Properties of NAD binding by synaptic membranes of rat brain

The binding of [14C]NAD to rat brain synaptic membranes is reversible and depends on incubation time, temperature and protein concentration in the reaction mixture. The value of the rate constant for [14C]NAD binding to the synaptic membranes at 24 degrees C (kl) is 1.1 X 10(-6) M-1 S-1, the rate constant for dissociation of the [14C]NAD-receptor complex (k-1) is 3.3 X 10(-3) S-1. The value of the constant for the ligand dissociation from this complex (Kd) is 3.0 nmole. Treatment of the experimental results in the Scatchard plots for the equilibrium binding of [14C]NAD to the synaptic membranes demonstrated that the receptor sites with high and low affinities for the ligand (Kd1 = 3.3 nmol, Kd2 = 14.4 nmole) and with binding capacities of 44 and 77 pmole of [14C]NAD, respectively. It was found that the synaptosomal membrane components which bind the labelled NAD have a protein nature. Data from [14C]NAD and [nicotinamide-3H]NAD binding suggest that brain synaptic membranes bind NAD at the nicotinamide and adenylic moieties.     

Thermotropic lipid phase separations in human platelet and rat liver plasma membranes

Electron spin resonance (ESR) studies were conducted on human platelet plasma membranes using 5-nitroxide stearate, I(12,3). The polarity-corrected order parameter S and polarity-uncorrected order parameters S(T parallel) and S(T perpendicular) were independent of probe concentration at low I(12.3)/membrane protein ratios. At higher ratios, S and S(T perpendicular) decreased with increasing probe concentration while S(T parallel) remained unchanged. This is the result of enhanced radical interactions due to probe clustering. A lipid phase separation occurs in platelet membranes that segregates I(12,3) for temperatures less than 37 degrees C. As Arrhenius plots of platelet acid phosphatase activity exhibit a break at 35 to 36 degrees C, this enzyme activity may be influenced by the above phase separation. Similar experiments were performed on native [cholesterol/phospholipid ratio (C/P) = 0.71] and cholesterol-enriched [C/P = 0.85] rat liver plasma membranes. At 36 degrees C, cholesterol loading reduces I(12,3) flexibility and decreases the probe ratio at which radical interactions are apparent. The latter effects are attributed to the formation of cholesterol-rich lipid domains, and to the inability of I(12,3) to partition into these domains because of steric hinderance. Cholesterol enrichment increases both the high temperature onset of the phase separation occurring in liver membranes from 28 degrees to 37 degrees C and the percentage of probe-excluding, cholesterol-rich lipid domains at elevated temperatures. A model is discussed attributing the lipid phase separation in native liver plasma membranes to cholesterol-rich and -poor domains. As I(12,3) behaves similarly in cholesterol-enriched liver and human platelet plasma membranes, cholesterol-rich and -poor domains probably exist in both systems at physiologic temperatures.     

Bile salts in submicellar concentrations promote bidirectional cholesterol transfer (exchange) as a function of their hydrophobicity

Cholesterol, despite its poor solubility in aqueous solutions, exchanges efficiently between membranes. Movement of cholesterol between different subcellular membranes in the hepatocyte is necessary for assembly of lipoproteins, biliary cholesterol secretion, and bile acid synthesis. Factors which initiate and facilitate transfer of cholesterol between different membranes in the hepatocyte are incompletely understood. It is known that cholesterol secretion into the bile is linked to bile salt secretion. In the present study, we investigated the effects of bile salts of different physicochemical properties at submicellar concentrations (150- 600 microM) on the transfer of [14C]cholesterol from hepatocytes, or crude hepatocellular membranes (donors), to rat high density lipoproteins (acceptor). Bile salts included taurine conjugates of ursodeoxycholic acid (TUDCA), hyodeoxycholic acid (THDCA), cholic acid (TCA), chenodeoxycholic acid (TCDCA), and deoxycholic acid (TDCA). High density lipoprotein (HDL) was separated from hepatocellular membranes and the transfer of [14C]cholesterol from the membranes to HDL was quantitatively determined. In the absence of HDL, [14C]cholesterol remained confined to the membrane fraction. Following addition of HDL, [4-14C]cholesterol in the HDL fraction increased linearly over time. Addition of hydrophilic bile salts (TUDCA and THDCA) increased transfer of [4-14C]cholesterol to HDL only minimally. By contrast, more hydrophobic bile salts stimulated transfer of labeled cholesterol to HDL, and their potency increased in order of increasing hydrophobicity (TCA less than TCDCA less than TDCA). Both for single bile salts and mixtures of bile salts at a total bile salt concentration of 0.30 mM, the rate of cholesterol transfer exhibited a strong linear correlation with a bile salt monomeric hydrophobicity index (r = 0.95; P less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)     

