Extraction and partial purification of the nucleoside-transport system from human erythrocytes based on the assay of nitrobenzylthioinosine-binding activity.

Nitrobenzylthioinosine, a potent nucleoside-transport inhibitor, binds to high-affinity sites on the human erythrocyte membrane. This binding is a specific interaction with functional nucleoside-transport sites. The protein(s) responsible for high-affinity nitrobenzylthioinosine binding was purified 13-fold by treatment of haemoglobin-free 'ghosts' with EDTA (pH 11.2) to remove extrinsic proteins, extraction of the protein-depleted membranes with Triton X-100 and passage of the soluble extract through a DEAE-cellulose column equilibrated with Triton X-100. Void-volume fractions were collected and treated with Bio-Beads SM-2 to remove detergent. These fractions contained 31% of the starting nitrobenzylthioinosine-binding activity. They also contained D-glucose-sensitive cytochalasin B-binding activity. Nitrobenzylthioinosine binding to the partially purified preparation was saturable (apparent Kd 1.6 nM) and inhibited by nitrobenzylthioguanosine, dipyridamole and uridine. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis of pooled void-volume fractions revealed the presence of only two detectable protein bands, the broad zone 4.5 (containing glucose-transport protein) and a small amount of band 7.     

Studies of the cell surface of Paramecium. Ciliary membrane proteins and immobilization antigens.

We have developed a procedure to isolate the ciliary membranes of Paramecium and have analysed the membrane proteins by electrophoresis on polyacrylamide gels containing either Triton X-100 or sodium dodecyl sulphate. The electrophoretic pattern on gels containing sodium dodecyl sulphate showed 12-15 minor bands of mol.wt. 25 000-150 000 and on major band of mol.wt. 200 000-300 000 that contained approximately three-quarters of the total membrane protein. 2. We present evidence that the major membrane protein is related to, but not identical with, the immobilization antigen (i-antigen), which is a large (250 000 mol.w.), soluble, surface protein of Paramecium. The similarity of the i-antigen and the major membrane protein was shown by immunodiffusion and by the electrophoretic mobilities in sodium dodecyl sulphate of these two proteins from Paramecium of serotypes A and B. The non-identity of these two proteins was shown by their different electrophoretic mobilities on Triton X-100 containing gels and their different solubilities. 3. We propose that the major membrane protein and the i-antigen have a precursor-product relationship.     

Solubilization and fractionation of glycoproteins and glycolipids of KB cell membranes

1. A fraction enriched in plasma membranes of human tumour KB cell line, a permissive cell for adenovirus type 5, was obtained. 2. Electrophoresis of the membranes in polyacrylamide gels with buffers containing sodium dodecyl sulphate showed that the membranes after reduction with 2-mercaptoethanol contained over 20 polypeptide species. Three polypeptides were glycosylated and had apparent mol.wts. of 92000, 72000 and 62000. 3. The glycoproteins and the specific receptors responsible for adenovirus adsorption to the membranes were readily extracted into solutions containing low concentrations of Triton X-100. Glycolipids and proteins were also made soluble. A membranous residue obtained after Triton X-100 extraction was enriched in several proteins that appeared to consist of polypeptides of lower molecular weight than the average of KB membrane polypeptides. 4. Sphingomyelin, cholesterol and triglycerides were similarly concentrated in the insoluble residue remaining after successive extractions of KB membranes with Triton X-100. Further, ceramide trihexoside was significantly less easily extracted from KB membranes than lactosyl ceramide. 5. The differences noted in the ease of extraction of membrane components are discussed. 6. The components of membranes made soluble by detergent extraction and containing the large part of the KB membrane glycoproteins were subjected to chromatography on Sepharose 6B and DEAE-cellulose and to isoelectric focusing in the presence of buffers containing Triton X-100. In general, the degree of separation into fractions enriched in individual glycoproteins was disappointing. Possible reasons for the poor fractionation of membrane components by chromatographic systems conveniently used for purification of proteins and glycoproteins of non-membranous origin are briefly discussed.     

