Hydrophobic photolabeling in membranes: the human erythrocyte glucose transporter

Human erythrocyte membranes were labeled with a hydrophobic photoactivable reagent, 2-[3H]Diazofluorene. Electrophoretic analysis of the protein fraction showed that several membrane spanning proteins like Band 3 (the anion transporter), Band 4.5 (the glucose transporter), and the sialoglycoproteins PAS 1, 2, and 3 have been labeled. To isolate the diazofluorene-labeled glucose transporter, the membrane preparation was solubilized with Triton X-100 and passed through a DEAE-cellulose column. The flow-through fraction was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Radioactive analysis of the gel indicated that besides the Band 4.5, two more proteins corresponding to the Band 3 and Band 6 regions also coelute with the glucose transporter in the flow-through fraction. On the other hand, use of n-octyl glucoside gave a relatively better preparation. The 2-[3H]DAF-labeled glucose transporter isolated by the latter method on tryptic digestion indicated that the Mr 18,000 fragment corresponding to the C-terminal transmembrane fragment is labeled.     

The isolation of an o-diphenal oxidase from third-instar larvae of the blowfly Calliphora erythrocephala.

1. The isolation of an o-diphenol oxidase from an acetone-dried powder of late-third-instar larvae of Calliphora erythrocephala was investigated. An insoluble and micro-crystalline fraction containing the enzyme activity was obtained after fractionating extracts of the acetone-dried powder with (NH4)2SO4 and acetone. 2. This fraction can be solubilized in 0.1% sodium dodecyl sulphate without loss of activity. 3. Polyacrylamide-gel electrophoresis in the presence of sodium dodecyl sulphate shows that the o-diphenol oxidase is a minor component of the extracts from the acetone-dried powder. 4. The o-diphenol oxidase was purified by zonal centrifugation on a sucrose density gradient in the presence of sodium dodecyl sulphate. 5. The amino acid composition of the purified enzyme resembles that of some other o-diphenol oxidases. 6. The subunit composition of the o-diphenol oxidase is discussed.     

Modification of pyruvate kinase activity by proteins from chicken liver

The partial purification of a protein fraction inhibiting pyruvate kinase isoenzymes is described. The fraction was isolated from the (NH4)2SO4 step of the purification procedure for pyruvate kinase isoenzymes from chicken liver (Eigenbrodt, E. & Schoner, W. (1977) Hoppe-Seyler's Z. Physiol. Chem. 358, 1033-1046) by extraction with 1N NaOH, acidification to pH 3, ethanol precipitation and chromatography of the supernatant on DEAE-cellulose. The inhibitor fraction was further purified by disc gel electrophoresis using a gel gradient from 10 to 25%; this procedure separated activating proteins from the inhibitor fraction. The inhibitor fraction inhibited the pyruvate kinase isoenzymes from chicken in the sequence of decreasing effect: M2 greater than L greater than M1. The inhibition was due to a decrease in the affinity for phosphoenolpyruvate. The inhibitor is stable against heating for 5 min in 1% sodium dodecyl sulfate at 100 degrees C; it is destroyed by pepsin digestion. The inhibitor fraction could be purified further only by dodecyl sulfate gel electrophoresis. This resulted in the separation of 2 inhibitors (Mr = 33,500 +/- 8500 and ca. 5000), an activator (Mr = 15,100 +/- 5200), and an unidentified protein (Mr = 27,000).     

Solubilization and purification of rat liver 5''-nucleotidase by use of a zwitterionic detergent and a monoclonal-antibody immunoadsorbent.

1. A variety of detergents were used to solubilize 5'-nucleotidase from rat liver plasma membranes. 2. The zwitterionic detergent Sulphobetaine 14 gave optimal solubilization by the criteria of release into a high-speed-centrifugation supernatant and the formation of the smallest and least polydisperse active enzyme observed on polyacrylamide-gel electrophoresis. 3. The Sulphobetaine 14-solubilized enzyme from rat liver was purified by using the conventional techniques of ion-exchange chromatography and gel filtration, or by an immunoaffinity step with a monoclonal antibody immunoadsorbent. 4. 5'-Nucleotidase was purified at least 12 000-fold relative to liver homogenate by the immunoaffinity purification scheme and had a specific activity in the range 285-340 mumol/min per mg of protein. The yield was in the range 9-16%. 5. The purified enzyme shows a major polypeptide band of apparent Mr 70 000 on sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and a minor band of apparent Mr 38 000. 6. A rational approach to the general problem of the purification of minor intrinsic membrane proteins is discussed, with the use of polyacrylamide-gel electrophoresis to determine the most appropriate detergent and monoclonal antibodies in subsequent immunoaffinity purification.     

