Estimation of the degradation of endocytosed material by flow cytofluorometry using two neoglycoproteins containing different numbers of fluorescein molecules

The fluorescence properties of fluorescein bound to protein are used to quantitate by flow cytofluorometry the degradation of fluorescein-labeled alpha-glucosylated serum albumin (fluorescein-labeled neoglycoprotein) after endocytosis by the membrane lectin of Lewis lung carcinoma cells (3LL cells). The quantum yield of fluorescein bound to a protein decreases when the number of fluorescein residues per protein molecule increases; however, after proteolytic digestion the mean fluorescence intensity of a fluorescein molecule is constant and equal to that of free fluorescein. The extent of the degradation of the endocytosed neoglycoprotein was determined with a flow cytofluorometer by using two neoglycoproteins containing either a small or a large number of fluorescein residues per neoglycoprotein molecule. At 4 degrees C, 3LL cells bind 750,000 molecules of fluorescein-labeled alpha-glucosylated serum albumin with an apparent binding constant of 2 X 10(6) 1 X mole-1. At 37 degrees C, after 4 hr incubation 2.2 X 10(6) molecules of fluorescent alpha-glucosylated serum albumin were cell-associated, and of these at least one third were degraded.     

Binding, internalization, and degradation of AMP aminohydrolase by avian hepatocyte monolayers

Chicken muscle AMP aminohydrolase is cleared from the circulation of chickens after intravenous injection of the purified enzyme with a half-life of 3-5 min (Husic, H.D., and Suelter, C.H. (1980) Biochem. Biophys. Res. Commun. 95, 228-235). The enzyme is not inactivated before clearance, the clearance is inhibited by sulfated polysaccharides, and the enzyme is cleared primarily by the spleen and the parenchymal cells of the liver where it is internalized and degraded in lysosomes (Husic, H.D., and Suelter, C.H. (1984) J. Biol. Chem. 259, 4359-4364). The binding of AMP aminohydrolase to hepatocyte monolayers in vitro at 4 degrees C is saturable with a dissociation constant of 11.3 X 10(-8) M; there are 2.6 X 10(6) AMP aminohydrolase binding sites/hepatocyte. The interaction of the enzyme with hepatocyte monolayers is inhibited by sulfated polysaccharides, effectors of its enzymatic activity and high salt concentrations; various monosaccharides had little effect on the binding of the enzyme to hepatocyte monolayers. Heparitinase treatment of hepatocyte monolayers abolished 77% of the binding of the enzyme. Heparin promotes the dissociation of 125I-labeled or [14C]sucrose-labeled enzyme bound to the cell surface; radioactivity which is not dissociated by heparin is assumed to be internalized at 37 degrees C. Low molecular weight 125I-labeled degradation products are released into the media with time when the 125I-labeled enzyme, bound to hepatocytes at 4 degrees C, is incubated at 37 degrees C; when [14C]sucrose-labeled enzyme is incubated with hepatocytes at 37 degrees C, low molecular weight 14C-labeled degradation products are not released into the media but instead accumulate in the cells. The half-life for internalization of the bound enzyme based on this rate of accumulation is 0.77 h. These results suggest that glycosaminoglycans are involved in the binding of AMP aminohydrolase to the hepatocyte cell surface and that the bound enzyme is internalized and degraded.     

Endocytosis and subsequent processing of 125I-labelled immunoglobulin G by guinea pig yolk sac in vitro.

We have developed conditions for studying the binding, uptake, degradation and transport of 125I-labelled IgG by yolk sac in vitro. Specific binding to tissue at 4 degrees C and to paraformaldehyde-treated tissue at 37 degrees C was time- and temperature-dependent and showed saturation kinetics (Kd,4 degrees C = 2.9 X 10(-6) M, Kd,37 degrees C = 5.3 X 10(-6) M). Uptake was studied at 37 degrees C using untreated tissue (K uptake = 13.3 X 10(-6) M) and was inhibited by preincubation with metabolic poisons but not with cycloheximide. Tissue that had been incubated with 125I-labelled IgG at 37 degrees C released radiolabelled degradation products and intact 125I-labelled IgG into the medium. Experiments with paraformaldehyde-treated and untreated tissue showed that release of intact 125I-labelled IgG was mostly the result of ligand dissociation from surface binding sites. However, more 125I-labelled IgG was released from untreated tissue than could be accounted for solely by loss of surface-bound ligand and the difference was presumed to reflect uptake, transport and exocytosis of 125I-labelled IgG. Degradation of 125I-labelled IgG was inhibited by leupeptin and lysosomotropic amines. These drugs had no detectable effect on 125I-labelled IgG release. The results suggest that degradation and transport of IgG are not intimately related and are consistent with a previously proposed model for IgG transport via coated vesicles which do not fuse with lysosomes and for non-selective uptake into another class of vesicle which does fuse with lysosomes.     

