Blood group A and H determinants in polyglycosyl peptides of A1 and A2 erythrocytes

Polyglycosyl peptides were isolated from delipidated erythrocyte membranes of human blood-group A1 and A2 erythrocytes by extensive pronase digestion and gel filtration. As estimated by the amounts of N-acetylgalactosamine and 2-O-substituted galactose residues about 85% of the possible acceptor sites (H determinants) were saturated with A determinants in A1 polyglycosyl peptides whereas only 25% of H sites were filled in A2 glycopeptides. The distribution of A and H determinants in the glycopeptides was studied by affinity chromatography with Sepharose-bound Bandeiraea simplicifolia I-lectin (binds blood-group A and B determinants) and Ulex Europeaus I-lectin (binds blood-group H determinants). About 55% of the polyglycosyl peptides contained A, H, or A and H determinants in both A1 and A2 blood subgroups. 48% of the polyglycosyl peptides of blood group A1 and 10% of A2 bound to Bs I-lectin. 25% of the polyglycosyl peptides in A1 and 53% in A2 carried H determinants. The molecular size, monosaccharide composition and the substitution pattern of the monosaccharides in the Bs-I-bound polyglycosyl peptides were very similar in both A1 and A2 blood groups. The only difference was the amount of N-acetylgalactosamine which was on the average 3.7 mol/mol in A1 and 2.5 mol/mol in A2. The active fraction was found to be heterogeneous with respect to the amount of A determinants, which varied from 1 to 6 per glycopeptide in A1 and A2 polyglycosyl peptides. The findings do not indicate a structural difference between blood-group A1 and A2 polyglycosyl peptides and state chemically that A1 glycopeptides contain more A determinants than A2 glycopeptides.     

Protein components in the very low density lipoproteins of hen's egg yolks. Identification of highly aggregating (gelling) and less aggregating (non-gelling) proteins.

Apoproteins of hen's egg yolk very low density lipoprotein has been separated by Sephadex G-200 gel filtration in 0.5% sodium dodecyl sulfate into three categories of proteins termed apoprotein A, apoprotein B and apoprotein C. Apoprotein A fraction consists of several aggregated proteins (linked possibly by -S-S- bridges) as shown by acrylamide gel electrophoresis in the presence of 2-mercaptoethanol. Apoprotein B contains two major protein components, B1 and B2, with molecular weights of 78 000 and 64 000, respectively, and two minor proteins components. Apoprotein C was obtained in a pure form as a low molecular weight, -S-S- linked dimer protein and accounted for about 30% of the total protein. In the monomeric form, apoprotein C has a molecular weight of 9400. Apoprotein A and apoprotein B have similar amino acid composition, except in isoleucine content which is over two times in apoprotein B as compared to apoprotein A. Apoprotein C lacks histidine and is richer in arginine than apoproteins A or B. Apoprotein C has lysine as N-terminal, while apoproteins A and B have predominantly arginine as the N-terminal amino acid. All the three fractions contain carbohydrate residues, apoprotein B being the richest in carbohydrate content. Cold-stored apoproteins A forms a clear gel when dispersed in 0.5% sodium dodecyl sulfate at concentration of above 2 mg/ml, while apoprotein B forms a gel only above 10 mg/ml. Apoprotein C, even at 35 mg/ml, forms a clear solution with no tendency to gel.     

External labeling of human erythrocyte glycoproteins. Studies with galactose oxidase and fluorography.

Glycoproteins of the human erythrocyte membrane were labeled with tritiated sodium borohydride after oxidation of terminal galactosyl and N-acetylgalactosaminyl residues with galactose oxidase. After separation of the polypeptides on polyacrylamide slab gels, a scintillator was introduced into the gel, and the radioactive proteins were visualed by autoradiography (fluorography). The following results were obtained. (a) The erythrocyte membrane contains at least 20 glycoproteins, many of which are minor components. (b) The carbohydrate of all the labeled glycoproteins is exposed only to the outside, since no additional glycoproteins can be labeled in isolated unsealed ghosts. (c) The membrane contains two major groups of glycoproteins. The first group of proteins contains sialic acids linked to the penultimate galactosyl/N-acetylgalactosaminyl residues, which are efficiently labeled only after pretreatment with neuraminidase. The second group has terminal galactosyl/N-acetylgalactosaminyl residues which can be easily labeled without neuraminidase treatment. The glycoproteins from fetal erythrocytes all belong to the first group, whereas only five glycoproteins of erythrocytes from adults belong. (d) Trypsin cleaves the proteins containing sialic acids, and fragments containing carbohydrate remain tightly bound and exposed in the membrane. (e) Pronase cleaves Band 3 in addition to the sialic acid containing glycoproteins, but most of the glycoproteins still remain unmodified in the membrane. (f) No difference is seen between membrane glycoproteins from cells of different ABH blood groups.     

