Differences between individuals in high-molecular weight glycoproteins from mammary epithelia of several species

Milk fat globules are secreted by envelopment in plasma membrane of the lactating cell. SDS-gel electrophoresis of proteins from this membrane has revealed differences between milk donors in two mucin-like glycoproteins. One of these glycoproteins resolves in 3% acrylamide stacking gel and the other in 4% running gel. The proteins vary in number of bands (one or two) and band mobilities. This polymorphism arises, at least in part, from expression of hypervariable genes. In this study, gel electrophoretic evidence of similar polymorphism in glycoproteins from cow, chimpanzee, horse and human milks is presented. In distinction to the other species, the cow expressed only one of these proteins which was detected in the running gel at Mr 180,000 to 200,000. The electrophoresis pattern for this protein from six cows was highly varied with respect to number (one or two) and position of bands. Peanut agglutinin, wheat germ agglutinin and concanavalin A all were bound specifically by bands of the bovine glycoprotein. Binding of concanavalin A distinguishes the bovine protein from the two human glycoproteins. Further studies of species differences should help shed light on the evolution of these unique glycoproteins and their possible functions in mother and young.     

Purification and characterization of an estrogen-inducible membrane glycoprotein. Evidence that it is a transferrin receptor

A number of N-linked membrane glycoproteins are induced during chick oviduct differentiation. We have purified a major estrogen-inducible glycoprotein (Mr = 91,000) to homogeneity by preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Comparison of partial NH2-terminal sequence data with membrane glycoproteins having similar Mr showed a limited homology with human and murine transferrin receptors. We observed that oviduct membranes contain estrogen-inducible transferrin receptor activity (Kd = 2-8 x 10(-8) M). Analytical purification of the putative receptor on an ovotransferrin-Affi-Gel affinity column and sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis reveals a protein of Mr, 180,000, which contains two disulfide-linked subunits of Mr 91,000. The receptor reacts very strongly with antibodies prepared against the 91-kDa glycoprotein on Western blots. Western blot analysis confirms that the 91-kDa glycoprotein is induced by estrogen. The protein has 2% total carbohydrate with Man, GlcNAc, Gal, GalNAc, and NeuAc in a molar ratio of 6:4:2:1:1. The protein contains at least one O-linked moiety. Analysis of the O-linked moiety by glycosidase digestions and gel filtration indicates there are sialo tetra- and trisaccharides and a neutral disaccharide(s). Labeled N-linked glycopeptides were prepared by pronase digestion, beta-elimination, and 3H-acetylation. The N-linked oligosaccharides include high mannose and complex neutral nonbisected biantennary types in an approximate ratio of 3:1 as determined by serial lectin affinity chromatography.     

Cell surface constituents of sarcoma 180 ascites tumor cells

The cell surface protein components of Sarcoma 180 ascites tumor cells have been investigated by a combination of plasma membrane isolation techniques and lactoperoxidase iodination. For plasma membrane isolation cells were homogenized in the presence or absence of Zn²⁺ and fractionated by sucrose density gradient centrifugation or a two-phase partition to give large membrane fragments or membrane envelopes. Membrane purification was monitored by phase contrast microscopy and chemical and enzyme marker assays. The membrane preparations were analyzed by acrylamide gel electrophoresis in sodium dodecylsulfate. Each preparation showed a common protein pattern of about 15 bands ranging in molecular weights from 33 000 to >300000. Two carbohydrate-containing bands were also present in all preparations. Membranes prepared with Zn²⁺ were much less fragmented and showed much greater amounts of three high molecular weight components than those prepared in the absence of Zn²⁺. This might suggest a role for these components in membrane stabilization.The tumor cells were also subjected to iodination with lactoperoxidase, followed by membrane isolation and acrylamide gel electrophoresis in sodium dodecylsulfate in order to identify polypeptides accessible to the cell surface. The major radioactive band coincided with the major carbohydrate-containing band, presumably a surface glycoprotein. A second carbohydrate-containing band showed variable labeling behavior between different cell preparations. This material had a high molecular weight, as indicated by both acrylamide gel electrophoresis and gel permeation chromatography in dodecylsulfate. Several other components are labeled to a lesser extent in the intact cell.     

Studies on the turnover of plasma membranes in cultured mammalian cells. II. Demonstration of heterogeneous rates of turnover for plasma membrane proteins and glycoproteins.