Use of fluorescein hydrazide and fluorescein thiosemicarbazide reagents for the fluorometric determination of protein carbonyl groups and for the detection of oxidized protein on polyacrylamide gels

Highly fluorescent thiosemicarbazide and hydrazide prepared by reaction of fluorescein isothiocyanate with hydrazine or adipic acid dihydrazide have been used to monitor the presence of carbonyl groups in oxidatively modified proteins. After oxidation, proteins react with these reagents under anaerobic conditions in the dark to yield fluorescent protein conjugates (presumably thiosemicarbazones or hydrazones) which can be visualized as fluorescent bands following electrophoresis (0-4 degrees C) on lithium dodecyl sulfate-polyacrylamide gels. These reagents do not react with unoxidized proteins. The conjugates formed dissociate readily at room temperature but are fairly stable at pH 6-9, 0 degrees C. Current data suggest that these reagents will be useful in the detection and quantitation of oxidatively modified proteins in biological systems.     

Interaction and thermal stability of fluorescent labeled derivatives of thrombin and antithrombin III

Derivatives of human thrombin and antithrombin III with fluorescent labels covalently attached to their carbohydrate moieties were prepared by reaction of periodate-oxidized proteins with amino derivatives of dansyl, fluorescein and pyrene. The labeled derivatives retained full biological activity, including their ability to form stable enzyme-inhibitor complexes, a reaction whose rate could be monitored by the increase in fluorescence polarization. When the dansyl-labeled derivatives were heated, they exhibited sigmoidal increases in polarization with midpoints near 50 degrees C for thrombin and 60 degrees C for antithrombin III. By contrast, a complex between antithrombin III and dansyl-thrombin showed no change in polarization up to 70 degrees C, suggesting that the individual components are more stable in the complex. These studies show that fluorescent labels attached to carbohydrate moieties of glycoproteins provide convenient probes for monitoring conformational changes and protein-protein interactions with minimum interference by the probe.     

Insulin Binding to Human Astrocytoma Cells and Its Effect on Uridine Incorporation into Nucleic Acid

Binding of [125I]monoiodoinsulin to human astrocytoma cells (U-373 MG) was time dependent, reaching equilibrium after 1 h at 22 degrees C with equilibrium binding corresponding to 2.2 fmol/mg protein: this represents approximately 2,000 occupied binding sites per cell. The t1/2 of 125I-insulin dissociation at 22 degrees C was 10 min; the dissociation rate constant of 1.1 X 10(-2) s-1 was unaffected by a high concentration of unlabeled insulin (16.7 microM). Porcine insulin competed for specific 125I-insulin binding in a dose-dependent manner and Scatchard analysis suggested multiple affinity binding sites (higher affinity Ka = 4.4 X 10(8) M-1 and lower affinity Ka = 7.4 X 10(6) M-1). Glucagon and somatostatin did not compete for specific insulin binding. Incubation of cells with insulin (0.5 microM) for 2 h at 37 degrees C increased [2-14C]uridine incorporation into nucleic acid by 62 +/- 2% (n = 3) above basal. Cyclic AMP, in the absence of insulin, also stimulated nucleoside incorporation into nucleic acid [65 +/- 1% (n = 3)] above basal. Preincubation with cyclic AMP followed by insulin had an additive effect on nucleoside incorporation [160 +/- 4% (n = 3) above basal]. Dipyridamole (50 microM), a nucleoside transport inhibitor, blocked both basal and stimulated uridine incorporation. These studies confirm that human astrocytoma cells possess specific insulin receptors with a demonstrable effect of ligand binding on uridine incorporation into nucleic acid.     