Covalent labelling of the lutropin binding site. Evidence for a single Mr 90000 sialoglycopolypeptide.

Membrane-associated sialoglycopolypeptides of rat ovaries were oxidized with NaIO4, reduced with NaB3H4 and solubilized with Triton X-100. The solubilized proteins carrying the 3H label were subjected to affinity chromatography on human choriogonadotropin coupled to agarose. Polyacrylamide-gel electrophoresis in sodium dodecyl sulphate followed by fluorography revealed a single component of apparent Mr 90000. This component was abolished when ovaries saturated with choriogonadotropin were used as starting material. The above result is identical to that obtained previously by conventional detection methods [ Metsikk ö & Rajaniemi (1982) Biochem. J. 208, 309-316] and indicates that the 3H-labelled lutropin/choriogonadotropin sialoglycopolypeptide was observed. The affinity-purified 3H-labelled protein co-eluted with the choriogonadotropin-binding activity solubilized with Triton X-100 from rat ovarian particles, showed a Stokes' radius of 6.2 nm and sedimented as a single band with a sedimentation coefficient of 5.1 S. The sedimentation coefficient of this 3H-labelled protein was not significantly altered when boiled in 1% sodium dodecyl sulphate, indicating that non-covalently associated subunits were not present. The 3H-labelled protein cosedimented with the choriogonadotropin-binding activity solubilized with Triton X-100 from rat ovary. When 125I-choriogonadotropin-receptor complex was covalently crosslinked with glutaraldehyde, an Mr 130000 component was produced as detected by sodium dodecyl sulphate gel electrophoresis. This component was extracted from the polyacrylamide gel and subjected to sucrose-density-gradient centrifugation in 0.1% Triton X-100. A single band sedimenting at the position of the 125I-choriogonadotropin-receptor complex solubilized from a prelabelled ovary was observed, exhibiting a sedimentation coefficient of 6.5S. These data suggest that the lutropin-binding site is a single sialoglycopolypeptide of Mr 90000, which binds one molecule of hormone resulting in an apparent Mr 130000 complex. The large Stokes' radius (6.2 nm) of the binding site is accounted for by bound detergent.     

Protein chromatography on adsorbents with hydrophobic and ionic groups. Chromatography of dodecyl sulphate-solubilized proteins of the human erythrocyte membrane on N-(3-carboxypropionyl)aminodecyl-sepharose.

Human erythrocyte 'ghosts' were solubilized in 0.5% (w/v) sodium dodecyl sulphate at pH 4.0(I = 0.012 mol/I). At a loading of 1-2 mg of protein/ml of column volume, all of membrane proteins were adsorbed to a column of CPAD [N-(3-carboxypropionyl)-aminodecyl]-Sepharose at pH 4.0 (I = 0-012 mol/1) and room temperature (22 degrees C). Many proteins were subsequently desorbed by raising the pH or by including sodium dodecyl sulphate continuously in the eluting buffer. Experiments with a series of adsorbents homologous with CPAD-Sepharose, in which the length of the hydrocarbon chain was varied, provided strong evidence of hydrophobic interactions, in addition to ionic interactions, in the binding of these proteins to CPAD-Sepharose. Elution with increasing-pH gradients at different concentrations of sodium dodecyl sulphate showed that glycophorin (the major sialoglycoprotein) was eluted in the void volume, at recoveries close to 100%, when the detergent concentration was greater than or equal to 0.3% (w/v). Protein E, the major protein, was desorbed late in the pH gradient even at a high (0.5%, w/v) concentration of the detergent, and was always incompletely desorbed, the maximum recovery recorded being 40%. Spectrin (the high-molecular-weight polypeptide pair) did not behave in a well-defined manner, and was found widely distributed among the effluent fractions under all the conditions that were tested.     

Radioimmunoassay of the 148-kilodalton cartilage protein. Distribution of the protein among bovine tissues.