Purification of maize pollen exines and analysis of associated proteins

Zea mays (maize) pollen exines have been purified with the use of differential centrifugation and sucrose gradients, followed by mild detergent and high salt treatment. The final exine fraction is highly purified from other organelles and subcellular structures as assayed by transmission electron microscopy. Using mature maize pollen as the starting material, 0.2 to 0.3% of the total pollen protein remained associated with the exine fraction throughout the purification. Seven abundant sodium dodecyl sulfate-extractable proteins are detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the final fraction. Amino acid analysis reveals that one of the proteins contains a substantial amount of hydroxyproline, a characteristic of some primary cell wall proteins. The amino acid composition of the 25-kD protein strongly implies that it is an arabinogalactan protein. When exines are purified from earlier pollen developmental stages, a subset of the proteins found in the mature pollen exine is seen.     

Isolation to homogeneity and partial characterization of a histo-blood group A defined Fuc alpha 1----2Gal alpha 1----3-N-acetylgalactosaminyltransferase from human lung tissue

The soluble histo-blood group A glycosyltransferase (Fuc alpha 1----Gal alpha 1----3-N-acetylgalactosaminyltransferase) was purified approximately 600,000-fold to homogeneity from human lung tissue. The enzyme was solubilized in 1% Triton X-100, partially purified by affinity chromatography on Sepharose 4B, and eluted with UDP. Final purification was obtained by twice repeated fast protein liquid chromatography ion exchange (Mono STM) with NaCl gradient elution and reverse-phase chromatography (proRPC) with acetonitrile gradient elution. Identity of the purified protein was established by (i) demonstration of the putative A transferase protein only in affinity-purified extracts of A but not O individuals, and (ii) specific immunoprecipitation of enzyme activity and putative protein with monoclonal antibodies. Sodium dodecyl sulfate electrophoresis revealed a single protein band with apparent Mr of approximately 40,000 under both reducing and nonreducing conditions. Digestion with N-glycanase yielded a reduction in Mr of approximately 6,000 (estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis), suggesting that the A transferase is a glycoprotein with N-linked carbohydrate chains. Amino acid composition and N-terminal amino acid sequence of the intact transferase, as well as of peptides released by endolysyl peptidase digest or cyanogen bromide cleavage, are presented.     

Purification and partial characterization of arginine-specific ADP-ribosyltransferase from skeletal muscle microsomal membranes

Integral membrane-associated arginine-specific mono-ADP-ribosyltransferase was purified from rabbit skeletal muscle microsomes. The ADP-ribosyltransferase was solubilized from the 100,000 x g pellet with 0.3% sodium deoxycholate and purified to greater than or equal to 95% homogeneity by successive DE52, concanavalin A-agarose, 3-aminobenzamide-agarose, and size-exclusion high-performance liquid chromatography (HPLC) steps in the presence of detergents. Two molecular weight forms of the enzyme were isolated and partially characterized. The apparent Mr of the alpha-form of the enzyme purified to greater than or equal to 95% homogeneity was approximately 39,000 +/- 500 as estimated by silver-stained sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The Mr of the beta-form purified to greater than or equal to 80% homogeneity was 38,500 +/- 500. The rapid procedure resulted in a 200-fold purification for the alpha-form and a 645-fold purification for the beta-form, relative to the microsomal fraction. Positive identification of the enzyme was confirmed by utilizing a zymographic in situ gel assay and by HPLC assay of polyacrylamide gel slice incubations with an NAD and guanylhydrazone substrate. The specificity of the mono-ADP-ribosyltransferase zymographic assay was characterized by time course incubations, hydroxylamine sensitivity, 3-aminobenzamide inhibition, and histone dependence. The ADP-ribosyltransferase is inactivated by reducing agents.     