The equivalent conductivity of aqueous solutions of alkali metal salts of a number of ionic polysaccharides

Measurements of the equivalent conductivity of aqueous solutions of alkalimetal salts of a number of ionic polysaccharides at 25 degrees C are reported. The polysaccharides studied are: (1) three carboxymethylcelluloses of various degrees of substitution (Li+, Na+, Cs+ salts) in the concentration range 4 X 10(-4) - 6 X 10(-2) equivalents alkali ion per liter, (2) Polypectate (Li+, Na+, K+, Cs+ salts) in the range 1.5 X 10(-4) - 2 X 10(-2) equivalent alkali ion per liter, and (3) Dextransulfate (Li+, Na+, K+ salts) in the range 3 X 10(-4) - 10(-1) equivalent alkali ion per liter. The results are compared to some earlier data and to a limiting law for conductance of rod-like polyions derived by Manning. It is concluded that although qualitative agreement is obtained between observed data and the limiting law when various polyions of different charge densities are compared at a given concentration, the concentration dependence predicted by the limiting law is in agreement with the observed curves only for polyions of a relatively low charge density. At higher charge densities appreciable deviations occur, and dextransulfate which does not have the rod-like polyion structure required by theory does not conform to the predicted concentration dependence at all.     

Characterization of the asialoglycoprotein receptor in a continuous hepatoma line

The asialoglycoprotein receptor has been identified on a continuous human hepatoma cell line, HepG2. This receptor requires Ca2+ for ligand binding and is specific for asialoglycoprotein. There are approximately 150,000 ligand molecules bound/cell at 4 degrees C. These receptors represent a homogeneous population of high affinity binding sites with Kd = 7 X 10(-9) M. From the rate of 125I-ASOR binding at 4 degrees C, kon was 0.95 X 10(6) M-1 min-1. Uptake of 125I-ASOR at 37 degrees C was approximately 0.02 pmol/min/10(6) cells.     

Ribosome binding by tRNAs with fluorescent labeled 3'' termini.

Yeast and E. coli tRNAPhe samples were oxidized and labeled at the 3' end with dansyl hydrazine or fluorescein thiosemicarbazide. These tRNAs can bind to poly(U)-programmed E. coli 70S tight couple ribosomes in 25 mM magnesium at 8 degrees C. Two binding sites with binding constants of about 1 X 10(9) M-1 (P) and 3 X 10(7) M-1 (A) were determined for the yeast tRNAPhe derivatives. With E. coli tRNAPhe the A site affinity is similar to yeast tRNAPhe but the P site affinity is 5-fold weaker. Singlet-singlet energy transfer showd that the distance from the 3' end of tRNAPhe in the P site to a fluorescein derivative of erythromycin is 23 A. This supports in vitro studies suggesting that erythromycin binds near the peptide moiety of peptidyl tRNA. A distance of 34 A between the 3' ends of 2 tRNAs bound simulatneously on the ribosome was also measured. This long distance may mean that the deacylated fluorescent tRNA binds to the A site in an orientation like that in the stringent response rather than in protein synthesis.     

Binding uptake and degradation of antithrombin III X protease complexes by cultured corneal endothelial cells

Interaction of 125I-labeled human antithrombin III (125I-AT III) X protease complexes with bovine corneal endothelial cells has been studied in tissue culture. 125I-AT III does not bind to endothelial cells, but its complexes with either thrombin or trypsin bind specifically to the cultures. The binding of 125I-AT III X protease complexes is not via the moiety of the free antithrombin III (AT III) or the free protease, since neither AT III nor thrombin compete on the binding of 125I-AT III X thrombin complexes. Only unlabeled AT III X thrombin complexes compete on the binding of the iodinated ligand. 125I-AT III X trypsin complexes bind with a KD of 1.4 X 10(-7) M to high affinity-binding sites present on the cell surface of corneal endothelial cells. Saturation of binding to the cell surface is observed at a concentration of 2.5 X 10(-7) M 125I-AT III X trypsin complexes and the number of binding sites per cell is about 4 X 10(4). The cell surface binding reaches a maximum by 15 min and then decreases with time. The cells, when incubated at 37 degrees C, appear to internalize the bound complexes by adsorptive endocytosis which proceeds at a rate of 0.5-0.8 pmole/1 X 10(6) cells/h. The internalization process of 125I-AT III X protease complexes is saturated at a concentration of 2.5 X 10(-7) M. Since the cells release 125I-labeled material into the extracellular media which cannot be precipitated by trichloroacetic acid (TCA), it probably represents degradation of 125I-AT III X protease complexes into small fragments at a linear rate of about 0.5 pmole/1 X 10(6) cells/h. The described process of AT III X protease complexes binding, internalization and subsequent degradation by corneal endothelial cells may represent a clearing mechanism for extracellular AT III X protease complexes formed under pathological conditions.     