A sensitive and specific radioimmunoassay for the 148 kDa cartilage protein (previously referred to as 'cartilage matrix protein') was developed. The protein is insoluble in conventional buffers and was therefore dissolved in sodium dodecyl sulphate. Excess sodium dodecyl sulphate was bound in mixed micelles with Triton X-100 before assay. Antibodies raised against the 148 kDa cartilage protein did not react with other cartilage macromolecules. Neither did they react with guanidinium chloride extracts of a number of non-cartilaginous tissues. The protein, then, is unique for cartilage. It was demonstrated in tracheal, nasal-septum, xiphisternal, auricular and epiphysial cartilage. Surprisingly, the protein was detected neither in extracts of articular cartilage nor in extracts of the anulus fibrosus or the nucleus pulposus of the intervertebral disc.     

The major sialoglycoprotein of the human erythrocyte membrane. Release with a non-ionic detergent and purification.

The major sialoglycoprotein of the human erythrocyte membrane has been selectively released by the non-ionic detergent Tween 20 and further purified in detergent-free buffers by hydroxyapatite chromatography and, finally, by hydrophobic interaction chromatography on pentyl-Sepharose. The purified glycoprotein shows one main zone, PAS-1, and up to three minor zones after staining both for protein and carbohydrate in polyacrylamide gel electrophoresis in the presence of dodecyl sulfate. The relative staining intensities are concentration dependent. When the purified glycoprotein has been heated to 100 degrees C in dodecyl sulfate, more stain appears in the most rapid zone, PAS-2, and less in the slower zones, indicating a disaggregation of oligomeric forms of this glycoprotein, including a dimer, PAS-1.     

Some observations on the choice of detergent for solubilization of the human erythrocyte membrane.

Solubilization of the human erythrocyte membrane by seven detergents is described. Components released into the supernatant or retained in the residue were identified by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. Two non-ionic detergents exhibiting little u.v. absorption were more efficient than u.v.-absorbing Triton X-100. Evidence is presented of an interchange between protein PAS 1 and protein PAS 2.     

The major sialoglycoprotein of the human erythrocyte membrane. Release with a non-ionic detergent and purification

The major sialoglycoprotein of the human erythrocyte membrane has been selectively released by the non-ionic detergent Tween 20 and further purified in detergent-free buffers by hydroxyapatite chromatography and, finally, by hydrophobic interaction chromatography on pentyl-Sepharose. The purified glycoprotein shows one main zone, PAS-1, and up to three minor zones after staining both for protein and carbohydrate in polyacrylamide gel electrophoresis in the presence of dodecyl sulfate. The relative staining intensities are concentration dependent. When the purified glycoprotein has been heated to 100 °C in dodecyl sulfate, more stain appears in the most rapid zone, PAS-2, and less in the slower zones, indicating a disaggregation of oligomeric forms of this glycoprotein, including a dinier, PAS-1.     

Characterization of an orthorhombic crystal form of iron-containing superoxide dismutase from Escherichia coli B.

Human erythrocytes were treated with the diazonium salt of oligodeoxythymidylic acid 5′-p-aminophenylphosphate, a reagent that does not penetrate the plasma membrane. Ghosts were isolated, and the oligomers, covalently linked at their 5′ ends to the outer surface of the membrane, were extended by treatment with terminal deoxynucleotidyl transferase in the presence of deoxythymidine triphosphate. The membranes were dissolved in sodium dodecyl sulfate, and complexes containing cell surface components were isolated by hybridization to polyriboadenylic acid-agarose. The cell surface components were regenerated by treatment with nuclease P₁ in the presence of Triton X100. Sodium dodecyl sulfate/polyacrylamide gels of the regenerated material showed bands III, PAS-1, PAS-2, and PAS-3, i.e. the major proteins known to be accessible at the outer surface of the human erythrocyte. The method should be useful for the isolation of surface components in other cell types.     

