in isolated rat, rabbit and guinea pig hepatocytes containing different concentration of asialoglycoprotein receptors (Biochim. Biophys, Acta 942, 57, 1988). In rat hepatocytes DTA-ASOR was highly toxic with half-maximal inhibitory concentration (IC50) of protein synthesis occurring at 4 +/- 3.10(-11) M (n = 7) which was much lower than that of DT DT (7.8 +/- 9.8.10(-9) M, n = 7). In rabbit hepatocytes toxicity of the conjugate (IC50 = 5.4 +/- 4.9.10(-10) M, n = 7) was higher than that of DT (IC50 = 5 +/- 4.10(-11) M, n = 7). In guinea pig hepatocytes, DTA-ASOR was not toxic at concentration below 10(-8) M, although DT was highly toxic (IC50 = 1.8 +/- 1.4.10(-10), n = 3). In the presence of 5 microM colchicine, the toxicity of DTA-ASOR in rat and rabbit hepatocytes increased by 10-fold, while in guinea pig hepatocytes it became detectable with an IC50 of 1.2 +/- 0.8.10(-9) M (n = 3). The toxicity of DT in the rat cells was also enhanced 10-fold by colchicine, but not at all in either the rabbit or the guinea pig cells. Addition of isolated diphtheria toxin fragment B (DTB) did not affect significantly the toxicity of DTA-ASOR in all three hepatocytes and that of DT in rat hepatocytes, but reduced toxicity of DT more than 20-fold in the rabbit and guinea pig cells. Toxicity of DT-ASOR in rat hepatocytes was the same as DTA-ASOR both in the absence and presence of colchicine, and abolished completely by excess ASOR, but not by DTB. Toxicity of DT-ASOR in rabbit hepatocytes was 40-times higher than DTA-ASOR, enhanced 10-fold by cochicine and reduced more than 30-fold by excess ASOR, but only slightly by DTB. These results indicate that entry of DTA from DTA-ASOR involve a DTB-independent translocation mechanism which can be as efficient as the DTB-dependent mechanism used by DT in the rabbit and guinea pig cells. The entry of both conjugates appeared to be mediated by the asialoglycoprotein receptors. However, the DTB moiety of DT-ASOR could function only in the DT-sensitive cells indicating the lack of a DTB-mediated translocation in the DT-resistant cells.     

Thyroid thermogenesis in adult rat hepatocytes in primary monolayer culture: direct action of thyroid hormone in vitro

We have studied the effect of 3,5,3'-triiodothyronine (T3) on the respiration of adult rat hepatocytes in primary monolayer culture prepared from hypothyroid rat liver. After addition of T3 to the culture medium at a concentration of 2 x 10(-7) M, oxygen consumption of the cultured cells increased detectably at 24 h and was maximal at 72--96 h, relative to control cultures (38.0 +/- 1.8 vs. 25.0 +/- 1.5 microliter/h.mg protein). The thyroid-responsive enzymes, Na+ + K+-activated adenosine triphosphatase (NaK-ATPase) and alpha-glycerophosphate dehydrogenase (GPD), each exhibited increased activity in response to T3, in parallel with the change in oxygen consumption, whereas the activity of Mg-dependent ATPase was unaffected. These responses to T3 were dose dependent over similar concentration ranges, the half-maximal response for each occurring at ca 8 x 10(-10) M. In thyroid-treated cells, the observed increase in respiration was almost completely (90%) inhibited after addition of ouabain (10(-3) M) to the culture medium. It was found also that a 4-h exposure of the cultured hepatocytes to T3 was sufficient to elicit a significant thermogenic response, measured at a time (48 h later) when T3 was no longer present in the medium. The response to T3 occurred in fully defined culture medium and was independent of the presence or absence of hypothyroid rat serum, corticosterone, or insulin, and cellular ATP was unaffected by T3 in concentrations up to 2 x 10(-7) M. The findings document that adult rat hepatocytes in primary monolayer culture respond directly to thyroid hormone; the increases in respiration and NaK-ATPase activity elicited by T3 were cotemporal and apparently coordinate.     

Long-term maintenance of hepatocyte functional activity in co-culture: requirements for sinusoidal endothelial cells and dexamethasone

Sinusoidal cells isolated from adult rat liver have been established in primary culture and in cell line. The presence of factor VIII R:Ag and peroxidatic/phagocytosis activities were the criteria used to distinguish in freshly isolated cells the endothelial cells from the Kupffer cells and suggested the endothelial origin of the cell line. Using a co-culture system, the effect of sinusoidal liver cells on hepatocyte functional activity was characterized. A plateau in which the state of differentiation was stabilized could be generated for co-cultured hepatocytes isolated from adult rat and a disappearance of the initial expression of alpha 1-fetoprotein (AFP) and the increase and/or maintenance of albumin secretion were measured with co-cultured hepatocytes isolated from suckling rat. The presence of dexamethasone was required for such beneficial effect. The hepatocyte-stabilizing activity was also produced by a pulmonary endothelial cell line.     