Mass spectrometric analysis of permethylated glycosphingolipids II. Comparative studies on different blood-group active and related erythrocyte membrane glycosphingolipids

Three isomeric ceramide tetrasaccharides — P blood-group active globoside, lacto-N-neotetraosyl ceramide as ABH blood-group precursor, both isolated from human erythrocytes and “asiologanglioside” from human brain as reference standard — and two ceramide pentasaccharides — H blood-group active glycosphingolipid, obtained from blood-group B active ceramide hexasaccharide of human B erythrocytes after α-galactosidase treatment and ceramide pentasaccharide from rabbit erythrocytes with B-like blood-group activity — were investigated by mass spectrometry after permethylation. The carbohydrate moiety exhibits differences not only concerning the sugar sequence but also with regard to the position of some glycosidie linkages: Oligosaccharides containing N-acetylhexosamine substituted at position 4 produce spectra that are distinctly different from those containing C-3 substituted N-acetylhexosamines, thus allowing the differentiation between type 1 and type 2 carbohydrate chains. Moreover, oligosaccharide ions with a hexose at the cleavage site exhibit a fragmentation pattern different from those with a N-acetylhexosamine at the “reducing terminal”. The intensity ratio between parent ion and parent ion — 32 mass units is Q ? 3 in the first case, whereas in the latter case Q is <1. The Q-values are given for 14 oligosaccharide ions. Differences in the composition of the ceramide residues can also be deduced from the mass spectra.     

A blood group A specific lectin from the seeds of Crotalaria striata

A lectin, monospecific for human blood group A red blood cells was extracted from seeds of Crotalaria striata and purified by molecular sieving on Sephadex G-100 and ion-exchange on DEAE-cellulose. A molecular mass of 30 kDa was determined by SDS-polyacrylamide gel electrophoresis under non-reducing and reducing conditions. Molecular sieving on a Superose 12 column indicated a molecular mass of 110 kDa, suggesting the tetrameric nature of the native protein. Amino-acid composition showed the presence of aminated carbohydrate residues on the lectin. N-terminal amino-acid sequencing showed a striking similarity with the N-terminal sequence of the lectin from Crotalaria juncea, which is blood-group non-specific. The potency order of agglutination inhibition with galactose containing monosaccharides was N-acetyl-D-galactosamine greater than D-galactose greater than D-galactosamine as found for blood-group-A-specific lectins from other species.     

Isolation and characterization of gliadins from Aegilops squarrosa seeds

The major gliadin components were isolated from the seeds of the diploid species Aegilops squarrosa, a putative source of polyploid wheat D-genome. The isolation procedure included gel-filtration and reversed-phase high-performance liquid chromatography (HPLC). The purified proteins were characterized by electrophoretic mobility in polyacrylamide gel using acid Al-lactate system and a system containing sodium dodecyl sulfate. The amino acid composition of isolated omega-gliadins was determined. Using covalent chromatography on thiopropyl-Sepharose 6B it was found that omega-gliadins of A. squarrosa contain no SH-groups and/or S-S-bonds. The N-terminal amino acid sequences of A. squarrosa gliadins were determined. omega-Gliadins were found to contain three types of N-terminal amino acid sequences, one of which, SRQ, in hexaploid wheat is encoded by 1B chromosome. It was shown that some omega-gliadins of A. squarrosa have blocked N-terminal amino acids. The major component of the gamma-fraction was found to contain an N-terminal sequence of gamma 2 type encoded in polyploid wheat by 1D chromosome. Gliadins with electrophoretic mobility in the beta-zone of the spectrum possess the N-terminal sequence of alpha-type. The results obtained are discussed in terms of the origin of polyploid wheat genomes.     