Fluorescein conjugates of 9- and 10-hydroxystearic acids: synthetic strategies, photophysical characterization, and confocal microscopy applications

Different strategies are presented to conjugate a fluorescein moiety to 9- and 10-hydroxystearic acids (HSAs). 5-Amino-fluorescein (5-AF) was used as a starting reagent. When reacted with acyl-chloride-modified HSAs, 5-AF gave rise to stable amide derivatives with a 75% reaction yield. These products exhibited the typical steady-state and time-resolved fluorescence properties of the fluorescein chromophore with absorption at 494 nm and emission at 519 nm. Flow cytometry studies confirmed the distinct proapoptotic effect of underivatized 9-HSA on Jurkat cells and revealed a comparable ability of its amide derivative. Confocal microscopy imaging studies showed that green fluorescence could stain intracellular membranous structures. Moreover, dual-dye labeling with Mito Tracker Red, followed by colocalization analysis, revealed that HSA can move to the mitochondria. Thus, fluorescent derivatives of HSA can be used to monitor the localization of these biologically active molecules in living cells and can provide a useful tool for linking biochemical investigation with optical visualization methods. In contrast, when unmodified HSAs were used, the reaction gave monoesterified and diesterified fluorescein derivatives. These products exhibited unusual steady-state and time-resolved fluorescence properties with the excitation wavelength at 342 nm and the emission wavelength at 432 nm. It is shown that the synthesized HSA amides of fluorescein provide all of the typical photophysical and instrumental advantages of this popular dye, whereas the unusual luminescence and excitation properties of the monoester and diester of the 5-aminofluorescein would make these dyes interesting to explore as potential candidates for two photon excitation applications.     

Direct determination of the association constant between elongation factor Tu X GTP and aminoacyl-tRNA using fluorescence

We have investigated the formation of the aa-tRNA X EF-Tu X GTP ternary complex spectroscopically by monitoring a fluorescence change that accompanies the association of EF-Tu X GTP with Phe-tRNAPhe-F8, a functionally active analogue of Phe-tRNAPhe with a fluorescein moiety covalently attached to the s4U-8 base. With this approach, the protein-nucleic acid interaction could be examined by direct means and at equilibrium. The fluorescence emission intensity of each Phe-tRNAPhe-F8 increased by 36-55% upon association with EF-Tu X GTP, depending on the solvent conditions. Thus, when Phe-tRNAPhe-F8 was titrated with EF-Tu X GTP, the extent of ternary complex formation was determined from the increase in emission intensity. A nonlinear least-squares analysis of the titration data yielded a dissociation constant of 0.85 nM for the ternary complex in 50 mM N-(2-hydroxyethyl)piperazine-N'-2-ethanesulfonic acid (pH 7.6), 10 mM MgCl2, and 50 mM NH4Cl, at 6 degrees C. The delta H degrees of this interaction, determined by the temperature dependence of Kd, was -16 kcal/mol; the delta S degrees was therefore -16 cal mol-1 deg-1 at 6 degrees C in this buffer. In a more physiological polycation-containing solvent ("polymix"), the Kd was 4.7 nM. The ionic strength dependence of ternary complex formation showed that a minimum of two salt bridges and a substantial nonelectrostatic contribution are involved in the binding of aa-tRNA to EF-Tu. The affinities of unmodified aa-tRNAs for EF-Tu X GTP were determined by their abilities to compete with the fluorescent aa-tRNA for binding to the protein.(ABSTRACT TRUNCATED AT 250 WORDS)     

Immunochemical determination of conformational equilibria for fragments of the B beta chain of fibrinogen