Prostaglandin D2 receptor of mastocytoma P-815 cells--possible regulation by phosphorylation and dephosphorylation

The 3H-labeled prostaglandin D2 [( 3H]PGD2) binding protein in the membrane fraction of mastocytoma P-815 cells was characterized. The specific binding of [3H]PGD2 to the cells or the membranes reached a maximum at pH 5.6, and was saturable, displaceable and of high affinity when incubated at 0 or 37 degrees C. The Bmax values for [3H]PGD2 binding in the two preparations at pH 5.6 were much higher at 0 degrees C than at 37 degrees C, whereas the Kd values were almost equal (85.3 nM for the cells and 80.5 nM for the membranes, respectively). High specific [3H]PGD2 binding activity in the mildly acid-treated cells was still observed when the external pH was raised from 5.6 to 7.2. Furthermore, specific [3H]PGD2 binding to the membranes (at 0 degrees C, pH 5.6) increased on addition of phosphatase inhibitors (NaF and molybdate) in the presence of 10 microM ATP, but practically disappeared on pretreatment of the membranes with phosphatase. On incubation of the membrane with [gamma-32P]ATP and molybdate, the stimulated incorporation of the [32P]phosphate into several peptides, including ones having an Mr of around 100,000-120,000, was observed. These results suggest that [3H]PGD2 binding in the mastocytoma P-815 cell membrane is controlled through phosphorylation-dephosphorylation of the receptor itself.     

Reactive sulfhydryl groups of sarcoplasmic reticulum ATPase. II. Site of labeling with iodoacetamide and its fluorescent derivative

Iodoacetamide (IAA) and its fluorescent derivative, 5-(2-iodoacetamidoethyl) amino-naphthalene-1-sulfonate (IAEDANS) specifically bind to a site on the C-terminal half of sarcoplasmic reticulum (SR) Ca2+,Mg2+-ATPase. The location of this specific binding site was identified. SR membranes were treated with 150 microM [14C]IAA at pH 7.0 and 30 degrees C. One mole of IAA per mole of ATPase was bound in 6 h without affecting the Ca2+-transport activity. [14C]IAA-labeled SR membranes were cleaved with BrCN, and 14C-labeled peptide fragments were separated by Sephadex LH-60 chromatography and then digested further with trypsin. A radioactive peptide (Ala-Cys 674-Cys-Phe-Ala-Arg) was purified by Sephadex LH-20 chromatography and C18 reversed phase HPLC (Cys denotes the [14C]IAA-binding site). IAEDANS-labeling was carried out by reacting SR membranes with 50 microM IAEDANS for 5 h, at pH 7.0 and 30 degrees C. A fluorescent peptide was successfully purified by the same procedures as for the IAA-labeled peptide, and the amino acid sequence analysis of this peptide revealed that the IAEDANS labeling site was identical with the IAA binding site.     

Solubilization and affinity labeling of a dihydropyridine binding site from skeletal muscle: effects of temperature and diltiazem on [3H]dihydropyridine binding to transverse tubules

Effects of temperature and d-cis-diltiazem (DTZ) on [3H]nitrendipine (NTD) and [3H]nimodipine (NIM) binding to skeletal muscle t-tubular membranes were studied. A decrease in temperature from 37 degrees C to 10 degrees C decreased KD and increased Bmax slightly. DTZ increased binding by increasing Bmax under all conditions and also decreased KD for NTD at 37 degrees C. The binding protein labeled with [3H]isothiocyanate dihydropyridine revealed a molecular weight of 36,000. The binding site for NTD was solubilized by deoxycholate and dihydropyridine binding was still stimulated by DTZ in the solubilized form.     