Two-dimensional polyacrylamide-gel electrophoresis of the proteins and glycoproteins of the human erythrocyte membrane.

A two-dimensional polyacrylamide gel electrophoresis technique has been developed, improving the analytical separation of some proteins and glycoproteins of the human erythrocyte membrane. Freshly prepared membranes are totally solubilized, subjected to dodecylsulfate--polyacrylamide gel electrophoresis in the first dimension, followed by electrophoresis in the second dimension, using a detergent-free polyacrylamide gradient gel. By this method the proteins of the human erythrocyte membrane could be resolved into a two-dimensional pattern, which has been shown to be highly reproducible with respect to various blood-groups and within one blood-group from specimen to specimen. The method enables especially the investigation of the hydrophobic and very likely integrated membrane proteins and glycoproteins. Thus, band III[Fairbanks, G., Steck, Th. & Wallach, D. F. H., Biochemistry, 10, 2606--2617 (1971)] could be shown to consist of five proteins, one of them being the major glycoprotein of the human erythrocyte membrand. The two spectrin bands differed considerably in their two-dimensional patterns. The value of the given method for the investigation of membrane defects, which may be linked with various diseases of human erythrocytes, could be demonstrated in the case of two patients suffering from congenital dyserythropoetic anaemia.     

Lectins as biochemical agents for the isolation of sealed membrabe vesicles of defined polarity

The asymmetric distribution of carbohydrate on biological membranes has provided the basis for the development of lectin-affinity methodology which permits the isolation of sealed, inside-out membrane fractions from heterogeneous populations of vesicles.Optimal conditions for these separations have been assessed employing purified right-side-out and inside-out vesicles derived from the plasma membrane of human erythrocytes as a model system. In this special case, homogeneous populations of defined polarity can be produced by varying the ionic conditions during formation of the vesicles. Surface-specific enzymic markers exist also for monitoring the integrity and orientation of a given population.Multivalent lectins such as wheat germ agglutinin and soya bean agglutinin, which induce direct agglutination of erythrocyte membrane fragments containing accessible carbohydrate residues, selectively remove more than 90% of right-side-out and non-sealed membrane from mixed population, a reaction which is inhibited by GluNAc or GalNAc, respectively.Non-agglutinating lectins, e.g. concanavalin A, immobilized on an inert matrix such as Sepharose 4B, may be employed to adsorb out specifically vesicles with exposed glycopeptides on their surface. In this technique, it is necessary normally to remove the non-sealed membranes on Dextran density gradients prior to the final preparation of inside-out vesicles on Con A-Sepharose.Finally, selective immunoprecipitation of fragments with accessible sugars may also be achieved after treatment with a non-agglutinating lectin (concanavalin A) followed by incubation with anti-concanavalin A IgG which promotes rapid aggregation of membrane containing exposed receptors for the lectin.These procedures should prove generally suitable for the isolation of tightly-sealed, inside-out membrane populations in a variety of biological systems. Pure populations of vesicles, exhibiting reversed polarity, are valuable in surface-labelling studies for investigating the structure, function and transmembrane distribution of integral membrane proteins/glycoproteins.     

Interaction of glycophorin A with lectins as measured by surface plasmon resonance (SPR)

Glycophorin A (GPA), the major sialoglycoprotein of the human erythrocyte membrane, was isolated from erythrocytes of healthy individuals of blood groups A, B and O using phenol-water extraction of erythrocyte membranes. Interaction of individual GPA samples with three lectins (Psathyrella velutina lectin, PVL; Triticum vulgaris lectin, WGA and Sambucus nigra I agglutinin SNA-I) was analyzed using a BIAcore biosensor equipped with a surface plasmon resonance (SPR) detector. The experiments showed no substantial differences in the interaction between native and desialylated GPA samples originating from erythrocytes of either blood group and each of the lectins. Desialylated samples reacted weaker than the native ones with all three lectins. PVL reacted about 50-fold more strongly than WGA which, similar to PVL, recognizes GlcNAc and Neu5Ac residues. SNA-I lectin, recognizing alpha2-6 linked Neu5Ac residues, showed relatively weak reaction with native and only residual reaction with desialylated GPA samples. The data obtained show that SPR is a valuable method to determine interaction of glycoproteins with lectins, which potentially can be used to detect differences in the carbohydrate moiety of individual glycoprotein samples.     