The conformations of the B beta chain of the intact fibrinogen molecule and of various fragments of the B beta chain of fibrinogen that contain the region that is hydrolyzed by thrombin have been compared by an immunochemical method [Sachs, D. H., Schechter, A. N., Eastlake, A., & Anfinsen, C. B. (1972) Proc. Natl. Acad. Sci. U.S.A. 69, 3790]. Anti-fibrinogen antibodies were induced in rabbits by immunization with native bovine fibrinogen. An antibody population specific for the native antigenic determinant within the B beta fragment 20-28 was isolated by immunoadsorption. This preparation was to determine the value of Kconf, the equilibrium constant for the interconversion of the nonnative and native conformations of this determinant. Values of Kconf were measured for this determinant within native fibrinogen, the disulfide knot (DSK), CNBrB beta, B beta fragment 16-28, B beta fragment 20-28, and fibrinopeptide B (FpB). 125I-Labeled fibrinogen (125I-F) was used in the determination of Kconf by measuring the competition between 125I-F and the fibrinogen derivatives under study for binding to the purified antibody. For the antigenic region in F, the DSK, and CNBrB beta, the values of Kconf at 4 degrees C were infinity, (5.9 +/- 3.5) X 10(-3), and (1.2 +/- 0.7) X 10(-3), respectively. The values of Kconf for B beta fragment 16-28, B beta fragment 20-28, and FpB at 4 degrees C were less than (6.0 +/- 3.9) X 10(-7).(ABSTRACT TRUNCATED AT 250 WORDS)     

Receptor binding of selectively labeled (Tyr-10) and (Tyr-13)-mono-125I-glucagons and competition by homologous 127I-labeled isomers

Two monoiodinated derivatives of glucagon were prepared by lactoperoxidase catalyzed iodination followed by separation on reverse-phase high-performance liquid chromatography. The purified (Tyr-10) and (Tyr-13)-mono-125I-labeled glucagon isomers were characterized and studied with respect to their binding to the receptors of isolated intact rat hepatocytes. The extent of steady-state binding to cellular receptor sites differed for the two labeled glucagon tracers at 37 degrees C as well as at 15 degrees C with (Tyr-10)-mono-125I-glucagon displaying higher receptor binding. The apparent equilibrium constants, Kd,app at 37 degrees C are 3.6 +/- 0.4 nM (mean +/- S.E. of three independent experiments) for the tyrosine-13-labeled tracer and 5.9 +/- 0.6 nM for the tyrosine-10-labeled glucagon with native glucagon as competitor. Since the observed Kd in the competition assay is a function of the true Kd values of the monoiodinated radioactive glucagon isomers and native glucagon, the dissociation constants were also measured with chemically identical tracer and competitor. Under these conditions, we obtained Kd values of 1.3 +/- 0.2 nM for the tyrosine-10-labeled analog and 2.0 +/- 0.2 nM for the tyrosine-13-labeled glucagon isomers confirming the higher receptor binding affinity of (Try-10)-mono-125I-glucagon. All competition curves fit the mathematical expression for a model of non-cooperative binding to a single class of receptors.     

The interaction of 125I-colony-stimulating factor-1 with bone marrow-derived macrophages

The colony-stimulating factor, CSF-1, stimulates cultured quiescent murine bone marrow-derived macrophages (BMM) to enter DNA synthesis with a lag phase of 10-12 h. The binding, dissociation, internalization, and degradation of 125I-CSF-1 by BMM during the lag phase were investigated. Quiescent BMM express approximately 5 X 10(4) cell surface receptor sites/cell but contain additional cryptic sites (approximately 10(5)/cell) that can appear at the cell surface within 10 min at 37 degrees C. Studies of the binding reaction at both 2 degrees C (Kd less than or equal to 2 X 10(-13) M) and 37 degrees C (Kd approximately 4 X 10(-10) M) are consistent with the existence of a single class of cell surface sites. The disappearance of cell surface 125I-CSF-1 following a 2-37 degrees C temperature shift results from two, competitive, first order processes, internalization and dissociation. Internalization (t1/2 = 1.6 min) is 6 times more frequent than dissociation (t1/2 = 9.6 min). Following internalization, 10-15% of the intracellular CSF-1 is rapidly degraded whereas the remaining 85-90% is slowly degraded by a chloroquin-sensitive first order process (t1/2 greater than 3.5 h). These findings were confirmed and extended by studies of the uptake of 125I-CSF-1 at 37 degrees C. Following addition of 125I-CSF-1, cell surface receptors are rapidly down-regulated (t1/2 approximately 7 min) and their replacement does not commence until 20-60% of pre-existing surface receptor sites have disappeared. Despite receptor replacement, initially from the cryptic pool and later by de novo synthesis and/or receptor recycling (4 molecules/cell/s at steady state), the number of receptors at the cell surface remains low. The process results in the intracellular accumulation of large amounts of 125I-CSF-1 (greater than 10(5) molecules/cell) by BMM. Thus, whereas the kinetics of association, dissociation, and internalization of CSF-1 with BMM and peritoneal exudate macrophages are similar, BMM, which exhibit a higher proliferative response, degrade growth factor 12 times more slowly.     

