Solubilization and enrichment of boar sperm membrane proteins

Boar sperm membranes are rather resistent to the solubilizing effect of some detergents. Deoxycholate, an ionic detergent, was efficient in solubilizing sperm proteins but some nonionic detergents like Triton X-100 displayed relatively poor capacity in rendering membrane proteins soluble. This may be due to sperm proteins being attached to submembraneous structures through bonds involving divalent cations, since mixtures of Triton X-100 and ethylenediamine tetraacetic acid (EDTA) were almost as efficient as deoxycholate in solubilizing membrane proteins. Since intact spermatozoa were directly treated with detergents the solubilized proteins comprised a mixture of intracellular and membrane components. To enrich for membrane proteins, affinity chromatography on columns containing different lectins was carried out. SDS polyacryiamide gel electrophoresis of sperm glycoproteins desorbed from the various lectin columns demonstrated that each lectin bound a unique set of components although most glycoproteins were recovered from two or more columns. Columns containing Lens culinaris hemagglutinin yielded more sperm glycoproteins than any of the other lectin columns examined. The predominant amount of the sperm proteins recovered from the Lens culinaris lectin column was membrane derived, as the majority of the proteins were integrated into liposomes. It is concluded that sperm membrane proteins are efficiently solubilized by detergent in the presence of a chelator and that most of the membrane glycoproteins can easily be enriched by affinity chromatography on a lectin column. Proteins obtained in this way should serve as excellent starting material for the isolation of individual sperm membrane proteins.     

Evaluation of Small Intestine Grafts Decellularization Methods for Corneal Tissue Engineering

Advances in the development of cornea substitutes by tissue engineering techniques have focused on the use of decellularized tissue scaffolds. In this work, we evaluated different chemical and physical decellularization methods on small intestine tissues to determine the most appropriate decellularization protocols for corneal applications. Our results revealed that the most efficient decellularization agents were the SDS and triton X-100 detergents, which were able to efficiently remove most cell nuclei and residual DNA. Histological and histochemical analyses revealed that collagen fibers were preserved upon decellularization with triton X-100, NaCl and sonication, whereas reticular fibers were properly preserved by decellularization with UV exposure. Extracellular matrix glycoproteins were preserved after decellularization with SDS, triton X-100 and sonication, whereas proteoglycans were not affected by any of the decellularization protocols. Tissue transparency was significantly higher than control non-decellularized tissues for all protocols, although the best light transmittance results were found in tissues decellularized with SDS and triton X-100. In conclusion, our results suggest that decellularized intestinal grafts could be used as biological scaffolds for cornea tissue engineering. Decellularization with triton X-100 was able to efficiently remove all cells from the tissues while preserving tissue structure and most fibrillar and non-fibrillar extracellular matrix components, suggesting that this specific decellularization agent could be safely used for efficient decellularization of SI tissues for cornea TE applications.     

Properties of odour-binding glycoproteins from rat olfactory epithelium

The specific membrane glycoproteins with high affinity for camphor and decanal were isolated from rat olfactory epithelium. Antibodies to these glycoproteins inhibited both the electroolfactogram and the binding of odorants. The enzyme immunoassay has shown these glycoproteins to be present in the olfactory epithelium of rat, mouse, guinea-pig and hamster but not in that of frog and carp. The molecular mass of the odour-binding glycoproteins from rat olfactory epithelium solubilized by Triton X-100 was approx. 140 kDa. They consisted of two subunits (88 and 55 kDa). The 88 kDa subunit was capable of binding odorants. The data obtained suggest that the glycoproteins isolated have some properties that make them plausible candidates for olfactory receptor molecules.     