Properties of the arginine esterases from Bitis nasicornis (horned adder) venom

Five forms of arginine esterase (DE-2 to DE-6) were purified from Bitis nasicornis venom by gel filtration on Sephadex G-50, followed by ion exchange chromatography on CM-cellulose and DEAE-sepharose. They contain 17.6 to 23.1% of carbohydrate, 242 to 244 amino acids including 14 half-cystine residues and have molecular masses of about 38 kDa. The enzymes have a high esterolytic activity towards N alpha-benzoyl-L-arginine ethyl ester but show no proteolytic activity against Azocoll and no clotting activity against fibrinogen. Their sequences of the first 19 amino-terminal residues are the same, but their carbohydrate content shows some variation. Furthermore, sequence studies on the N-terminal regions of the arginine esterases from B. nasicornis venom indicate that they share a significant degree of sequence homology with the kallikrein-like enzymes of Crotalus adamanteus and C. atrox venoms and also with porcine pancreatic kallikrein. Studies on tryptic glycopeptides of the arginine esterases show that carbohydrate occurs at the N-terminal region of the molecule and also towards the center.     

Isolation and characterization of the vitelline layer of sea urchin eggs

The vitelline layers (VLs) of unfertilized sea urchin eggs were isolated by homogenization in a hypotonic medium containing Triton X- 100 and EDTA. The surface topography of the VL is not changed by isolation. The thickness of the isolated VLs (300-400 A) is greater than that reported for VLs on intact eggs (100-200 A). Sperm adhere to the isolated VLs. When both internal and external VL surfaces are accessible to sperm, the sperm attach only to the external surface, suggesting that the external surface may carry sperm receptor proteins not present on the internal surface. Sodium dodecyl sulfate (SDS)- polyacrylamide gel electrophoresis shows that isolated VLs are composed of numerous proteins ranging from greater than 213,000 to 25,000 daltons. Lactoperoxidase-catalyzed 125I-iodination of unfertilized eggs labels two high molecular weight bands that stain faintly for carbohydrate. VLs are 90% protein and 3.5% carbohydrate. No predominance of a single amino acid or class of amino acids was found. Carbohydrate analysis yields fucose, mannose, galactose, glucose, xylose, glucosamine, galactosamine, and sialic acid. Controls for purity indicate that isolated VLs contain 2% protein of cytoplasmic origin and no more than 2.5% egg jelly.     

Composition and distribution of carbohydrate chains in glycoproteins of human erythrocyte membrane

The M-, N-, and MN-glycoproteins obtained from human erythrocytes by phenol-water extraction were purified by gel filtration and digested with Pronase and trypsin. The products of degradation were fractionated by gel filtration on Sephadex G-25 and DEAE-Sephadex A-50 and the fractions were examined by poly(acrylamide)-gel electrophoresis in the presence of dodecyl sodium sulfate, analyzed for carbohydrate and amino acid contents, and tested for M and N blood-group activity. From the results, it is suggested that the glycoprotein chains are composed of a hydrophobic moiety devoid of carbohydrate chains and a hydrophilic moiety containing carbohydrate chains of different compositions, irregularly distributed along the protein chains and linked to L-asparagine, L-serine, or L-threonine residues. The M and N activity typical for the undegraded glycoproteins, and the “basic” or “precursor-type” N activity, were found in different glycopeptide fractions.     

Isolation and characterization of major intrinsic microsomal membrane proteins.