The relative rate of turnover of individual membrane proteins and glycoproteins in exponentially growing and contact-inhibited MK2 cells was investigated. Plasma membranes were isolated from cells that had been sequentially labelled with 14-C and 3-H isotopes of leucine and glucosamine. The membranes were then solubilized in sodium dodecylsulfate and their polypeptides separated by acrylamide gel electrophoresis. The 3-H/14-C ratios of the individual polypeptides reflected their relative rates of turnover. The proteins and glycoproteins of the exponentially growing cells exhibited markedly heterogeneous rates of turnover. In contrast, polypeptides in membranes of contact-inhibited cells exhibited a lesser degree of heterogeneity of turnover. In both exponential and contacted cell membranes a glycoprotein with a high apparent molecular weight exhibited the fastest rate of turnover.     

Proteolysis of specific porcine zona pellucida glycoproteins by boar acrosin

The morphologic and biochemical effects on the structure and constituent glycoproteins of the zona pellucida (ZP) by a specific sperm enzyme, acrosin, and a nonsperm enzyme, trypsin, have been evaluated. Intact porcine ZP matricies, exposed to either acrosin or trypsin, were analyzed microscopically. Changes in specific glycoproteins were monitored by high-resolution two-dimensional polyacrylamide gel electrophoresis (2D-PAGE) and the silver-based color stain, GELCODE. Although these enzymes did not alter the macroscopic properties of the ZP matrix, the 2D-PAGE ZP protein patterns were markedly altered. The high molecular weight glycoprotein families (II and III) were sensitive to proteolytic digestion, whereas the major glycoprotein family (I) of the porcine zona was only partially proteolyzed by acrosin and trypsin. Furthermore, it was demonstrated that acrosin had unique substrate specificity compared to that of trypsin, since the ZP peptide patterns were found to be different. These studies are the first to demonstrate which integral glycoproteins of the native porcine ZP matrix are specifically proteolyzed by acrosin from the homologous species and that this proteolysis occurs without the dissolution of the native porcine matrix.     

Analysis of serine/threonine-linked oligosaccharides derived by alkaline-borohydride treatment of mucin glycoproteins electroblotted onto membranes: comparison of the saccharide profiles of the 390 kDa and 350 kDa forms of epitectin

Alkaline borohydride treatment is widely used for the release of carbohydrate moieties from O-glycosylated glycoproteins and mucins. We have adapted this procedure to micro quantities of glycoproteins blotted on membranes. After electrophoresis and transfer to nitrocellulose, nylon or polyvinylidene difluoride membrane, alkaline borohydride treatment was done directly on glycoprotein containing areas of membrane which were cut out with the aid of guide strips stained with Coomassie Blue or lectin-digoxigenin. In combination with standard saccharide fractionation techniques, this procedure can be used to characterize the oligosaccharides of mucins or mucin-type glycoproteins that are separated by gel electrophoresis from crude sources. Using this approach we have characterized the saccharides derived from the two species of epitectin, a malignancy-associated mucin type glycoprotein, isolated from metabolically labelled H.Ep2 cells.     

Soluble and membrane glycoproteins of the rat brain in radiation injury

The content of total protein, glycoproteins, and N-acetylneuraminic acid in different membrane fractions of rat brain tissues was studied 60 min and 24 h following X-irradiation with a dose of 0.31 C/kg. A slight increase in the amount of glycoproteins was noted upon electrophoresis due to the occurrence of low molecular weight carbohydrate-containing proteins. The derangement of the membrane glycoprotein structure is supposed to be one on the causes of radiation destruction of membranes.     

Lymphocyte plasma membranes. VI. Plasma membrane glycoproteins of thymic and splenic lymphocytes from inbred rats.

Plasma membranes of splenic and thymic lymphocytes from ACI rats were analyzed for their protein and glycoprotein components by surface radioiodination with 125I and SDS-polyacrylamide gel electrophoresis. The glycoproteins were extracted with lithium diiodosalicylate, characterized and assayed with antisera to thymic antigen. Plasma membranes of both cell types showed more than 25 proteins of which 10--15 were glycoproteins. Both cells showed five major glycoproteins but their apparent molecular weights or intensities differed. Surface radioiodination showed a 120 000 daltons component, common to both cell types, and a 27 000 daltons thymus-specific component as the most exposed surface glycoproteins. Lithium diiodosalicylate extracts of the plasma membranes contained almost all of the glycoprotein components and comprised 5-6 percent of the total membrane protein and 40-50 percent of the total membrane carbohydrate, with sialic acid content in thymus twice that of the spleen cells. About 1 percent of the total plasma membrane protein and 7 percent of the total isolated glycoproteins from thymocytes were reactive with rabbit anti-rat thymocyte antiserum and the immune precipitates showed two components with apparent molecular weights of 72 000 and 27 000.     