Identification of the protein producing transmembrane diffusion pores in the outer membrane of Pseudomonas aeruginosa PA01.

The outer membrane of Pseudomonas aeruginosa PA01 is permeable to saccharides of molecular weights lower than about 6000. Triton X-100/EDTA-soluble outer membrane proteins were fractionated by ion-exchange chromatography in the presence of Triton X-100 and EDTA, and the protein contents of the various fractions analysed by sodium dodecyl sulphate polyacrylamide gel electrophoresis. Each of the major protein bands present in the Triton X-100/EDTA soluble outer membrane was separated from one another. Adjacent fractions were pooled, concentrated and extensively dialyzed to reduce the Triton X-100 concentration. Vesicles were reconstituted from lipopolysaccharide, phospholipids and each of these dialyzed fractions, and examined for their ability to retain [14C]sucrose. Control experiments indicated that the residual levels of Triton X-100 remaining in the dialyzed fractions had no effect on the formation or permeability to saccharides of the reconstituted vesicles. It was concluded that a major outer membrane polypeptide with an apparent weight of 35,000 is a porin, responsible for the size-dependent permeability of the outer membrane.     

Glycoproteins and glycosaminoglycans synthesized by human keratinocytes in culture. Their role in cell-substratum adhesion.

Glycoproteins and proteoglycans synthesized by human keratinocytes in medium containing D-[1-14C]glucosamine were extracted and analysed by polyacrylamide-gel electrophoresis in the presence of sodium dodecyl sulphate. Extraction of the labelled keratinocytes with 0.5% Triton X-100 removed most of the glycoconjugates and left the cytoskeleton and nuclear residue adherent to the substratum. In addition to the cytoskeletal proteins, there was a relatively simple profile of glycoproteins and glycosaminoglycans associated with this adherent cytoskeleton. These consisted of eight glycoproteins in the mol.wt. range 99000-232000, five proteins in the keratin region (mol.wt. 42000-61000), hyaluronic acid and a sulphated glycosaminoglycan. Surface labelling of the keratinocytes with galactose oxidase (with or without neuraminidase)/KB3H4 revealed that many of the glycoproteins were exposed on the cell surface. The importance of the glycoproteins and proteoglycans in attaching the keratinocytes to the substratum was examined by studying their expression after incubation in medium containing tunicamycin and their degradation after digestion with trypsin and hyaluronidase. These studies, together with an examination of the glycoconjugates released by sequential extraction with 0.5% Triton X-100 followed by 0.2% sodium dodecyl sulphate, revealed that the glycoprotein of mol.wt. 232000 has an important role in mediating the attachment of keratinocytes to the substratum.     

Paramorphogenic and genotoxic activity of Triton X-100 and sodium dodecyl sulphate in Aspergillus nidulans

The genotoxic activities of Triton X-100 and sodium dodecyl sulphate in Aspergillus nidulans were assessed in order to evaluate their relative merits as paramorphogenic agents. Triton X-100 was found to be ideally suited to this purpose due to its efficient paramorphogenic effect and lack of genotoxicity. Sodium dodecyl sulphate was considered unsuitable since it reduced viability and was inconsistent in its paramorphogenic action.     

The effect of carboxymethylating a single methionine residue on the subunit interactions of glycophorin A.

Human red cell glycophorin A shows an equilibrium between dimeric and monomeric forms which have been disignated PAS-1 and PAS-2, respectively. This equilibrium, which is dependent upon protein concentration is achieved by incubation in sodium dodecyl sulfate solutions at elevated temperatures and is assayed by sodium dodecyl sulfate gel electrophoresis. Carboxymethylation of glycophorin A in guanidine hydrochloride or urea alters the interactions between polypeptide chains so that the lower molecular weight form (PAS-2) is obtained much more readily. If the carboxymethylation is performed at pH 3.0 the reaction is limited to the two methionine residues of glycophorin A which are located at positions 8 and 81 in the sequence. In the presence of sodium dodecyl sulfate, only one of the two methionine residues is carboxymethylated, and glycoprotein modified under these conditions does not exhibit the change in electrophoretic mobility. Experiments with [1-14C]iodoacetic acid demonstrated that Met-81, located in the hydrophobic domain of the protein, is the residue protected by sodium dodecyl sulfate. Modification of Met-81 destabilizes the dimeric form relative to the monomer by weakening the interactions between polypeptide chains. The experiments described in this paper confirm that the hydrophobic domain of glycophorin A is involved in subunit interactions and that Met-81 plays a critical role in those interactions.     