Detection and immunolocalization of glycoproteins of the plasma membrane of maize sperm cells

Summary After purifying plasma membranes from isolated maize sperm cells by aqueous polymer two-phase partition, peripheral and integral proteins were solubilized from the plasma membrane with Triton X-114 and separated in sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Silver staining revealed 10 bands (19–68 kDa) of peripheral membrane proteins and about 40 bands (12–120 kDa) of integral proteins. Peroxidase-conjugated Con A was used to detect the surface glycopeptides. It was found that Con A particularly stained 8 peripheral polypeptide bands, including 68, 66, 55, 51,48, 44, 36, and 32 kDa, and 6 integral polypeptide bands, 68, 51, 48, 44, 38, and 34 kDa. These bands differed from those of somatic samples. Staining specificity was demonstrated by the control in the presence of competing inhibitory sugar. The above result indicates the existence of mannosyl and glucosyl residues in the surface glycoproteins of maize sperm cells. The prominent peripheral 68 kDa polypeptide was further separated into 4 spots by isoelectric focusing and sodium dodecyl sulfate two-dimensional (IEF-SDS 2-D) electrophoresis, showing pI values from 5.5 to 5.8. Three prominent glycopeptides (68, 48, and 32 kDa) were localized on the plasma membrane of maize sperm cells via the fluorescein isothiocyanate (FITC) technique. About 25% of sperm cells showed an intense positive reaction in each immunological labelling. The results agree with our previous labelling of the surface of isolated viable maize sperm cells with Con A-FITC.Abbreviations FITC fluorescein isothiocyanate - Con A Canavalia ensiformis agglutinin - HRP horseradish peroxidase - RCA Ricinus communis agglutinin - WGA Triticum vulgaris agglutinin     

Stage-specific alterations in the apical membrane glycoproteins of endometrial epithelial cells related to implantation in rabbits

The rabbit endometrial epithelium undergoes differentiation prior to the time of blastocyst implantation, including loss of surface negativity and a change in glycocalyx morphology. Nonpregnant (estrous) and pseudopregnant rabbits were used to study specific alterations in proteins and saccharide composition of the luminal epithelial membrane and its glycocalyx related to the acquisition of receptivity to implantation. Pregnant animals were used to study further modification of the luminal surface by implanting blastocysts. The apical surface of luminal epithelial cells was solubilized by a 15-min intraluminal incubation of 1% Triton X-100 containing protease inhibitors. Proteins in extract solutions were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). Three new polypeptides (24 kDa, 42 kDa and 58 kDa) were identified in uteri from receptive rabbits. Binding of succinyl Wheat Germ Agglutinin (sWGA) and Ricinus communis Agglutinin (RCA-I) lectins to the 24 kDa and 42 kDa components on Western blots of extracts separated by SDS-PAGE identified them as glycoproteins. Additionally, other polypeptides (26 kDa, 80-86 kDa and 145 kDa) showed changes in affinity for WGA, RCA-I or concanavalin A (Con A), depending on the hormonal state. Correlating with these findings was an increased binding of these lectins to intact nonciliated cells in uteri of receptive rabbits compared to estrous animals; ciliated cells bound Dolichos biflorus Agglutinin (DBA) specifically, regardless of the hormonal condition. Treatment of uteri from estrous animals, or Western blots of proteins from these animals, with neuraminidase prior to lectin exposure suggested the presence of glycoproteins having a sialic acid-D-galactose terminus in nonreceptive rabbits. Reduced binding of lectin to intact cells at implantation sites and to blots of proteins isolated from these sites, compared to nonimplantation sites, was noted. These results provide evidence for stage-specific alterations in protein and saccharide composition of the apical surface of endometrial epithelium prior to implantation, and indicate that implanting blastocysts further modify the luminal surface.     

Salivary proteins and glycoproteins in phlebotomine sandflies of various species, sex and age

Salivary gland proteins were studied in sandflies (Diptera: Psychodidae: Phlebotominae) by electrophoretic techniques. In Phlebotomus duboscqi Neveu-Lemaire the protein concentration was about 30 times higher in females than in males. SDS PAGE revealed eight major bands of 29-62 kDa in salivary gland extracts (SGE) from females, whereas only one band of 57kDa was detected in males. The number of protein components in SGE gradually increased with the age of females. In P. papatasi (Scopoli) the typical electrophoretic pattern was reached in 3-5 days after imago emergence, depending on the temperature at which females were maintained. All major protein components of the female SGE were present in the content of glands. Female SGE were compared in seven colonies of five Phlebotomus and Lutzomyia species; electrophoretic profiles distinguished between species and even between colonies of different geographical origin. In general, the highest variability of major protein components was observed in the 38-48kDa region. Four colonies of the subgenus Phlebotomus (P. duboscqi and P. papatasi) possessed common mobility polypeptides, the highest similarity was found between two colonies of P. papatasi. Other species tested significantly differed, specific prominent bands of 33, 35 and 38kDa were found in P. halepensis Theodor, P. perniciosus Newstead and Lutzomyia longipalpis (Lutz & Neiva), respectively. Glycoproteins in SGE of Lu. longipalpis and P. duboscqi females were identified and analysed using blotting with five lectin conjugates. Specific reaction of lectins ConA and WGA revealed the complex type of N-glycans in the 48 and 53-54kDa glycoproteins present in both species. Similar glycosylation was detected in species-specific bands of the 57-60 and 65-67 kDa in P. duboscqi and Lu. longipalpis, respectively. The high mannose type of glycosylation was found in the 20 and 39 kDa polypeptides of Lu. longipalpis and the 40-42 kDa polypeptides of P. duboscqi. Innate lectin activity specific for aminosugars was detected in SGE of P. duboscqi females using haemagglutination tests with rabbit erythrocytes.     