Binding of nicotinamide adenine dinucleotide by the renal brush border membrane from rat kidney cortex

The characteristics of nicotinamide adenine dinucleotide (NAD) binding on brush border membranes prepared from rat renal cortex were investigated with the use of radioactively labelled NAD, [adenine-2,8-3H]NAD+, as a ligand. (1) We found that NAD binds on brush border membrane and that the extent of NAD binding is linearly proportional to the brush border membrane protein, and progressively increases with concentration of NAD in the medium. (2) The rate of NAD binding was dependent on temperature. At 20 degrees C, the equilibrium binding was obtained at 15 min, while NAD binding at 0 degree C was slower, but the final level of binding reached at 120 min was similar to that plateau of binding observed at 20 degrees C. Brush border membrane inactivated by heating at 95 degrees C for 3 min did not bind NAD. Binding of NAD on brush border membranes was reversed by simple dilution or by the addition of unlabelled NAD. Both alpha-NAD and beta-NAD stereoisomers displaced bound [3H]NAD. Reduced NAD (NADH) caused less displacement of bound NAD than oxidized NAD+. Adenine, nicotinamide, pyrophosphate, of 5'-AMP did not displace bound NAD. (3) The NAD binding to brush border membranes was nearly saturable, approximating saturation at 10(-4) M NAD. Kinetic analysis by Scatchard plot indicates two sets of NAD binding sites in brush border membranes: a high-affinity binding site (Kd = 1.9 . 10(-5) M) and a low-affinity binding site (Kd = 2.2 . 10(-3) M). (4) Unlike concentrative uptake of D-[14C]glucose by brush border membrane vesicles, binding of NAD was not dependent on the presence of an outside-in sodium gradient [Na+0 greater than Na+i], nor was it abolished by repeated freezing and thawing of brush border membranes. Unlike D-[14C]glucose uptake, NAD binding by brush border membranes did not change upon decrease of intravesicular volume in hypertonic media. These observations indicate that NAD association with brush border membranes is true binding rather than intravesicular uptake of this compound. (5) The presence of specific binding sites in renal brush border membrane capable of binding of NAD with a high degree of affinity suggests that such sites may be involved in previously observed (Kempson, S.A., Colon-Otero, G., Ou, S.L., Turner, S.T. and Dousa, T.P. (1981) J. Clin. Invest. 67, 1347) modulatory effect of NAD on sodium-gradient-dependent uptake of phosphate across luminal brush border membrane of proximal tubules.     

Transbilayer movement of cholesterol in the human erythrocyte membrane

The rate of transbilayer movement of cholesterol was measured in intact human erythrocytes. Suspended erythrocytes were incubated briefly with [3H]cholesterol in ethanol at 4 degrees C, or with liposomes containing [3H]cholesterol over 6 hr at 4 degrees C to incorporate the tracer into the outer leaflet of erythrocyte plasma membranes. The erythrocytes were then incubated at 37 degrees C to allow diffusion of cholesterol across the membrane bilayer. Cells were treated briefly with cholesterol oxidase to convert a portion of the outer leaflet cholesterol to cholestenone, and the specific radioactivity of cholestenone was determined over the time of tracer equilibration. The decrease in specific radioactivity of cholestenone reflected transbilayer movement of [3H]cholesterol. The transbilayer movement of cholesterol had a mean half-time of 50 min at 37 degrees C in cells labeled with [3H]cholesterol in ethanol, and 130 min at 37 degrees C in cells labeled with [3H]cholesterol exchanged from liposomes. The cells were shown, by the absence of hemolysis, to remain intact throughout the assay. The presence of 1 mM Mg2+ in the assay buffer was essential to prevent hemolysis of cells treated with cholesterol oxidase perturbed the cells, resulting in an accelerated rate of apparent transbilayer movement. Our data are also consistent with an asymmetric distribution of cholesterol in erythrocyte membranes, with the majority of cholesterol in the inner leaflet.     