Properties of the Bacillus subtilis spore coat.

About 70% of the protein in isolated Bacillus subtilis spore coats was solubilized by treatment with a combination of reducing and denaturing agents at alkaline pH. The residue, consisting primarily of protein, was insoluble in a variety of reagents. The soluble proteins were resolved into at least seven bands by sodium dodecyl sulfate gel electrophoresis. About one-half of the total was four proteins of 8,000 to 12,000 daltons. These were relatively tyrosine rich, and one was a glycoprotein. There was also a cluster of proteins of about 40,000 daltons and two or three in the 20,000- to 25,000-dalton range. The insoluble fraction had an amino acid composition and N-terminal pattern of amino acids very similar to those of the soluble coat proteins. A major difference was the presence of considerable dityrosine in performic acid-oxidized preparations of insoluble coats. Coat antigen including a 60,000-dalton protein not present in extracts of mature spores was detected in extracts of sporulating cells by immunoprecipitation. This large antigen turned over in a pulse-chase experiment. Antibodies to either the array of 8,000- to 12,000-dalton coat polypeptides or to the larger coat proteins reacted with this 60,000-dalton species, suggesting a common precursor for many of the mature coat polypeptides. Spore coats seem to be assembled by processing of proteins and by secondary modifications including perhaps dityrosine formation for cross-linking.     

High performance agarose gel chromatography in sodium dodecyl sulfate of integral membrane proteins from human red cells, with special reference to the glucose transporter

Integral membrane proteins from human red cells were fractionated in sodium dodecyl sulfate solutions by high performance gel filtration on the small-bead cross-linked agarose gel Superose 6. The components were identified by acrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The combination of Superose chromatography with electrophoresis afforded high resolution. As expected the gel filtration elution volumes depended essentially on the molecular mass, but the elution volumes decreased stepwise as the detergent concentration was increased from 0.6 to 100 mM, with the largest decrease for the glucose transporter. The resolution increased as the flow rate was decreased from 60 to 1 ml X cm-2 X h-1. The Mr values for the anion and glucose transporters as estimated by Superose 6-chromatography at 50 mM detergent were 75-80% of the corresponding Mr values obtained by electrophoresis. At 50 mM dodecyl sulfate the proteins were resolved into four fractions (a-d) which mainly contained: (a) dimer and (b) monomer of the anion transporter, (c) the glucose transporter and (d) components of Mr below 40 000. Monoclonal antibodies that possibly are directed against the glucose transporter (Lundahl, P., Greijer, E., Cardell, S., Mascher, E. and Andersson, L. (1986) Biochim. Biophys. Acta 855, 345-356) interacted only with part of the 4.5-material in fraction c in immunoblotting (Western blotting). Superose 6-chromatography of red cell glucose transporter that had been partially purified on DEAE-cellulose and Mono Q resolved one major and two minor fractions. Electrophoretic analysis showed that components of Mr 90,000, 50,000, and 25,000 had been separated from the major Mr-55,000-4.5-material and revealed size heterogeneity within the major chromatographic fraction. Heating of the glucose transporter in the presence of dodecyl sulfate caused an unexpected retardation of monomeric transporter on Superose 6. The apparent Mr decreased from 44,000 to 29,000.     

Bile acid: CoASH ligases from guinea pig and porcine liver microsomes. Purification and characterization