Intestinal absorption of dipeptides and beta-lactam antibiotics. II. Purification of the binding protein for dipeptides and beta-lactam antibiotics from rabbit small intestinal brush border membranes

By photoaffinity labeling of brush border membrane vesicles from rabbit small intestine with photoreactive derivatives of beta-lactam antibiotics and dipeptides, a binding protein for dipeptides and beta-lactam antibiotics with an apparent molecular weight of 127,000 was labeled. The labeled 127 kDa polypeptide could be solubilized with the non-ionic detergents Triton X-100, n-octyl glucoside or CHAPS. If the vesicles were solubilized prior to photoaffinity labeling, no clear incorporation of radioactivity into the 127 kDa polypeptide occurred indicating a loss of binding ability upon solubilization. By affinity chromatography of solubilized brush border membrane proteins on an agarose wheat germ lectin column, the binding protein for dipeptides and beta-lactam antibiotics of Mr 127,000 was retained on the column. With N-acetyl-D-glucosamine the photolabeled binding protein for beta-lactam antibiotics and dipeptides was eluted together with the brush border membrane-bound enzyme aminopeptidase N. Separation from aminopeptidase N and final purification was achieved by anion-exchange chromatography on DEAE-sephacel. Polyclonal antibodies against the purified binding protein were raised in guinea pigs. The photolabeled 127 kDa protein could be precipitated from solubilized brush border membranes with these antibodies. Incubation of brush border membrane vesicles with antiserum prior to photoaffinity labeling significantly reduced the extent of labeling of the 127 kDa protein. Treatment of brush border membrane vesicles with antiserum significantly inhibited the efflux of the alpha-aminocephalosporin cephalexin from the brush border membrane vesicles compared to vesicles treated with preimmune serum. These studies indicate that the binding protein for dipeptides and beta-lactam antibiotics of apparent molecular weight 127,000 in the brush border membrane of rabbit small intestinal enterocytes is directly involved in the uptake process of small peptides and orally active beta-lactam antibiotics across the enterocyte brush border membrane.     

Microvillar iron-binding glycoproteins isolated from the rabbit small intestine.

Rabbit intestinal microvillus membranes possess high-affinity receptors for iron whose activity reflects homeostatic changes in mucosal iron transport. To isolate and characterize these membrane components, purified microvilli were radiolabelled with 59Fe(II) and solubilized in Triton X-100. 59Fe in 105000g supernatants co-eluted with a major broad protein peak (Mr approx. 100000) on gel-permeation chromatography and was rendered diffusible by Pronase digestion but not mild periodate degradation. Fluorescence studies with castor-bean lectin conjugates showed specific binding of this affinity probe exclusively to brush-border membranes in the intestinal epithelium. Affinity chromatography of solubilized membrane proteins showed binding to columns of immobilized lectin. Elution with D(+)-galactose released glycoprotein-bound 59Fe purified up to sevenfold over initial membrane extracts. The lectin bound up to 82% of protein-bound 59Fe. In contrast polyspecific antisera raised against rabbit microvilli in guinea-pigs precipitated less than 10% of solubilized radioactivity. Significantly more protein-bound 59Fe in detergent extracts of microvilli purified from bled animals interacted specifically with the lectin, suggesting that membrane glycoprotein receptors are involved in the homeostatic control of intestinal iron transport.     