Reconstitution of hormone-responsive detergent-solubilized follicle stimulating hormone receptors into liposomes

An FSH receptor-enriched fraction that responds to exogenous FSH by activation of adenylate cyclase was prepared by ultrafiltration of sucrose density gradient-purified light membranes derived from bovine calf testes homogenates and solubilized with Triton X-100. To further confirm the functional nature of the detergent-solubilized FSH receptor, the extract was incorporated by lipid hydration into large multilamellar vesicles composed of dioleoyl phosphatidylcholine and cholesterol, 2:1 molar ratio. Receptor incorporation was determined by measurement of specific binding of [125I] human FSH ([125I] hFSH). Substitution of dioleoyl phosphatidylcholine with dipalmitoyl phosphatidylcholine or increasing the cholesterol concentration of the vesicles reduced specific binding of [125I]hFSH. Under conditions favoring optimal incorporation of the receptor, specific binding of [125I]hFSH was time and temperature dependent and saturable when increasing concentrations of radioligand were added to a constant amount of proteoliposomes. Reconstituted proteoliposomes bound 1600 fmol FSH/mg protein with an affinity of 3.54 x 10(9) M-1. Inhibition of [125I] hFSH binding by hFSH was comparable to that seen with the membrane-bound receptor (ED50 = 10 ng). Equilibrium binding studies with [3H]Gpp(NH)p indicated that a single class of high affinity GTP binding sites with an association constant (Ka) of 3.33 x 10(7) m-1 which bound 2.19 fmol [3H]Gpp(NH)p/mg protein had also been incorporated into the proteoliposomes. Addition of FSH induced a 2-fold stimulation of [3H]Gpp(NH)p binding, supporting our earlier studies suggesting that the detergent-solubilized FSH receptor is complexed to the G protein. Of particular significance in the present study was the observation that both NaF and FSH stimulated cAMP production in the reconstituted system. In addition to belonging to a class of membrane receptors functionally and physically associated with G protein, this observation suggests that FSH receptors in bovine calf testicular membranes may be associated, at least in part, with adenylate cyclase as well.     

Physiological state and the sensitivity of liver mitochondrial outer membrane carnitine palmitoyltransferase to malonyl-CoA. Correlations with assay temperature, salt concentration and membrane lipid composition.

1. Liver mitochondrial outer membranes were pre-exposed to media of low (20 mM phosphate) or high salt concentration (20 mM phosphate + 0.3 M KCl) before assay of carnitine palmitoyltransferase (CPT) at 25 degrees C. 2. With membranes from fed rats, exposure to high salt decreased sensitivity of CPT to malonyl-CoA whereas high salt increased sensitivity of CPT to malonyl-CoA in membranes from 48 hr-fasted rats. These changes were paralleled by alterations in the KD for high affinity binding of [14C]malonyl-CoA to outer membranes. 3. Decreasing the CPT assay temperatures from 25 to 10 degrees C caused qualitatively similar changes to those seen on exposure to high salt. 4. The relative content of sphingomyelin was increased 2-fold and 4-fold in liver mitochondrial outer membranes from fasted and diabetic rats respectively. Fasting had no effect on the content of cholesterol whereas diabetes decreased this by a third.     

Temperature Dependence of Drug Interaction with the Platelet 5-Hydroxytryptamine Transporter: A Clue to the Imipramine Selectivity Paradox