Comparative analysis of the membrane proteins and their specificities in neurons,protoplasmic astrocytes,and oligodendrocytes from rat brain

Plasma membranes from neuronal perikarya (N), protoplasmic astrocytes (A) and oligodendrocyies (O) of rat brains were analysed with respect to their protein and glycoprotein contents and specificities. SDS-polyacrylamide gel electrophoresis revealed a total number of 23, 17, and 17 major proteins in N, A, and O respectively. Periodate-Schiff's staining showed that approximately 40–60% of these proteins were glycoproteins. The reactivity of these glycoproteins to Con A and WGA was also studied. Selective iodination of whole cells followed by electrophoresis and autoradiography indicated that of the major proteins, only 25% of neuronal and 60% of astroglial and oligodendroglial membrane proteins were exposed outside the cell surface. The overall results suggest that membrane proteins of each of the three cell types studied here have characteristically different internal and external markers differing in size, glycoprotein content, and reactivity of the glycoproteins to lectins.     

Comparative studies on the glycoprotein composition of mammalian platelets.

1. The membrane glycoprotein composition of the blood platelets of 13 mammalian species has been compared by SDS-polyacrylamide gel electrophoresis. 2. A basic pattern of 2-3 predominant high molecular weight glycoprotein bands was observed, however species differences in their relative rates of migration and abundance were apparent. 3. Wide species differences in the number and rate of migration of the acidic glycopeptides released by trypsin digestion of washed platelet suspensions were observed following polyacrylamide gel electrophoresis in the absence of SDS.     

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.     

Studies on the turnover of plasma membranes in cultured mammalian cells.: II. Demonstration of heterogeneous rates of turnover for plasma membrane proteins and glycoproteins

The relative rate of turnover of individual membrane proteins and glycoproteins in exponentially growing and contact-inhibited MK₂ cells was investigated. Plasma membranes were isolated from cells that had been sequentially labelled with ¹⁴C and ³H isotopes of leucine and glucosamine. The membranes were then solubilized in sodium dodecylsulfate and their polypeptides separated by acrylamide gel electrophoresis. The ³H/¹⁴C ratios of the individual polypeptides reflected their relative rates of turnover. The proteins and glycoproteins of the exponentially growing cells exhibited markedly heterogeneous rates of turnover. In contrast, polypeptides in membranes of contact-inhibited cells exhibited a lesser degree of heterogeneity of turnover. In both exponential and contacted cell membranes a glycoprotein with a high apparent molecular weight exhibited the fastest rate of turnover.     

A comparison of intact human red blood cells and resealed and leaky ghosts with respect to their interactions with surface labelling agents and proteolytic enzymes

Resealed ghosts and intact red blood cells were directly compared with respect to their interactions with surface probes and to digestion by pronase. The amount and pattern of labelling of surface proteins by 4.4′-diisothiocyano-2,2′-stilbene disulfonic acid (DIDS) and by pyridoxal phosphate-borohydride (as seen after sodium dodecylsulfate/acrylamide gel electrophoresis) was substantially the same in cells and resealed ghosts under conditions in which a relatively small change would be apparent. In each membrane system, DIDS labels a protein component of apparent molecular weight 95 000 and pyridoxal phosphate labels the same protein plus three glycoprotein components. The sensitivity of surface proteins and of DIDS and pyridoxal phosphate-labelled sites to pronase was also similar in the cells and resealed ghosts. The glycoproteins were digested, in each case, and the 95 000 (molecular weight) protein was largely split into two portions of apparent molecular weights 65 000 and 35 000, with both portions containing DIDS and pyridoxal phosphate binding sites. The pattern of labelling of “leaky” ghosts by pyridoxal phosphate in the presence of hemoglobin was similar to the labelling of intact cells, provided that the pyridoxal phosphate was present on both the outside and inside of the cells. Virtually all of the major protein components visible by staining on acrylamide gels were labelled. It is concluded that none of the probes could detect any substatial differences in reactivity of proteins of the outer surface of the membrane of the ghosts as compared to the cells and that no irreversible changes in membrane protein conformation or arrangement occur as a consequence of lysis and resealing of ghosts, that are detectable by the reported procedures.     