Cadmium stimulation of Na-independent organic acid transport in the kidney tubules

The influence of Cd++ (as well as of Hg++ and Cu++) on the uptake of an organic acid (fluorescein) in superficial proximal tubules of the surviving rat kidney was studied at 20 degrees C, when the active transport of fluorescein does not depend on the external Na. In contrast to mercury and copper, cadmium stimulated the uptake of fluorescein from the beginning of incubation. The minimal effective concentration of Cd++ was 5 X 10(-6)M, the relative effect of Cd++ on the uptake being the same within the concentration range from 5 X 10(-6) to 10(-3) M. A 60 minutes pre-incubation with Cd++ at 20 degrees C resulted in a significant increase in the stimulatory effect of acetate on the fluorescein transport. The stimulation of the fluorescein transport by cadmium was prevented by ouabain or by omissing Na from the incubating medium, although neither ouabain nor the absence of Na affected the transport of fluorescein under these conditions. It is supposed that the stimulation by Cd++ of the fluorescein transport may result from the activated oxidation of NAD-linked substrates due to acceleration of the active transepithelial transport of Na ions.     

Characteristics and specificity of the interaction of a fluorochrome from aniline blue (sirofluor) with polysaccharides

The effects of polysaccharide structure and environment on the formation of fluorescent complexes between the polysaccharide and a fluorochrome (4,4′ - [carbonylbis (benzene-4,1-diyl) bis(imino)] bisbenzenesulfonic acid (Sirofluor) isolated from the triarylmethane dye, aniline blue, have been studied. Amongst the wide range of water-soluble polysaccharides tested, fluorescent complexes are formed only with glucans, the strongest fluorescence being obtained with linear (1 → 3)-β-d-glucans and with linear (1 → 3)-β-d-glucans bearing single glucose residues attached at the 6-position. The fluorescence of complexes formed with water-insoluble polysaccharides depends on the ionic environment as well as the polysaccharide structure. (1 → 3)-β-d-Glucans form strongly fluorescent complexes in the dry state and in the presence of water or phosphate buffer. Various cellulose ((1 → 4)-β-d-glucan) samples form strongly fluorescent complexes in the dry state and in the presence of phosphate buffer, but are significantly reduced in the presence of water alone.     

Insulin effect on translational diffusion of lipids and proteins in the plasma membrane of isolated rat hepatocytes

The effects of insulin (10(-10)-10(-8) mol/l) on lateral diffusion of three fluorescent lipid probes, 1-acyl-2-(N-4-nitrobenzo-2-oxa-1,3-diazole)aminocaproyl phosphatidylcholine (NBD-PC), 5-(N-hexadecanoyl)aminofluorescein (F-C16), 5-(N-dodecanoyl)aminofluorescein (F-C12), and of fluorescein isothiocyanate-labeled proteins in the plasma membrane of intact rat hepatocytes were studied by the technique of fluorescence recovery after photobleaching. The absolute lateral diffusion coefficients of the lipid analogues NBD-PC, F-C16 and F-C12 at 21 degrees C were 2.5 X 10(-9) cm2/s, 5.4 X 10(-9) cm2/s and 19 X 10(-9) cm2/s, respectively. The diffusion coefficient mean of proteins labeled with fluorescein isothiocyanate was 6.4 X 10(-10) cm2/s. Insulin at 10(-9) and 10(-8) mol/l reduced the lateral diffusion coefficient for F-C12- and F-C16-labeled cells by 20% and for NBD-PC-labeled cells by 30% (P less than 0.025). The insulin effect was specific as tested by cell incubation with proinsulin and desoctapeptide insulin (10(-8) mol/l) and was detectable after 7 min of insulin preincubation. In contrast to lateral diffusion of lipid probes, lateral mobility of unselected membrane proteins was not altered by insulin. The observed modulation of lipid dynamics in the plasma membrane of intact hepatocytes, by which a variety of membrane functions can be influenced, may be an important step in the mechanism of insulin action.     