Transport functions of the liver. Lack of correlation between hepatocellular ouabain uptake and binding to (Na+ + K+)-ATPase

Ouabain uptake was studied on isolated rat hepatocytes. Hepatocellular uptake of the glycoside is saturable (Km = 348 mumol/l, Vmax = 1.4 nmol/mg cell protein per min), energy dependent and accumulative. Concentrative ouabain uptake is not present on permeable hepatocytes, Ehrlich ascites tumor cells and AS-30D ascites hepatoma cells. There is no correlation between ouabain binding to rat liver (Na+ + K+)ATPase and ouabain uptake into isolated rat hepatocytes. While ouabain uptake is competitively inhibited by cevadine, binding to (Na+ + K+)-ATPase is not affected by the alkaloid. Although the affinities of digitoxin and ouabain to (Na+ + K+)-ATPase are similar, digitoxin is 10000-times more potent in inhibiting [3H]ouabain uptake as compared to ouabain. That binding to (Na+ + K+)-ATPase appears to be no precondition for ouabain uptake was also found in experiments with plasmamembranes derived from Ehrlich ascites tumor cells and AS-30D hepatoma cells. While tumor cell (Na+ + K+)-ATPase is ouabain sensitive, the intact cells are transport deficient. Hepatic ouabain uptake might be related to bile acid transport. Several inhibitors of the bile acid uptake system also inhibit ouabain uptake.     

Studies on the differential response to insulin on the stimulation of amino acid incorporation into protein in isolated hepatocytes containing different levels of glycogen.

Effect of insulin on amino acid incorporation into protein by isolated rat liver hepatocytes was studied. A two to three-fold increase in the incorporation of U-¹⁴C-Leucine and U-¹⁴C-Phenylalanine into protein by insulin (100 μUnits) was observed in isolated hepatocytes containing high glycogen. This effect was abolished by the addition of glucagon (3 × 10^?6M). No stimulation in amino acid incorporation by insulin was observed when isolated hepatocytes contained low or no glycogen. Electron micrographs of incubated cells show that in the presence of insulin more normal parallel strands of polyribosomes are maintained as compared to control cell preparation.     

The inhibitory effect of choline and other quaternary ammonium compounds on thiamine transport in isolated rat hepatocytes

Quaternary ammonium compounds, such as choline and acetylcholine significantly inhibited thiamine uptake in isolated rat hepatocytes. Kinetic analysis using Lineweaver-Burk and Dixon plots of inhibition experiments revealed that choline and acetylcholine were purely competitive inhibitors for thiamine uptake with Ki values of 0.61 mM and 0.31 mM, respectively. Among quaternary ammonium compounds, hemicholinium-3 and curare were the strongest inhibitors, and kinetic studies showed that these compounds were also purely competitive inhibitors with Ki values of 12.5 microM and 4.3 microM, respectively. These results indicate that choline, acetylcholine and their structural analogs share a common binding site with thiamine in isolated rat hepatocytes. On the other hand, choline uptake by isolated rat hepatocytes occurred by a saturable mechanism with a Kt of 162 +/- 3.85 microM and Vmax of 80.1 +/- 1.30 pmol/10(5) cells per min as well as by a nonsaturable mechanism. Thiamine, pyrithiamine, oxythiamine, chloroethylthiamine and dimethialium inhibited choline uptake, while thiamine phosphates such as thiamine monophosphate and thiamine pyrophosphate insignificantly inhibited uptake. Although a Lineweaver-Burk plot of choline uptake in the presence of thiamine showed that thiamine also competitively inhibited choline uptake, a Dixon plot of the inhibition experiment was hyperbolic and indicated that the inhibition of choline uptake by thiamine was 'pseudo-competitive'. On the basis of these results, it is suggested that in isolated rat hepatocytes thiamine and choline do not share common transport sites.     

Uptake of rat plasma HDL subfractions labeled with [3H]cholesteryl linoleyl ether or with 125I by cultured rat hepatocytes and adrenal cells

Rat plasma low- and high-density lipoproteins were labeled with [3H]cholesteryl linoleyl ether and isolated by rate-zonal ultracentrifugation into apolipoprotein B-containing LDL, apolipoprotein E-containing HDL1 and apolipoprotein E-poor HDL2. These fractions were incubated with cultured rat hepatocytes and comparable amounts of all lipoproteins were taken up by the cells. Rat HDL was isolated at d 1.085-1.21 g/ml and apolipoprotein E-free HDL was prepared by heparin Sepharose chromatography. The original HDL and the apolipoprotein E-free HDL were labeled with 125I or with [3H]cholesteryl linoleyl ether and incubated with rat hepatocytes or adrenal cells in culture. The uptake of apolipoprotein E-free [3H]cholesterol linoleyl ether HDL by the cultured hepatocytes was 20-40% more than that of the original HDL. Comparison of uptake of cholesteryl ester moiety (represented by uptake of [3H]cholesteryl linoleyl ether) and of protein moiety (represented by metabolism of 125I-labeled protein) was carried out using both original and apolipoprotein E-free HDL. In experiments in which low concentrations of HDL were used, the ratio of 3H/125I exceeded 1.0. In cultured adrenal cells, the uptake of [3H]cholesteryl linoleyl ether-labeled HDL was stimulated 3-6-fold by 1 X 10(-7) M ACTH, while the uptake of 125I-labeled HDL increased about 2-fold. The ratio of 3H/125I representing cellular uptake was 2-3 and increased to 5 in ACTH-treated cells. The present results indicate that in cultured rat hepatocytes the uptake of homologous HDL does not depend on the presence of apolipoprotein E. Evidence was also presented for an uptake of cholesteryl ester independent of protein uptake in cultured rat adrenal cells and to a lesser extent in rat hepatocytes.