Interrelationships between protein kinases and spectrin phosphorylation in human erythrocytes

Casein kinase and histone kinase(s) are solubilized from human erythrocyte membranes by buffered ionic solutions (0.1 mM EDTA and subsequent 0.8 M NaCl, pH 8) containing 0.2% Triton X-100. Casein kinase is separated from histone kinase(s) by submitting the crude extracts directly to chromatography on a phosphocellulose column, eluted with a continuous linear gradient of potassium phosphate buffer, pH 7.0, containing 0.2% Triton X-100. Under these conditions, the membrane-bound casein kinase activity is almost completely recovered into a quite stable preparation, free of histone kinase activity. In contrast, it undergoes a dramatic loss of activity when the extraction and the subsequent phosphocellulose chromatography are carried out with buffers which do not contain Triton X-100. Isolated spectrin, the most abundant membrane protein, is phosphorylated, in the presence of [gamma-32P]ATP, only by casein kinase while histone kinase is ineffective. Only the smaller subunit (band II) of isolated spectrin (and not the larger one (band I) is involved in such a phosphorylation process, as in the endogenous phosphorylation occurring in intact erythrocytes.     

Effect of beta-cyclodextrin on the renaturation of enzymes after sodium dodecyl sulfate-polyacrylamide gel electrophoresis

Activity gel assays require a long incubation time (several hours) on renaturation of enzymatic activity after sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). To reduce the incubation time, we used a novel renaturation buffer containing cyclic oligosaccharide β-cyclodextrin (β-CD) which is capable of capturing SDS. Yeast α-glucosidase, used as a model protein, was run on SDS-PAGE, and then the gel matrix was incubated in a variety of renaturation buffers. Compared with conventional renaturation buffers containing Triton X-100 or isopropanol, our novel renaturation buffer containing β-CD can restore enzymatic activity within 10 min. Therefore, this new format represents a good alternative with reduced incubation time for activity gel assays.     

Quantitative immunoelectrophoresis of proteins in human erythrocyte membranes. Analysis of protein bands obtained by sodium dodecyl sulfate-polyacrylamide gel electrophoresis.

1. We have defined conditions that permit quantitative immunoelectrophoresis in agarose gels of dodecyl sulfate-solubilized erythrocyte membrane proteins. 2. Using human serum albumin, transferrin, MN-glycoprotein (glycophorin) and crude spectrin as test proteins, we found that accurate analyses are possible if samples and gels are 1% in non-ionic detergent (Berol EMU-043) or Triton X-100) and if no more than 100 nmol free dodecyl sulfate is applied per sample. 3. Dodecyl sulfate treated membranes analyzed by crossed immunoelectrophoresis using rabbit antibodies against membrane material yielded optimal precipitation patterns in gels containing 1% of non-ionic detergent. 4. Crossed immunoelectrophoresis in the presence of 1% of Berol revealed precipitates when 10 protein bands defined and isolated by preparative dodecyl sulfate-polyacrylamide gel electrophoresis were run against anti-membrane antibodies. Seven of these bands showed more than one precipitation arc, indicating the presence of more than one antigenic component. 5. Crossed-line immunoelectrophoresis showed that dodecyl sulfate-polyacrylamide gel electrophoresis bands 1, 2 and 2.1 shared common antigenic components. The MN-glycoprotein was present in bands 3, 4A, 4B and 5, where antigenic components of the major intrinsic erythrocyte membrane protein, band 3, were also found. 6. After absorption of the anti-membrane antibody with intact erythrocytes, immunoelectrophoresis showed the disappearance of the MN-glycoprotein precipitates. An increase in the area below the precipitate corresponding to the major intrinsic protein (band 3) was also observed, indicating exposure of some antigens of this protein on the outer surface of intact cells. 7. After absorption of the antibody preparation with washed erythrocyte membranes, immunoprecipitates were not seen in any experiments, indicating that all antigenic determinants observed are exposed at one or both surfaces of the membrane. 8. Our analyses indicate that the peptide moieties of serum lipoproteins do not constitute a significant component of erythrocyte membranes.     