Although [3H]imipramine is a selective radioligand for the 5-hydroxytryptamine (5-HT) transporter in human platelets, its affinity for binding to the 5-HT transporter complex at 0 degrees C (0.6 nM) is significantly higher than its potency for inhibition of [3H]5-HT uptake at the physiological temperature of 37 degrees C (Ki = 29 nM). As this apparent discrepancy could be related to the assay temperature, we studied the thermodynamics of drug interaction with the 5-HT transporter at assay temperatures between 0 degrees C and 37 degrees C, using as radioligands [3H]imipramine (0 degrees C and 20 degrees C) and [3H]paroxetine (20 degrees C and 37 degrees C), a newly available probe for the 5-HT transporter. At 20 degrees C, Ki values of 14 tricyclic and nontricyclic drugs for inhibition of [3H]imipramine and [3H]paroxetine binding to human platelet membranes were highly significantly correlated (r = 0.98, p less than 0.001), validating the use of these two radioligands to study the 5-HT transporter over a temperature range larger than was previously possible with [3H]imipramine alone. The affinity of imipramine for the 5-HT transporter is progressively enhanced with decreasing incubation temperature, thus favoring the selectivity of [3H]imipramine for the 5-HT transporter at 0 degrees C. At 37 degrees C, the Ki of imipramine for inhibition of [3H]paroxetine binding is 32 nM, and equals its Ki value for inhibition of 5-HT uptake into human platelets. With the exception of chlorimipramine, other tricyclic 5-HT uptake inhibitors showed a temperature sensitivity in their interaction with the 5-HT transporter similar to that of imipramine.(ABSTRACT TRUNCATED AT 250 WORDS)     

Calcium-induced membrane metabolic alterations modify the sex steroids binding into dog brain synaptosomal plasma membranes

The binding of 45Ca2+ into synaptosomal plasma membranes (SPM) of dog brain follows a sigmoid path. In graphical analysis of this binding the mean Hill coefficient (h) was 1.64 +/- 0.09 (r2 = 0.96 +/- 0.02). Binding of Ca2+ into SPM was saturable, with an apparent binding constant of 1.2 +/- 0.1 microM. At saturation, such calcium specific binding sites corresponded to 11.2 +/- 0.9 nmol/mg SPM protein. The Hill plot in combination with the biphasic nature of the curve to obtain the equilibrium constant, showed a moderate degree of positive cooperativity in the binding of calcium into SPM of at least one class of high affinity specific binding sites. [14C]estradiol, [14C]estrone and [14C]progesterone, when incubated with SPM up to a concentration of 10 microM for 2 hr at 37 degrees C, bind into SPM at nmolar concentrations. Ca2+ ions up to 5 mM considerably increase steroids binding into SPM. This effect of calcium was concentration-dependent, reached saturation at approx 4-5 mM. Once calcium has promoted steroids binding, the subsequent addition of 25 mM EGTA failed to displace bound steroids. Molecular interactions between calcium and SPM was assessed by measuring the steady-state fluorescence polarization (P) of 1,6-diphenyl-1,3,5-hexatriene (DPH), and by estimating the production of malondialdehyde (MDA) during 2 hr incubation of Ca2+ (5 mM) with SPM at 37 degrees C. The effect of Ca2+ on the SPM structure was to increase both the rigidity of the membrane and the MDA production. Chelation of Ca2+ (5 mM) with EGTA (25 mM) did not reverse the increase in the rigidity owing to metabolic alterations of SPM lipids (e.g. production of MDA).(ABSTRACT TRUNCATED AT 250 WORDS)     

Expression of functional M2 muscarinic acetylcholine receptor in Escherichia coli

The M2 muscarinic acetylcholine receptor mutant (M2 mutant), with a lack of glycosylation sites, a deletion in the central part of the third inner loop, and the addition of a six histidine tag at the C-terminus, was fused to maltose binding protein (MBP) at its N-terminus and expressed in Escherichia coli. The expression level was 0.2 nmol receptor per 100 ml culture, as assessed as [3H]L-quinuclidinyl benzilate ([3H]QNB) binding activity, when the BL 21 strain was cultured at 37 degrees C to a late growth phase and the expression was induced by isopropyl beta-thiogalactoside at 20 degrees C. No [3H]QNB binding activity was detected when it was not fused to MBP or when expression was induced at 37 degrees C instead of 20 degrees C. The MBP-M2 mutant expressed in E. coli showed the same ligand binding activity as the M2 mutant expressed in the Sporodoptera frugiperda (Sf9)/baculovirus system, as assessed as displacement of [(3)H]QNB with carbamylcholine and atropine. The MBP-M2 mutant was solubilized, purified with Co2+-immobilized Chelating Sepharose gel and SP-Sepharose, and then reconstituted into lipid vesicles with G protein Go or Gi1 in the presence or absence of cholesterol. The reconstituted vesicles showed GTP-sensitive high affinity binding for carbamylcholine and carbamylcholine-stimulated [35S]GTP gamma S binding activity in the presence of GDP. The proportion of high affinity sites for carbamylcholine and the extent of carbamylcholine-stimulated [(35)S]GTP gamma S binding were the same as those observed for the M2 mutant expressed in Sf9 cells and were not affected by the presence or absence of cholesterol. These results indicate that the MBP-M2 mutant expressed in E. coli has the same ability to interact with and activate G proteins as the M2 mutant expressed in Sf9, and that cholesterol is not essential for the function of the M2 muscarinic receptor.     