A procedure for the purification of the enzyme bile acid:CoA ligase from guinea pig liver microsomes was developed. Activity toward chenodeoxycholate, cholate, deoxycholate, and lithocholate co-purified suggesting that a single enzyme form catalyzes the activation of all four bile acids. Activity toward lithocholate could not be accurately assayed during the earlier stages of purification due to a protein which interfered with the assay. The purified ligase had a specific activity that was 333-fold enriched relative to the microsomal cell fraction. The purification procedure successfully removed several enzymes that could potentially interfere with assay procedures for ligase activity, i.e. ATPase, AMPase, inorganic pyrophosphatase, and bile acid-CoA thiolase. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis the purified ligase gave a single band of approximately 63,000 Mr. A molecular size of 116,000 +/- 4,000 daltons was obtained by radiation inactivation analysis of the ligase in its native microsomal environment, suggesting that the functional unit of the ligase is a dimer. The purified enzyme was extensively delipidated by adsorption to alumina. The delipidated enzyme was extremely unstable but could be partially stabilized by the addition of phospholipid vesicles or detergent. However, such additions did not enhance enzymatic activity. Kinetic analysis revealed that chenodeoxycholate, cholate, deoxycholate, and lithocholate were all relatively good substrates for the purified enzyme. The trihydroxy bile acid cholate was the least efficient substrate due to its relatively low affinity for the enzyme. Bile acid:CoA ligase could also be solubilized from porcine liver microsomes and purified 180-fold by a modification of the above procedure. The final preparation contains three polypeptides as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The three peptides range in size from 50,000 to 59,000, somewhat smaller than the guinea pig enzyme. The functional size of the porcine enzyme in its native microsomal environment was determined by the technique of radiation inactivation analysis to be 108,000 +/- 5,000 daltons. Thus, the functional form of the porcine enzyme also appears to be a dimer.     

Overproduction in Escherichia coli K-12 and purification of the TraJ protein encoded by the conjugative plasmid F

The TraJ protein encoded by the conjugative plasmid F has been designated an Escherichia coli K-12 envelope protein that participates in a mechanism of gene regulation. We have purified the TraJ protein, using an Flac::lambda traJ lysogen that overproduces the protein after heat induction of the prophage. Sufficient TraJ protein was synthesized within 40 min after induction to follow the purification by sodium dodecyl sulfate/polyacrylamide gel electrophoresis. Our purification exploited the observation that the TraJ protein remains insoluble after repeated Triton X-100/EDTA extractions of crude envelope fractions. The protein was then solubilized in sodium dodecyl sulfate at 60 degrees C and fractionated further by gel filtration and hydroxylapatite chromatography, both in the presence of sodium dodecyl sulfate. After hydroxylapatite chromatography, the protein was greater than 95% pure. The identity of the purified protein was confirmed by analysis of its NH2-terminal amino acid sequence, which was the same as that predicted from the partial nucleotide sequence of the traJ gene (Thompson, R., and Taylor, L. (1982) Mol. Gen. Genet. 188, 513-518). This analysis also indicated that the TraJ protein is localized in the cell without proteolytic modification of its NH2-terminus. We discuss the possible significance of these observations with respect to the cellular functions of the TraJ protein.     

A simple and sensitive method for the purification and peptide mapping of proteins solubilized from densonucleosis virus with sodium dodecyl sulfate

An efficient method for the proteolysis and subsequent analysis of dansylated viral (or other) proteins solubilized with sodium dodecyl sulfate (SDS), after their purification using SDS electrophoresis, is described. The dansylation of proteins or the by-products of the reaction do not interfere in this technique. This very simple technique has important advantages over other methods for the purification and characterization of proteins. The method used indicates that the four viral proteins of densonucleosis virus originate at least partially from a common DNA sequence.     

Bacillus subtilis spore coats: complexity and purification of a unique polypeptide component.

Extensively washed, dormant spores of Bacillus subtilis were disrupted with glass beads in buffer at pH 7 in the presence of protease inhibitors. Approximately 31% of the total spore protein was soluble, and another 14% was removed from the insoluble fraction by hydrolysis with lysozyme and washing with 1 M KCl and 0.1% sodium dodecyl sulfate. The residual spore integuments comprised 55% of the total spore proteins and consisted of coats and residual membrane components. Treatment of integuments with sodium dodecyl sulfate and reducing agents at pH 10 solubilized 40% of the total spore protein. Seven low-molecular-weight polypeptide components of this solubilized fraction comprised 27% of the total spore protein. They are not normal membrane components and reassociated to form fibrillar structures resembling spore coat fragments. The residual insoluble material (15% of the total spore protein) was rich in cysteine and was probably also derived from the spore coats. A solubilized coat polypeptide of molecular weight 12,200 has been purified in good yield (4 to 5% of the total spore protein). Five amino acids account for 92% of its total amino acid residues: glycine, 19%; tyrosine, 31%; proline, 23%; arginine, 13%; and phenylalanine, 6%.     