Treatment of the membrane matrix derived from hepatic microsomes with buffered 1 M urea resulted in the selective extraction of a group of proteins together with a portion of the membrane lipid. Thorough chemical characterization of this fraction has been performed, and the proteins have been fractionated by two different procedures. The first of these, preparative polyacrylamide gel electrophoresis, has produced five highly homogeneous membrane proteins which have been characterized with regard to molecular weight, electrophoretic behavior in five different polyacrylamide systems, NH2 terminus, relative carbohydrate content, isoelectric point, and amino acid composition. The five proteins of this group fell in the molecular weight range of 54,000 to 96,000 and had isoelectric points ranging from pH 4.9 to pH 6.7. Further fractionation of the urea-soluble proteins by gel filtration in a sodium dodecyl sulfate-containing medium resulted in the isolation of four homogeneous molecular weight classes of proteins which have been characterized with respect to various physicochemical parameters. The major membrane glycoprotein (apparent molecular weight, 171,000) was isolated by this procedure and found to contain approximately equal amounts of NH2-terminal glycine and serine. suggesting the presence of at least two polypeptide chains in this molecular weight region. From the urea-insoluble fraction of the membrane comprising approximately 80% of the total protein, five intrinsic polypeptides designated S-5 through S-9 were isolated. S-5 (54,000) and S-6 (49,000) represent the most prominent components in the microsomal membrane, accounting for close to 30% of the total protein. Also isolated and characterized is the smallest membrane protein (S-9), a hydrophobic polypeptide of molecular weight 16,000. All of the urea-insoluble proteins are glycoproteins, and S-7 (35,000) gives the second most intense stain for carbohydrate of all proteins in the microsomal membrane.     

Hydrophobic proteins of lamellated osmiophilic bodies isolated from pig lung.

1. In addition to proteins that are insoluble in organic solvents, lamellated bodies isolated from pig lung and surfactant prepared from bronchopulmonary lavage fluid contain another group of proteins that are extracted together with lipid into the organic phase. 2. These hydrophobic proteins constitute about 40% of the total protein of lamellated bodies and about 13% of the total protein of surfactant isolated from lavage fluid, whereas less than 1% of the total protein of pig lung microsomal fraction and mitochondria is extracted by organic solvents. 3. The hydrophobic proteins of lamellated bodies were separated into four fractions and freed from phospholipid by chromatographic procedures. Their apparent molecular weights vary between 11 500 and 16 500, they contain 72--79% of hydrophobic residues and 16--22% of sulphur-containing amino-acids, and leucine is the major N-terminal amino acid in each case.     

The stereospecificity of protein kinases

To test whether cellular protein kinases exist that phosphorylate D-amino acid residues, a method was developed for separating O-phospho-D-serine from O-phospho-L-serine and O-phospho-L-tyrosine from O-phospho-D-tyrosine. This was accomplished by converting these amino acids to the L-leucyl dipeptide derivatives followed by separation of the diastereomers by anion-exchange high-performance liquid chromatography. The enantiomeric content of these D- and L-residues were measured in hydrolysates of 32P-labeled proteins produced by the protein kinases of human erythrocytes and the tyrosyl protein kinase of the Abelson leukemia virus. We found no measurable D-phosphoserine in erythrocyte membrane proteins under conditions where a 1% content of this residue relative to L-phosphoserine would have been detected. These values can be used to place an upper hypothetical limit on the fraction of erythrocyte protein kinase activity that is specific for serine residues in the D-configuration. In separate experiments, we examined the specificity of the tyrosyl protein kinases. We found that all of the phosphotyrosine that we isolated from the erythrocyte band 3 NH2-terminal fragment and from the autophosphorylation of the Abelson virus tyrosyl kinase was in the L-configuration.     

Isolation and characterization of a receptor for type 1 fimbriae of Escherichia coli from guinea pig erythrocytes

The adhesion of Escherichia coli to eukaryotic cells is mediated by proteinaceous surface appendages called fimbriae and complementary receptors on host cells. Although type 1 fimbriae, which contain a D-mannose-reactive lectin, have been well studied little is known about the binding mechanism of isolated fimbriae to individual cell receptors. This report describes the isolation and purification of a guinea pig erythrocyte receptor for type 1 fimbriae. Erythrocyte membranes were dissolved in 0.5% Triton X-100 and the receptor isolated and purified by affinity chromatography using type 1 fimbriae immobilized on Sepharose. The 65-kDa receptor, which inhibits the agglutination of guinea pig erythrocytes by type 1 fimbriated E. coli, has a pI of 8.5-8.7, and binds concanavalin A and type 1 fimbriae in a dose-dependent and saturable manner. The fimbrial binding activity of the receptor was reduced when treated with sodium metaperiodate, endoglycosidase H, trypsin, and V8 protease, suggesting the isolated receptor is a glycoprotein with N-linked carbohydrate units. Isolated type 1 fimbriae inhibited the binding of fimbriated E. coli to purified receptor in a dose- and time-related fashion. The calculated binding affinity was 6 X 10(6) M-1, a value consistent with the low binding affinity expected from previous studies of the agglutination of guinea pig erythrocytes by isolated type 1 fimbriae.     