Temperature-dependent variation in the synthesis of streptococcal group-specific carbohydrate. II. Biosynthetic studies in group A and variant strains.

The biosynthesis of the cell wall polysaccharide and peptidoglycan of group A and A-486-Var streptococci was studied with N-acetyl-[14C]glucosamine, UDP-N-acetyl-[14C]glucosamine, and [14C]glucose. The incorporation of N-acetyl-[14C]-glucosamine into the cell wall four times greater in the A-486-Var cells than in the group A cells. However, the percentage of the total label incorporated into the cell wall polysaccharide at 37 degrees C by the A-486-Var strain was 12%, compared with 66% for the group A cells. When the A-486-Var was grown at 22 degrees C, the proportion of the label incorporated into the cell wall polysaccharide increased to 41%. At 37 degrees C, N-acetyl-[14C]glucosamine was incorporated preferentially into the peptidoglycan of the A-486-Var; almost three times as much of the label was incorporated into the peptidoglycan at 37 degrees C as was incorporated at 22 degrees C. Studies with protoplast membranes of these organisms showed similar differences, with a fourfold greater uptake of UDP-N-acetyl-[14C]glucosamine by the A-486-Var membranes at both incubation temperatures. These studies suggest that a defect in the incorporation of N-acetylglucosamine into the side chain of the polysaccharide is present in the A-486-Var strain at a step following the synthesis of UDP-N-acetylglucosamine. This defect, which may involve the UDP-N-acetylglucosamine transferase, is temperature dependent in the A-486-Var strain.     

Direct assessment of beta-adrenergic receptors in intact rat adipocytes by binding of [3H]CGP 12177. Evidence for agonist high-affinity binding complex and for beta 1 and beta 2 receptor subtypes

The characteristics of the binding of the hydrophilic beta-adrenergic antagonist [3H]CGP 12177 to intact rat adipocytes were studied at 37 degrees C and 6 degrees C. At both temperatures and at 90% saturation, the non-specific binding was less than 30% of the total binding. At 37 degrees C, specific [3H]CGP 12177 binding was rapid, reversible of high affinity (1.8 +/- 0.4 nM) and saturable. The number of specific binding sites per adipocyte increased with the fat cell size (about 35 000 and 115 000 sites per cell in adipocytes with diameters of 60 microns and 88 microns, respectively) but remained constant when expressed per unit fat cell surface area. Displacement of [3H]CGP 12177 bound to adipocytes by unselective and selective beta-antagonists was stereospecific, had the same characteristics as those found in adipocyte membranes and showed a heterogeneous specificity for beta 1 and beta 2 adrenergic subtypes. In contrast, beta agonist competition curves, which modeled to two affinity-states of binding, showed high-affinity-state Kd values for agonists 10-25-times higher than those found in membranes under the same experimental conditions. At 6 degrees C, although the number and affinity of the specific binding sites for [3H]CGP 12177 were the same as those found at 37 degrees C, the Kd value for (-)-isoproterenol binding to the high affinity state of these sites (3.0 +/- 0.5 nM) was 25-times lower than at 37 degrees C and similar to the value found in membrane preparations (1.5-4 nM). These results show that the [3H]CGP 12177 specific binding sites detected on intact adipocytes represent the physiological beta-adrenergic receptors. Moreover, this study extends to the adipocyte the validity of the model recently proposed for other cell lines, according to which in intact cells, but not in membranes, agonist-binding promotes a rapid and temperature-dependent conformational change of the beta-adrenergic receptors, leading to a progressive loss of capacity of agonists to form a high-affinity complex.     