Purification of follitropin receptor from bovine calf testes

Follitropin (FSH) receptors were solubilized from pure light membranes of bovine calf testis, using an optimum detergent to protein ratio of 0.01. The soluble FSH receptor fraction was gel filtered through Sepharose 6B to isolate an active fraction (6B-Fr-1) which behaved as a complex of FSH receptor and Gs protein. The 6B-Fr-1 was concentrated by ultrafiltration and further purified by sequential Sepharose 4B gel filtration, DEAE-cellulose chromatography (to separate the receptor from Gs protein), and wheat germ lectin affinity chromatography. The purified receptor had an FSH-binding capacity of approximately 3.47 nmol/mg of protein with a Kd of 1.9 X 10(-10) M. Yield was 526 micrograms/11.5 kg tested. Radioiodinated, as well as unlabeled purified FSH receptor, migrated on sodium dodecyl sulfate-polyacrylamide gels as a single major band of Mr approximately 240,000. This band was not affected by 8 M urea treatment prior to analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, but treatment with dithiothreitol induced the loss of the 240-kDa band, with appearance of an Mr approximately 60,000 band. The availability of highly purified, stable FSH receptor should allow direct studies on its structure-function relationships.     

Purification and characterization of a plasminogen activator secreted by a pig kidney cell line

The plasminogen activator secreted by calcitonin-treated pig kidney cells was purified, characterized and compared with human urinary urokinase. The purification procedure was based on the following steps: sulphopropyl-Sephadex chromatography, p-aminobenzamidine-Sepharose chromatography, preparative sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and isoelectrofocusing. The purified enzyme was obtained from the conditioned medium with a yield of 13% and a purification factor of 390-fold. Analysis by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis under non-reducing conditions showed one closely spaced doublet with an Mr of 50 000; in the presence of reducing agents, two additional bands of Mr 30 000 and 20 000 appeared. The purified enzyme resembles the 53 000-Mr components of human urinary urokinase in amino acid composition and two-dimensional tryptic peptide maps and in its catalytic properties, and the two enzymes cross-react immunologically with rabbit antibodies raised against either. The enzyme appears to be different from tissue plasminogen activator secreted by HeLa cells.     

Isolation and characterization of glycoproteins from canine tracheal pouch secretions.

Canine tracheal pouch secretions were solubilized with 1% sodium dodecyl sulfate and visualized by sodium dodecyl sulfate-agarose-acrylamide gel electrophoresis. Intact mucus, and water-soluble and insoluble fractions of mucus were shown to be composed of high molecular weight glycoproteins (Mr greater than or equal to 3 . 10(6)) and three major classes of proteins of lower molecular weight (Mr approximately 4 . 10(5), 2 . 10(5), and 6 . 10(4)). When the mucus secretions were further treated with a reducing agent, the glycoproteins were dissociated into subunits which appeared on the gel as three discrete bands. Separation of the high molecular weight glycoproteins from the other proteins was achieved by gel filtration on Biogel A-15m in the presence of 1% dodecyl sulfate following reduction and alkylation of mucus. These glycoproteins were further resolved, using DEAE cellulose chromatography in the presence of 6 M urea, into two protein fractions. Both fractions contained approximately 87% carbohydrate, high amounts of serine and threonine but differed significantly in contents of N-acetyl glucosamine and sialic acid; their mobility on gel electrophoresis was also different. Significant contents of cysteine were noted in both fractions. Results of this study indicate that the canine tracheal pouch preparations provide normal tracheal secretions which bear similarity in structure to the tracheobronchial secretions obtained from human patients.     

Alzheimer disease paired helical filament core structures contain glycolipid.