Proteins Specified by Herpes Simplex Virus: II. Viral Glycoproteins Associated with Cellular Membranes

Membranes prepared from HEp-2 cells infected with herpes simplex virus and free from soluble proteins, virus, ribosomes, and other cellular constituents were solubilized and subjected to electrophoresis on acrylamide gels. The electropherograms showed the following. (i) The synthesis of host proteins and glycoproteins ceases after infection. However, the spectrum of host proteins in membranes remains unaltered. (ii) Between 4 and 22 hr postinfection, at least four glycoproteins are synthesized and bound to the smooth cytoplasmic membranes. On electrophoresis, these glycoproteins form two major and two minor bands in the gel and migrate with proteins ranging from 50,000 to 100,000 daltons in molecular weight. (iii) The same glycoproteins are present in all membranes fractionated by density and in partially purified virus. The implications of the data are discussed.     

Identification and characterization of glycoproteins after extraction of bovine chromaffin-granule membranes with lithium di-iodosalicylate. Purification of glycoprotein II from the soluble fraction.

Chromaffin-granule membranes were separated into insoluble and soluble fractions after extraction with lithium di-iodosalicylate (LDIS). These fractions were characterized by one- and two-dimensional gel electrophoresis, and glycoproteins were detected after electroblotting with peroxidase-labelled concanavalin A and wheat-germ agglutinin (WGA). The LDIS-insoluble fraction contained components identified as glycoproteins III, H, J and K (carboxypeptidase H). Microsequence analysis indicated that component J is an N-terminally extended form of glycoprotein K. A major glycoprotein, GpII (Mr 80,000-100,000), present in the LDIS-soluble fraction was purified by affinity chromatography on WGA-Sepharose. This was characterized by one- and two-dimensional gel electrophoresis with Coomassie Blue staining, by amino acid analysis and automated N-terminal sequence analysis. Extraction of chromaffin-granule membranes with LDIS is a simple and rapid procedure that facilitates studies concerned with the structure and function of membrane glycoproteins from these and other secretory granules.     

SDS gel electrophoresis of proteins and glycoproteins from peritrophic membranes of some Diptera

Peritrophic membranes (PM) of larval and adult Calliphora erythrocephala and Sarcophaga barbata contain proteins and glycoproteins which were extracted by 2.5% SDS and 8 M urea from the matrix. The acid mucopolysaccharide moiety of PM which was demonstrated by the carbazole method remained in the insoluble resudues. After SDS electrophoresis the gels were counterstained with PAS and Coomassie blue; the carbohydrate and protein content of the bands were recorded by dual scanning. Besides molecular weight (MW) determination from the migration rate, the MW of some glycoprotein bands of PM were evaluated also from their retardation coefficients. The methods revealed different results indicating anomalous SDS binding and mobility of these glycoproteins in SDS electrophoresis.The glycoprotein patterns of larvae and of adults of Calliphora as well as of Sarcophaga differed markedly. PM of adults of both species contained only one carbohydrate fraction which migrated in the gel according to an apparent MW of about 200.000 daltons. PM of the larvae, however, showed a variety of bands in the range between 30.000 and 80.000 daltons which had binding capacities for the protein as well as for the carbohydrate stain. On the other hand, the patterns of pure protein bands were similar in the larval and in the adult stage. Obviously, the glycoprotein pattern of PM is altered during development according to special requirements. Also the similarities between both species in the larval and in the adult stage point to a special physiological function of the glycoprotein moiety.     

Spherosomes of Castor Bean Endosperm: MEMBRANE COMPONENTS, FORMATION, AND DEGRADATION

The membrane components of the castor bean spherosomes were characterized. The storage triacylglycerols of isolated spherosomes were extracted with diethyl ether, and the membrane was isolated by sucrose gradient centrifugation. It had an apparent equilibrium density of 1.12 grams per cubic centimeter, and possessed an antimycin A-insensitive NADH cytochrome c reductase and an acid lipase. Phosphatidylcholine, phosphatidylethanolamine, and phosphatidylinositol in roughly equal amounts were the major phospholipids. The membrane proteins were resolved into several major and minor protein bands of molecular weights ranging from 10,000 to 70,000 by acrylamide gel electrophoresis, and the protein pattern in the gel was different from those of the endoplasmic reticulum, mitochondrial, and glyoxysomal membranes.     