Partial purification of rat liver microsomal glucose-6-phosphatase on hydroxylapatite

Glucose-6-phosphatase was effectively solubilized from rat liver-microsomal membrane by the nonionic detergent Renex 690 in the presence of 0.6M sodium chloride. Subsequent separation on hydroxylapatite proved to be a successful and rapid initial step towards the purification of this enzyme. Glucose-6-phosphatase appeared in the colourless void volume with a yield of about 40-50%. The specific activity in the pooled void volume was 3-4 U/mg protein representing an enrichment of 30- to 40-fold. The best final specific activity obtained in an enriched fraction was 6.7 U/mg protein. Analysis of the pooled glucose-6-phosphatase-enriched fraction by SDS electrophoresis revealed 2 dominant protein bands with the apparent molecular mass of 17 and 18.5 kDa and few weak protein bands in the range of 21 to 42 kDa.     

Characterization of plasma-membrane glycoproteins from functional domains of the rat hepatocyte.

Plasma-membrane glycoproteins from the three different functional domains of the rat hepatocyte were radioactively labelled by oxidation with NaIO4, followed by reduction with NaB3H4. Analysis of the radioactively labelled glycoproteins by polyacrylamide-gel electrophoresis revealed the presence of at least 12 major sialoglycoproteins in each different region of the hepatocyte surface. The Mr-110 000 component was homogeneously distributed over the plasma membrane, whereas the Mr-90 000 polypeptide was only located at the sinusoidal face. These radiolabelled glycoproteins were solubilized in 1% Triton X-100, and the soluble fraction was subjected to affinity chromatography on Sepharose-conjugated wheat-germ agglutinin (WGA). The labelled glycoproteins were poorly bound to WGA. Membrane glycoproteins were also labelled by the galactose oxidase/NaB3H4 method. The results show that the polypeptides with apparent Mr 170 000 from the sinusoidal, 230 000 from the canalicular and 170 000 from the lateral membranes were specifically labelled. When the membranes were treated with neuraminidase and galactose oxidase/NaB3H4, the electrophoretic patterns showed changes in the apparent Mr values of the glycoproteins, owing to loss of sialic acid, and a clear increase in labelling in the sinusoidal and canalicular membranes compared with the lateral membranes. When these labelled membranes were solubilized in 1% Triton X-100 and subjected to affinity chromatography on Sepharose-conjugated Ricinus communis agglutinin and/or Lens culinaris agglutinin, the results showed that the former columns efficiently bound the radiolabelled glycoproteins, whereas the latter columns bound poorly. The results show that there is a differential distribution of glycoproteins along the hepatocyte's surface.     

Effects of detergent on the binding of solubilized sodium channels to immobilized wheat germ agglutinin: structural implications

The binding of the solubilized voltage-dependent sodium channel from rat brain to immobilized wheat germ agglutinin (WGA) is detergent-dependent. When solubilized in sodium cholate, only 11% of total recovered channels bound to a WGA-Sepharose column. When solubilized in Triton X-100 or CHAPS, however, 80% and 60% could bind, respectively. The effect of cholate on sodium channel binding is relatively specific: the major rat brain glycoproteins which bind to immobilized WGA are roughly the same in either Triton or cholate, as analyzed by SDS gel electrophoresis. The structural implications for the channel are discussed.     