The metabolic route by which oleate is converted into cholesterol in rat hepatocytes.

The effect of (-)-hydroxycitrate on the conversion of [1-14C]oleate into cholesterol was dependent on the time of day at which the cells were prepared and on the extracellular oleate concentration. In hepatocytes prepared during the light phase of the diurnal cycle (L2-hepatocytes), (-)-hydroxycitrate inhibited the conversion of L-[U-14C]lactate (2 mM) and of 0.13 mM-[1-14C]oleate into cholesterol. However, when [1-14C]oleate was present at 1.3 mM, most of the sterol carbon was derived from this source, and under these conditions (-)-hydroxycitrate had no inhibitory effect on [14C]cholesterol formation. In these cells, non-radioactive acetoacetate blocked the conversion of 1.3 mM-[1-14C]oleate, but not of 0.13 mM-[1-14C]oleate, into cholesterol. In cells prepared during the dark phase of the diurnal cycle (D6-hepatocytes), irrespective of the concentration of [1-14C]oleate, (-)-hydroxycitrate decreased its conversion into cholesterol. In both types of cell preparation, the inhibitory effect of (-)-hydroxycitrate on the conversion of L-[U-14C]lactate into cholesterol was greater than that on the overall rate of cholesterol production from all endogenous sources. These results provide evidence for the following. (1) The major metabolic route by which oleate is converted into cholesterol is dependent on its extracellular concentration. (2) When oleate is the major source of hepatic sterol carbon, the flux of substrate through citrate into cholesterol is dependent on the nutritional state of the animal. (3) When endogenous substrates are the sole source of sterol carbon, a substantial proportion of the carbon enters the cholesterol pathway through routes not involving citrate cleavage.     

Discrimination between cholesterol and sitosterol for absorption in rats

The intestinal absorption of cholesterol and sitosterol was compared in rats. The intragastric administration of a single emulsified lipid meal containing either 50 mg of [4-14C]cholesterol or [4-14C]sitosterol resulted in the lymphatic absorption of 18.2% and 0.42% of each sterol, respectively, in 6 hr. This difference was unaltered when the mucosal sterol load was equalized by reducing the cholesterol to 1 mg in the emulsified lipid meal while maintaining the same sitosterol load or when the physical state in the lumen was equalized by infusion of a micellar solution containing both sterols into bile-diverted intestine. Lymphatic cholesterol was 90% esterified compared to 12% for sitosterol. Both sterols were associated predominantly (greater than 70%) with the chylomicron fraction. Eighty percent of the chylomicron cholesterol was recovered as ester with the core lipids, while 77% of the sitosterol was recovered as free sterol with the chylomicron coat. In mucosal homogenates at 6 hr, sitosterol recovery was one-eleventh that of cholesterol. When [3H]cholesterol (10 mg) and [14C]sitosterol (10 mg) were co-administered in an emulsified intragastric lipid meal, sitosterol associated with the brush border isolated 2 hr later was one-fifth that of cholesterol. Similar differences were seen when brush border membranes were incubated in vitro with micellar solutions containing either 50 microM [3H]cholesterol or [14C]sitosterol and the relative uptake of each sterol was unaffected by micellar phospholipid type (egg yolk phospholipids, phosphatidylcholine, or phosphatidylethanolamine).(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation of the translocation of phosphatidate phosphohydrolase between the cytosol and the endoplasmic reticulum of rat liver. Effects of unsaturated fatty acids, spermine, nucleotides, albumin and chlorpromazine.