Origin of the minor glycoproteins of murine leukemia viruses.

Polyacrylamide gel electrophoretic analysis and immunoprecipitation were used to study glycoproteins from purified Rauscher murine leukemia virus (R-MuLV) and from AKR thymic lymphoblastoid cell membranes. In addition to gp70, a minor glycoprotein of approximately 52,000 daltons (gp52) was demonstrated in purified R-MuLV preparations, which was antigenically related to gp70. Analysis of R-MuLV glycopeptides obtained after exhaustive Pronase digestion showed that gp70 has at least two different glycopeptide size classes with molecular weights of 5,100 and 2,900, respectively. gp52, however, contained only a single glycopeptide size class of approximately 5,100 daltons, indicating that the two glycoproteins contain distinct carbohydrate components. Trypsin treatment of R-MuLV converted gp70 into a product with a molecular mass of approximately 52,000 daltons as well as a 45,000-dalton minor product, with little effect on virus infectivity. Similarly, trypsin treatment of 125I-labeled glycoproteins derived from AKR mouse lymphoblastoid cell membranes generated fragments antigenically related to gp70 and similar in size to those obtained by trypsin treatment of R-MuLV. In both cases, the appearance of cleavage products was accompanied by a decrease in gp70 during trypsin treatment. The occurrence of glycosylated components antigenically related to gp70 in AKR membrane glycoprotein preparations and in purified R-MuLV preparations which were similar to those generated by trypsin treatment supports the concept that these minor components arise from proteolytic cleavage of gp70.     

Structural studies of a mitochondria-free plasma membrane fraction from rat liver

Liver plasma membranes virtually free of contaminating mitochondria have been prepared. Sodium dodecylsulfate-polyacrylamide gel electrophoresis reveals a membrane protein resistant to papain digestion in the intact membranes but readily hydrolyzed in membranes disrupted by detergent or sonication.Electron microscopy of mechanically deformed membranes reveals fibrils within the membrane which appear to be protein in nature but which also persist in papain digested membranes.     

Spatial orientation of glycoproteins in membranes of rat liver rough microsomes. II. Transmembrane disposition and characterization of glycoproteins

Rat liver microsomal glycoproteins were purified by affinity chromatography on concanavalin A Sepharose columns from membrane and content fractions, separated from rough microsomes (RM) treated with low concentrations of deoxycholate (DOC). All periodic acid-Schiff (PAS)-positive glycoproteins of RM showed affinity for concanavalin A Sepharose; even after sodium dodecyl sulfate (SDS) acrylamide gel electrophoresis, most of the microsomal glycoproteins bound [125I]concanavalin A added to the gels, as detected by autoradiography. Two distinct sets of glycoproteins are present in the membrane and content fractions derived from RM. SDS acrylamide gel electrophoresis showed that RM membranes contain 15--20 glycoproteins (15--22% of the total microsomal protein) which range in apparent mol wt from 23,000 to 240,000 daltons. A smaller set of glycoproteins (five to seven polypeptides), with apparent mol wt between 60,000 and 200,000 daltons, was present in the microsomal content fraction. The disposition of the membrane glycoproteins with respect to the membrane plane was determined by selective iodination with the lactoperoxidase (LPO) technique. Intact RM were labeled on their outer face with 131I and, after opening of the vesicles with 0.05% DOC, in both faces with 125I. An analysis of iodination ratios for individual proteins separated electrophoretically showed that in most membrane glycoproteins, tyrosine residues are predominantly exposed on the luminal face of the vesicles, which is the same face on which the carbohydrate moieties are exposed. Several membrane glycoproteins are also exposed on the cytoplasmic surface and therefore have a transmembrane disposition. In this study, ribophorins I and II, two integral membrane proteins (mol wt 65,000 and 63,000) characteristic of RM, were found to be transmembrane glycoproteins. It is suggested that the transmembrane disposition of the ribophorins may be related to their possible role in ribosome binding and in the vectorial transfer of nascent polypeptides into the microsomal lumen.