Lectin Receptors in Central Nervous System Myelin

Abstract: Proteins from central nervous system myelin were separated by high-resolution, sodium dodecyl sulfate-pore gradient slab gel electrophoresis and the glycoproteins were detected by autoradiography after direct application of radioiodinated lectins. A surprising heterogeneity of lectin binding proteins was found associated with this highly purified membrane fraction. Iodinated wheat germ agglutinin, which has a monosaccharide specificity for N-acetyl-D-glucosamine and N-acetylneuraminic acid, revealed six major bands and two minor bands. By correlating the molecular weights (M_r) of radioiodinated protein standards with the gel concentration at the position reached by the protein (%T) using the relationship log(M_r) versus log(%T) for gradient gel systems, molecular weight estimates of 128, 300, 109, 800, 75, 300, 48, 800, 26, 100 and 23, 700 were obtained for the major glycoprotein bands and molecular weights of 98, 300 and 86, 600 for the minor bands. When the isolated myelin was extracted with chloroform-methanol-a procedure that removes the major myelin proteins, including the proteolipid protein and most of the basic proteins and hence concentrates the minor high molecular weight proteins-and analyzed after gradient gel electrophoresis, additional glycoproteins of molecular weights 607, 700, 196, 900, 175, 100, 61, 800, 52, 200 and 42, 600 were resolved with this lectin. Radioiodinated soybean agglutinin, which has a specificity for N-acetyl-D-galactosamine and D-galactose, revealed seven bands, three of which were unique to this lectin (19, 600, 19, 100 and 17,000). Iodinated concanavalin A (d -mannose, d -glucose) revealed bands similar to the wheat germ agglutinin as well as additional bands of 40, 300, 37, 300, 35, 700, 21, 800 and 20, 400. The glycoprotein specificity for these lectin binding components was demonstrated by hapten carbohydrate binding inhibition and by organic solvent extraction for removal of glycolipids. Based on these experiments using three lectins with different carbohydrate specificity, 22 lectin-reactive components were identified; however, six of these bands were removed by chloroform-methanol extraction. The variations observed in the lectin binding capacity for these different bands suggest possible carbohydrate heterogeneity for these individual glycoproteins. Although many of these bands may be dissociated subunits (monomeric polypeptides) of oligomeric complexes, the observed multiplicity of these quantitatively minor glycoproteins associated with the purified myelin membrane implies a more intricate molecular organization for the myelin sheath complex than previously believed.     

Chemical and physicochemical characterization of the sialic acid-specific lectin from Cepaea hortensis

A sialic acid-specific lectin was isolated from the albumin glands of the garden snail Cepaea hortensis by affinity chromatography on fetuin-Sepharose following gel filtration on Superdex 200. The purified native lectin showed a molecular mass of about 95 kDa by gel filtration and 100 kDa by SDS electrophoresis. It was cleaved by boiling in buffer containing SDS in three serological identical bands corresponding to molecular masses of about 24, 20 and 16 kDa, respectively. From these three fragments, only the 24- and the 20-kDa bands were found to be glycosylated. Only the three sugars mannose, galactose and N-acetylglucosamine could be detected in a molar ratio of 3:8.6:2. The oligosaccharide moieties seem to be N- and partially O-glycosidic bound. Isoelectric focusing (IEF) of the purified lectin revealed a heterogeneous pattern with bands in the pH range of 4.3-5.0. Isolated bands of different isoelectric points showed in SDS electrophoresis the same three fragments with molecular masses of 24, 20 or 16 kDa. The heterogeneity of the lectin was revealed either by IEF or amino acid sequencing of internal tryptic peptides.     

Virus-receptor interaction in the adenovirus system I. Identification of virion attachment proteins of the HeLa cell plasma membrane.

Plasma membranes from HeLa cells were isolated in a two-phase polymer system. To compare the efficiency of attachment protein extraction, a normalized assay for the assessment of adenovirus type 2 (Ad2) receptor-active components interfering with the attachment of Ad2 to HeLa cells was developed. An optimized detergent extraction procedure, 0.5% Triton X-100, was used, and solubilized membrane proteins were radioisotope labeled in vitro. Proteins with affinity for Ad2 virions were quantified and identified in a sucrose gradient sedimentation assay and by affinity chromatography with cross-linked Ad2 virions immobilized to AH-Sepharose 4B. From virions recovered in the sucrose gradient system, one major membrane component of high affinity was identified with a polypeptide molecular weight of around 40,000. Glycosylated proteins isolated by wheat germ lectin chromatography with high affinity for immobilized virus particles were isolated, and two major components with apparent molecular weights of 40,000 and 42,000 were identified. We suggest that a glycosylated protein with high affinity for Ad2 virions and a polypeptide molecular weight of 40,000 to 42,000 is one component of the Ad2 attachment site on HeLa cells.     

alpha-D-galactose-bearing glycoproteins on the surface of stimulated murine peritoneal macrophages. Biochemical and immunochemical characterization of purified glycoproteins.