The translocation of phosphatidate phosphohydrolase between the cytosol and the microsomal membranes was investigated by using a cell-free system from rat liver. Linoleate, alpha-linolenate, arachidonate and eicosapentenoate promoted the translocation to membranes with a similar potency to that of oleate. The phosphohydrolase that associated with the membranes in the presence of [14C]oleate or 1mM-spermine coincided on Percoll gradients with the peak of rotenone-insensitive NADH-cytochrome c reductase, and in the former case with a peak of 14C. Microsomal membranes were enriched with the phosphohydrolase activity by incubation with [14C]oleate or spermine and then incubated with albumin. The phosphohydrolase activity was displaced from the membranes by albumin, and this paralleled the removal of [14C]oleate from the membranes when this acid was present. Chlorpromazine also displaced phosphatidate phosphohydrolase from the membranes, but it did not displace [14C]oleate. The effects of spermine in promoting the association of the phosphohydrolase with the membranes was inhibited by ATP, GTP, CTP, AMP and phosphate. ATP at the same concentration did not antagonize the translocating effect of oleate. From these results and previous work, it was concluded that the binding of long-chain fatty acids and their CoA esters to the endoplasmic reticulum acts as a signal for more phosphatidate phosphohydrolase to associate with these membranes and thereby to enhance the synthesis of glycerolipids, especially triacylglycerol. The translocation of the phosphohydrolase probably depends on the increased negative charge on the membranes, which could also be donated by the accumulation of phosphatidate. Chlorpromazine could oppose the translocation by donating a positive charge to the membranes.     

Radiation Inactivation Studies of the Benzodiazepine/γ-Aminobutyric Acid/Chloride Ionophore Receptor Complex

Radiation inactivation was used to estimate the molecular weight of the benzodiazepine (BZ), gamma-aminobutyric acid (GABA), and associated chloride ionophore (picrotoxinin/barbiturate) binding sites in frozen membranes prepared from rat forebrain. The target size of the BZ recognition site (as defined by the binding of the agonists [3H]diazepam and [3H]flunitrazepam, the antagonists [3H]Ro 15-1788 and [3H]CGS 8216, and the inverse agonist [3H]ethyl-beta-carboline-3-carboxylate) averaged 51,000 +/- 2,000 daltons. The presence or absence of GABA during irradiation had no effect on the target size of the BZ recognition site. The apparent molecular weight of the GABA binding site labelled with [3H]muscimol was identical to the BZ receptor when determined under identical assay conditions. However the target size of the picrotoxinin/barbiturate binding site labelled with the cage convulsant [35S]t-butylbicyclophosphorothionate was about threefold larger (138,000 daltons). The effects of lyophilization on BZ receptor binding activity and target size analysis were also determined. A decrease in the number of BZ binding sites (Bmax) was observed in the nonirradiated, lyophilized membranes compared with frozen membranes. Lyophilization of membranes prior to irradiation at -135 degrees C or 30 degrees C resulted in a 53 and 151% increase, respectively, in the molecular weight (target size) estimates of the BZ recognition site when compared with frozen membrane preparations. Two enzymes were also added to the membrane preparations for subsequent target size analysis. In lyophilized preparations irradiated at 30 degrees C, the target size for beta-galactosidase was also increased 71% when compared with frozen membrane preparations. In contrast, the target size for glucose-6-phosphate dehydrogenase was not altered by lyophilization.(ABSTRACT TRUNCATED AT 250 WORDS)     

Tubulin and tubulin-colchicine complex bind to brain microsomal membrane in vitro

Brain tubulin was labeled in vitro by post-translational incorporation of [14C]-tyrosine or in vivo by intra-cranial injection of [3H]-leucine. The labeled protein was purified by ion-exchange chromatography. After incubating at 37 degrees C with a microsomal membrane preparation from rat brain, part of the labeled soluble tubulin became sedimentable at high-speed centrifugation. This was independent of the native configuration of tubulin, the state of tyrosination of the COOH-terminus, or the presence of 100 microM colchicine in the mixture. In addition, the double-labeled tubulin-colchicine complex obtained from the binding of [3H]-colchicine to [14C]-tyrosinated tubulin, bound to the membrane preparation to the same extent as [14C]-tyrosinated tubulin. The data show that either tubulin or the complex resulting from its binding to colchicine distributed between the soluble and the membrane fractions when mixed at 37 degrees C with a microsome preparation. Seemingly, the site for colchicine binding to tubulin needs not to be free for the protein-membrane association.