The core structures of sodium dodecyl sulfate extracted, pronase digested paired helical filaments of Alzheimer disease were solubilized by heating in dimethyl sulfoxide. Electron microscopy revealed that after heating in dimethyl sulfoxide, intact paired helical filaments were no longer present in the dimethyl sulfoxide soluble fractions or in the insoluble lipofuscin-containing fractions. Enzyme-linked immunosorbent assays of the various fractions with the monospecific antibody A128 to paired helical filaments demonstrated 96% of the immunoreactivity to be in the dimethyl sulfoxide soluble fraction, and only 4% in the dimethyl sulfoxide insoluble fractions. Lyophilization of the dimethyl sulfoxide soluble supernatant and resuspension in water failed to reassociate the paired helical filaments, but did result in an insoluble precipitate. Analysis of the dimethyl sulfoxide solubilized paired helical filament fraction by nuclear magnetic resonance revealed it to be composed of glycolipid in a form that was distinct from similar fractions isolated from normal aged control brains. The aggregation of an altered glycolipid to form paired helical filaments in Alzheimer disease could explain their insolubility.     

Isolation of human platelet and red blood cell plasma membrane proteins by preparative detergent electrophoresis

High resolution polyacrylamide gel electrophoretic techniques have been applied to the preparative isolation and analysis of plasma membrane proteins and glycoproteins from human platelets and red blood cells. The techniques presented allow relatively simple, direct, rapid and quantitative purification of a broad molecular weight range of membrane proteins, by means of continuous elution preparative gel electrophoresis of proteins solubilized with sodium dodecyl sulfate. Spectrophotometric and fluorophotometric (fluorescamine) profiling, and high resolution gel electrophoretic analysis (SDS-acrylamide gradient slab gels, and gel electrofocusing) of eluted protein species indicate that purified membrane proteins of a broad molecular weight range may be obtained in a one step procedure, and in quantities and concentrations sufficient for further analytical or experimental procedures.     

Purification of outer membrane proteins of the gram-negative bacterium Neisseria gonorrhoeae

A system of protein purification, using sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electroblotting, that results in purified outer membrane proteins of the gram-negative bacterium Neisseria gonorrhoeae is described. The proteins, which ranged in apparent molecular mass from approximately 31,000 to approximately 92,000 Da, were located by naphthol blue black staining, eluted from nitrocellulose membranes using 88% formic acid, and precipitated by the addition of concentrated ammonium hydroxide. Up to 65% of the original protein present was recovered by this procedure. The resultant purified protein could then be resuspended in aqueous buffer by brief sonication, making it available for further structural and in vivo immunological analyses. Proteins purified in this manner retain their original antigenicity when probed with polyclonal and monoclonal antibodies, and are structurally unaltered by the purification process. This procedure makes it possible to acquire easily usable quantities of highly insoluble outer membrane proteins of gram-negative bacteria.     

Purification and reconstitution studies of the nucleoside transporter from pig erythrocytes

The pig erythrocyte nucleoside transporter has been identified as a band 4.5 polypeptide (Mr 64,000) on the basis of photoaffinity labelling experiments with the nucleoside transport inhibitor nitrobenzylthioinosine (NBMPR). This protein was purified 140-fold by treatment of haemoglobin-free erythrocytes 'ghosts' with EDTA (pH 11.2) to remove extrinsic proteins, extraction of the protein-depleted membranes with n-octyl-glucoside and subsequent gradient-elution ion-exchange chromatography on DEAE-cellulose. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis of the purified material revealed the presence of only two detectable protein bands, one which co-migrated with the radiolabelled NBMPR-binding protein, and a lower molecular weight species with an Mr of 43,000. The latter protein may be a degradation product of the band 3 anion-exchange transporter. The overall purification of the NBMPR-binding protein with respect to the Mr 64,000 band was 350-fold. Reversible NBMPR-binding to the partially-purified band 4.5 preparation was saturable (apparent Kd 7.2 nM). Adjustment of the chromatography conditions to allow elution of the NBMPR-binding protein along with the majority of solubilised membrane phospholipid reduced the apparent Kd value to 3.0 nM. Purification of reversible NBMPR-binding activity during ion-exchange chromatography was paralleled by an increase in the specific activity of nitrobenzylthioguanosine (NBTGR) -sensitive uridine transport as assayed in proteoliposomes reconstituted by a freeze-thaw-sonication procedure.