Two glycoproteins were isolated from lysates of thioglycollate-stimulated, murine peritoneal macrophages by affinity chromatography on immobilized Griffonia simplicifolia I lectin and by preparative SDS/PAGE. The glycoproteins were readily labeled on the surface of intact macrophages with 3H and 125I. The labeled glycoproteins migrated as broad bands of molecular mass 92-109 kDa and 115-125 kDa. The mobility of the glycoproteins decreased only slightly after reduction with dithiothreitol, indicating the absence of intersubunit disulfide bridges. The 92-kDa and 115-kDa glycoproteins had pI 5.2-5.4 and pI less than or equal to 4, respectively. Digestion of both glycoproteins with alpha-galactosidase released 23% of their 3H content and abolished their ability to bind to the G. simplicifolia I lectin, showing that they contain terminal alpha-D-galactosyl groups. After reduction with 2-mercaptoethanol, each glycoprotein fraction was sensitive to N-glycanase; the 115-kDa glycoproteins produced a smear with the front at approximately 67 kDa, whereas the 92-kDa glycoprotein gave two bands of 61 kDa and 75 kDa. Unreduced glycoproteins were insensitive to N-glycanase, suggesting the presence of intramolecular disulfide bonds. Although each glycoprotein fraction was sensitive to endoglycosidase H, this enzyme produced only slight changes in molecular mass when compared with N-glycanase. From these results as well as from the specificity of the enzymes involved, it is concluded that each glycoprotein fraction contains complex-type oligosaccharides and a small amount of high-mannose and/or hybrid-type oligosaccharides. While each glycoprotein fraction was bound to Datura stramonium lectin, they failed to react with anti-[i-(Den)] serum and their digestion with endo-beta-galactosidase did not cause a band shift in SDS/PAGE. Taken together, these results suggest the presence of N-acetyllactosamine units which are not arrayed in linear form but occur as single units, bound either to C2 and C6, or to C2 and C4, or both, of outer mannosyl residues on complex-type oligosaccharides. The glycoprotein(s) fraction precipitated with anti-[I (Step)] serum, suggesting the presence of branched lactosaminoglycans. Digestion of both glycoprotein fractions with a mixture of sialidase and O-glycanase did not alter their mobility in SDS/PAGE, suggesting a lack or low content of O-linked trisaccharides and tetrasaccharides. Each glycoprotein fraction was bound specifically to Sambucus nigra and Maackia amurensis immobilized lectins, indicating the presence of sialic acid linked alpha 2,6 to subterminal D-galactose or N-acetylgalactosamine residues, and alpha 2,3 to N-acetyllactosamine residues, respectively.     

Subunit structure of AMP-deaminase from skeletal muscles

AMP-deaminase was purified from skeletal muscle of rat by the affinity chromatography on phosphocellulose and gel-filtration on Sephadex G-200. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate (SDS-PAGE) has shown three protein bands on each step of purification. One of them corresponds to the subunit of tetrameric AMP-deaminase molecule with molecular weight of 76 kDa and two others--to the protein subunit with molecular weight of 42 and 33 kDa. Repeated SDS-PAGE of the main subunit band has revealed again all these protein bands. The data obtained indicate that AMP-deaminase subunit of 76 kDa is able to dissociate on two polypeptide chains with similar values of molecular weights in the presence of SDS.     

The acid phosphatase positive organelles of the Giardia lamblia trophozoite contain a membrane bound cathepsin C activity

We found a dipeptidyl aminopeptidase activity in the parasitic protozoan Giardia lamblia with properties similar to the lysosomal cathepsin C of rat-liver lysosomes. Subcellular fractionation of this parasite indicated that the cathepsin C activity is located in organelles not distinguishable from the ones containing acid phosphatase, a known marker enzyme of Giardia lysosome-like peripheral vesicles. Contrary to the rat lysosomal enzyme, Giardia cathepsin C behaved like a membrane protein. Moreover, the enzyme was not solubilized by Triton X-100 or Triton X-100/SDS at 0 degrees C but could be substantially solubilized by octylglucoside, Triton X-100 at 37 degrees C or by a pretreatment with the cholesterol complexing agent beta-cyclodextrin before the Triton/SDS treatment carried out at 0 degrees C. These observations suggest that binding/anchorage of this enzyme to membranes occurs in cholesterol-rich microdomains.     