Localization of the C termini of the Rh (rhesus) polypeptides to the cytoplasmic face of the human erythrocyte membrane.

We have raised a rabbit antiserum to a synthetic peptide corresponding to the C terminus (residues 400-416) of the Rh30A polypeptide. The rabbit antiserum reacted with the Rh30B (D30) polypeptide in addition to the Rh30A (C/c and/or E/e) polypeptide(s), indicating that these proteins share homology at their C termini. The antiserum did not react with erythrocyte membranes from an individual with Rh(null) syndrome. The rabbit antiserum immunoprecipitated Rh polypeptides from erythrocyte membranes and alkali-stripped membranes, but not from intact erythrocytes. Treatment of intact red cells with carboxypeptidase Y did not affect the reactivity of the antiserum, whereas treatment of alkali-stripped and unsealed erythrocyte ghost membranes resulted in the loss of antibody binding. Carboxypeptidase A treatment of intact erythrocytes and alkali-stripped membranes had no effect on antibody binding, indicating that the C-terminal domains of the Rh polypeptides contain lysine, arginine, proline, or histidine residues. These results show that the C termini of the Rh polypeptides are located toward the cytoplasmic face of the erythrocyte membrane. Treatment of intact radioiodinated erythrocytes with bromelain followed by immunoprecipitation with monoclonal anti-D gave a band of M(r) 24,000-25,000, indicating that the Rh30B (D30) polypeptide is cleaved at an extracellular domain close to the N or C terminus, with loss of the major radioiodinated domain. Immunoblotting of bromelain treated D-positive erythrocyte membranes with the rabbit antiserum to the C-terminal peptide revealed a new band of M(r) 6000-6500, indicating that the extracellular bromelain cleavage site is located near the C terminus of the molecule. The band of M(r) 6000-6500 was not obtained in erythrocyte membranes derived from bromelain treated D-negative erythrocytes. Erythrocytes of the rare -D- phenotype appear to either totally lack, or have gross alterations in, the Cc/Ee polypeptide(s), since the bromelain treatment of these cells resulted in the total loss of staining in the M(r) 35,000-37,000 region and the concomitant appearance of the new band of M(r) 6000-6500.     

Two individuals with elliptocytic red cells apparently lack three minor erythrocyte membrane sialoglycoproteins.

We have studied the erythrocytes of two individuals (P. L. and K. W.) who lack the Gerbich (Ge) blood-group antigen. The erythrocytes of P. L. and K. W. were not reactive with two monoclonal antibodies (NBTS/BRIC 4 and NBTS/BRIC 10) which reacted with normal erythrocytes. The membranes of P. L. and K. W. erythrocytes appeared to lack three minor sialoglycoproteins (beta, beta 1 and gamma). These three minor sialoglycoproteins were found to be associated with the cytoskeletons of normal erythrocytes. Approx. 10% of the erythrocytes of P. L. and K. W. were frankly elliptocytic. We suggest that one or more of the minor sialoglycoproteins may play a part in maintaining the discoid shape of the human erythrocyte.     

The isolation and partial characterization of a glycoprotein isolated from human gastric aspirates and from extracts of gastric mucosae

The isolation and partial characterization of a glycoprotein isolated from individual gastric aspirates and extracts of gastric mucosae solubilized with N-acetylcysteine is described.The isolated glycoproteins and the glycoproteins from proteolysed gastric aspirates showed virtually the same carbohydrate and amino acid composition. The results indicate that they consist of a protein core to which are attached carbohydrate side-chains composed of four sugars: N-acetylgalactosamine N-acetylglucosamine, galactose, fucose showing a ratio of 1 : 3 : 4 : 2. Superimposed on this basic structure were additional sugar residues, the blood-group determinants. The results also suggest that the carbohydrate side-chains are linked by an alkali-labile O-glycosidic linkage to the threonine and serine residues of the protein core, N-acetylgalactosamine forming the link.