Glycophorins B and C from human erythrocyte membranes. Purification and sequence analysis

We have developed methods for the preparative purification of two sialoglycoproteins (glycophorins B and C) from human erythrocyte membranes by high-performance ion exchange and gel permeation chromatography in the presence of Triton X-100. Glycophorin B was obtained without any detectable contaminants, and glycophorin C exhibited a purity of about 90-95%. The amino acid sequence of the intramembranous domain (residues 36-71) of glycophorin B was determined and found to be similar to that of the hydrophobic region of the major sialoglycoprotein (glycophorin A). The amino acid sequence of the hydrophobic domain (residues 49-88) of glycophorin C, that was also determined, agreed completely with the structure recently deduced from cDNA sequencing.     

Purification of glycoproteins IIb and III from human platelet plasma membranes and characterization of a calcium-dependent glycoprotein IIb-III complex

Human platelet membrane glycoproteins IIb and III are two major integral membrane components that have been identified as sites mediating thrombin-induced aggregation. For purposes of our study, glycoproteins IIb and III were solubilized by extracting platelet plasma membranes with a buffer containing 0.1% Triton X-100 and were separated by gel filtration chromatography on Sephacryl S-300, employing Triton X-100-containing column buffers with or without urea or guanidine hydrochloride. The physical properties of the purified glycoproteins were: for glycoprotein IIb, Rs = 61 A, s20.w = 4.7, f/f0 = 1.7, Mr = 125,000 (hydrodynamic values), Mr = 136,000 (sodium dodecyl sulfate gels); for glycoprotein III, Rs = 67 A, s20,w = 3.2 f/f0 = 2.1, Mr = 93,000 (hydrodynamic values), Mr = 95,000 (sodium dodecyl sulfate gels). Although the amino acid compositions of the two glycoproteins were similar, antibodies raised against glycoprotein IIb did not crossreact with glycoprotein III. If divalent cations were not chelated in the Triton extract, glycoproteins IIb and III coeluted during gel filtration chromatography (apparent Stokes radius of 71 A) and co-sedimented on sucrose gradients (apparent s20.w of 8.6), from which Mr = 265,000 was calculated. Glycoproteins IIb and III were coprecipitated by an antibody monospecific for glycoprotein IIb. The two glycoproteins dissociated into monomers when EDTA was added to Triton lysates. Readdition of Ca2+ caused them to reassociate into a complex with physical properties similar to those of the complex in the original Triton lysate. The data show that glycoproteins IIb and III are a heterodimer complex, that complex formation depends upon the presence of Ca2+, and that chelation of Ca2+ causes dissociation into monomeric glycoproteins.     

Chromatography of a Triton extracted beef cardiac cytochrome C1 preparation on diethylaminoethyl cellulose.

During the chromatography of a Triton X-100 extracted preparation of the mitochondrial membrane proteins on diethylaminoethyl cellulose, we have observed two chromatographic fractions containing cytochrome c1. One elutes from diethylaminoethyl cellulose with aqueous buffers alone, and the other elutes with those buffers after the addition of the nonionic detergent Triton X-100. The two forms occur in equimolar ratios and each retains its original chromatographic character on rechromatography, with no conversion of one form into the other.