Properties of follicle-stimulating-hormone receptor in cell membranes of bovine testis.

A simple method for preparing plasma membranes from bovine testes is described. Bovine testicular receptor has a high affinity and specificity for 125I-labelled human FSH (follicle-stimulating hormone). The specific binding of 125I-labelled human FSH to the plasma membranes is a saturable process with respect to the amounts of receptor protein and FSH added. The association and dissociation of 125I-labelled human FSH are time- and temperature-dependent, and the binding of labelled human FSH to bovine testicular receptor is strong and not readily reversible. Scatchard [Ann. N.Y. Acad. Sci. (1949) 51, 660-672] analysis indicates a dissociation constant, Kd, of 9.8 X10(-11)M, and 5.9 X 10(-14)mol of binding sites/mg of membrane protein. The testicular membrane receptor is heat-labile. Preheating at 40 degrees C for 15 min destroyed 30% of the binding activity. Specific binding is pH-dependent, with an optimum between pH 7.0 and 7.5. Brief exposure to extremes of pH caused irreversible damage to the receptors. The ionic strength of the incubation medium markedly affects the association of 125I-labelled human FSH with its testicular receptor. Various cations at concentrations of 0.1M inhibit almost completely the binding of 125I-labelled human FSH. Nuclectides and steroid hormones at concentrations of 1mM and 5mu/ml respectively have no effect on the binding of FSH to its receptor. Incubation of membranes with and chymotrypsin resulted in an almost complete loss of binding activity, suggesting that protein moieties are essential for the binding of 125I-labelled human FSH. Binding of 125I-labelled human FSH to bovine testicular receptor does not result in destruction or degradation of the hormone.     

Discrimination between subclasses of human high-density lipoproteins by the HDL binding sites of bovine liver

The binding of human 125I-labeled HDL3 (high-density lipoproteins, rho 1.125-1.210 g/cm3) to a crude membrane fraction prepared from bovine liver closely fit the paradigm expected of a ligand binding to a single class of identical and independent sites, as demonstrated by computer-assisted binding analysis. The dissociation constant (Kd), at both 37 and 4 degrees C, was 2.9 micrograms protein/ml (approx. 2.9 X 10(-8) M); the capacity of the binding sites was 490 ng HDL3 (approx. 4.9 pmol) per mg membrane protein at 37 degrees C and 115 at 4 degrees C. Human low-density lipoproteins (LDL) and very-low-density lipoproteins (VLDL) also bound to these sites (Kd = 41 micrograms protein/ml, approx. 6.7 X 10(-8) M for LDL, and Kd = 5.7 micrograms protein/ml, approx. 7.0 X 10(-9) M for VLDL), but this observation must be considered in light of the fact that the normal circulating concentrations of these lipoproteins are much lower than those of HDL. The binding of 125I-labeled HDL3 to these sites was inhibited only slightly by 1 M NaCl, suggesting the presence of primarily hydrophobic interactions at the recognition site. The binding was not dependent on divalent cations and was not displaceable by heparin; the binding sites were sensitive to both trypsin and pronase. Of exceptional note was the finding that various subclasses of human HDL (including subclasses of immunoaffinity-isolated HDL) displaced 125I-labeled HDL3 from the hepatic HDL binding sites with different apparent affinities, indicating that these sites are capable of recognizing highly specific structural features of ligands. In particular, apolipoprotein A-I-containing lipoproteins with prebeta electrophoretic mobility bound to these sites with a strikingly lower affinity (Kd = 130 micrograms protein/ml) than did the other subclasses of HDL.