Glycoproteins in the whorls of membrane produced by oligodendroglia in culture

Two glycoproteins of 99 kDa and 77 kDa which exhibit intense binding to wheat germ agglutinin have been purified from the whorls of membrane produced by oligodendroglia in culture. The whorls of membrane were isolated by gradient centrifugation from purified bovine oligodendroglia maintained in culture. The two glycoproteins were solubilized from the membranes using a non-ionic detergent and purified by Sephadex LH-60 chromatography, wheat germ agglutinin affinity chromatography, and SDS-polyacrylamide pore gradient gel electrophoresis. HPLC peptide mapping of the 99-kDa and 77-kDa glycoproteins revealed structural differences between the two proteins. Peptide mapping suggested that the 99-kDa glycoprotein from the whorls of membrane may be homologous to that from the plasma membranes. The 77-kDa glycoproteins from both sets of membrane may also be structurally related. Lectin binding studies showed that both glycoproteins from the whorls of membrane bound to wheat germ agglutinin, succinylated wheat germ agglutinin, concanavalin A, and lentil lectin, indicating the presence of high mannose and hybrid type oligosaccharide side-chains.     

Purification and properties of a membrane-bound insulin binding protein, a putative receptor, from Neurospora crassa.

The protein that is responsible for specific, high-affinity binding of insulin to the surface of Neurospora crassa cells has been purified to homogeneity. The insulin binding activity of solubilized plasma membranes resembled that of intact cells with regard to affinity of binding, specificity for mammalian insulins, and amount of insulin bound per cell. Insulin binding activity was purified from Triton X-100 solubilized membranes in two steps: FPLC on a MonoQ HR5/5 column; and affinity chromatography on insulin-agarose. The pure material migrated as a single band of ca. 66 kDa on SDS gels, pI = 7.4 by isoelectric focusing. The protein bound 5.34 pmol of insulin/micrograms, or 35% of that expected for univalent binding. Cross-linking of 125I-insulin to pure protein or to solubilized membranes revealed a single labeled band of 67-70 kDa on SDS gels. In nonreducing native gels, two labeled bands of ca. 55 and 110 kDa were produced after cross-linking, and two bands of similar molecular weight bound iodinated insulin after transfer to nitrocellulose filters. These may correspond to active monomer and dimer forms. The pure protein possessed no protein kinase activity against itself, or against exogenous substrates (histone H2, casein, or the synthetic peptide Glu80-Tyr20), and possessed no detectable phosphorylated amino acids. It is suggested, however, that this 66-kDa protein is the "receptor" that mediates insulin-induced downstream metabolic effects.     

Purification and characterization of the phosphate/hydroxyl ion antiport protein from rat liver mitochondria.

The phosphate transport protein was purified from rat liver mitochondria by extraction in an 8% (v/v) Triton X-100 buffer followed by adsorption chromatography on hydroxyapatite and Celite. SDS/polyacrylamide-gel electrophoresis (10%, w/v) demonstrated that the purified polypeptide was apparently homogeneous when stained with Coomassie Blue and had a subunit Mr of 34,000. However, lectin overlay analysis of this gel with 125I-labelled concanavalin A demonstrated the presence of several low- and high-Mr glycoprotein contaminants. To overcome this problem, mitochondria were pre-extracted with a 0.5% (v/v) Triton X-100 buffer as an additional step in the purification of phosphate transport protein. SDS/polyacrylamide gradient gel electrophoresis (14-20%, w/v) of the hydroxyapatite and Celite eluates revealed one major band of Mr 34,000 when stained with Coomassie Blue. The known thiol group sensitivity of the phosphate transporter was employed to characterize the isolated polypeptide further. Labelling studies with N-[2-3H]ethylmaleimide showed that only the 34,000-Mr band was labelled in both the hydroxyapatite and Celite fractions, when purified from rat liver mitochondria. Further confirmation of its identity has been provided with an antiserum directed against the 34,000-Mr protein. Specific partial inhibition of phosphate uptake, as measured by iso-osmotic swelling in the presence of (NH4)2HPO4, was achieved when mitoplasts (mitochondria minus outer membrane) were incubated with this antiserum. Finally, amino acid analysis of the rat liver mitochondrial phosphate/hydroxyl ion antiport protein indicates that it is similar in composition to the equivalent protein isolated from ox heart.