Comparison of the N-Linked Oligosaccharide Structures of the Two Major Human Myelin Glycoproteins MAG and P0: Assessment of the Structures Bearing the Epitope for HNK-1 and Human Monoclonal Immunoglobulin M Found in Demyelinating Neuropathy

The epitope for HNK-1 and patient's monoclonal autoantibodies in demyelinating polyneuropathy associated with immunoglobulin M gammopathy is borne by different types of N-linked oligosaccharide structures in human P0 and myelin-associated glycoprotein (MAG). Fourteen glycopeptide fractions bearing different oligosaccharide structures were obtained from either MAG or P0 glycopeptides by serial lectin affinity chromatography on concanavalin A-Sepharose, Phaseolus vulgaris erythrophytohemagglutinin-agarose, Pisum sativum agglutinin-agarose, and Phaseolus vulgaris leucophytohemagglutinin-agarose. As shown by dot-TLC plate immunostaining, the same MAG and P0 glycopeptide fractions were recognized by HNK-1 and patient's immunoglobulin M, confirming that these antibodies display similar specificities. The antigenic carbohydrate was present in glycopeptide fractions that either interact with Pisum sativum agglutinin-agarose or were bound by Aleuria aurantia agglutinin-digoxigenin, indicating that these structures contained alpha(1-6)fucose residues. This study demonstrates that the L2/HNK-1 epitope is borne mainly or even exclusively by N-linked oligosaccharide structures alpha(1-6)fucosylated in the core.     

High Expression of the HNK-1/L2 Carbohydrate Epitope in the Major Glycoproteins of Shark Myelin

The major 24- and 28-kDa glycoproteins in shark PNS and CNS myelin express high levels of the adhesion-associated HNK-1/L2 carbohydrate epitope. The 28-kDa protein, but not the 24-kDa protein, cross-reacts strongly with one of two anti-bovine P0 antisera not previously tested against fish myelin proteins. Shark PNS and CNS myelin also contains smaller amounts of high-molecular-weight HNK-1-positive proteins, including a prominent broad band in the 65-85-kDa range. Although myelin-associated glycoprotein (MAG) is well known to react with HNK-1 in some mammals, monoclonal and polyclonal anti-MAG antibodies did not react with the high-molecular-weight HNK-1-positive material in shark myelin, a result suggesting that it is not a MAG-like protein. The high expression of the HNK-1/L2 epitope in glycoproteins of shark myelin, including the major P0-related ones, suggests that this adhesion-related carbohydrate structure may have had an important role in the molecular evolution of the myelinating process.     

Identification of the Palmitoylation Site in Rat Myelin P0 Glycoprotein

Abstract: P₀ glycoprotein, the major protein of PNS myelin, contains approximately 1 mol of covalently bound long-chain fatty acids. To determine the chemical nature of the fatty acid-protein linkage, P₀ was labeled in rat sciatic nerve slices with [³H]palmitic acid and subsequently treated with various reagents. The protein-bound palmi-tate was released by incubation with the reducing agents dithiothreitol and 2-mercaptoethanol, and with 1 M hydrox-ylamine at pH 7.5. In addition, P₀ was deacylated by treatment with 10 m M NaBH₄ with the concomitant production of [³H]hexadecanol, indicating that the fatty acid is bound in a thioester linkage. This conclusion was supported further by the fact that deacylation with hydroxylamine generated free thiol groups, which were titrated with [¹⁴C]-iodoacetamide. To identify the cysteine residue involved in the thioester linkage, [¹⁴C]carboxyamidomethylated P₀was digested with trypsin and the resulting peptides analyzed by reversed-phase HPLC. Identification of the radioactive protein fragments by amino acid analysis and amino-terminal peptide sequencing revealed that Cys¹⁵³ in rat P₀ glycoprotein is the acylation site. The acylated cysteine is located at the junction of the putative transmem-brane and cytoplasmic domains. This residue is also present in the P₀ glycoprotein of other species, including human, bovine, mice, and chicken.     

Detection of Multisulphated N-Linked Glycans in the L2/HNK-1 Carbohydrate Epitope Expressing Neural Adhesion Molecule P0

P0, the most abundant glycoprotein of PNS myelin, is a homophilic and heterophilic adhesion molecule. P0 is known to contain a glycoform population that expresses the L2/HNK-1 carbohydrate epitope found on other neural adhesion molecules, and to be functionally implicated centrally in neural cell adhesion and neurite outgrowth. This carbohydrate epitope has been characterized previously from glycolipid structures and contains a sulphated glucuronic acid residue. However, the L2/HNK-1 carbohydrate epitope has not been characterized in glycoproteins. Because P0 possesses only one glycosylation sequon, the number of P0 glycoforms is equal to the heterogeneity of the glycan species. Here we report that the carbohydrate analysis of L2/HNK-1-reactive P0 showed the presence of anionic structures containing sialic acid and sulphate in various combinations. At least one sulphate residue was present in 80% of the monosaccharide sequences, and 20% contained three sulphates. High-resolution P4 gel chromatography of the desialylated and desulphated oligosaccharides showed substantial heterogeneity of monosaccharide sequences. Sequential exoglycosidase digestions indicated that the majority of the structures were of the hybrid class, although the sulphated structures were found to be endoglycosidase H-resistant.     

ATP-Evoked Arachidonic Acid Mobilization in Astrocytes Is via a P2Y-Purinergic Receptor

The mouse monoclonal antibody HNK-1 and the human monoclonal IgM antibody present in patients with polyneuropathy both recognize carbohydrate epitope(s) on human myelin-associated glycoprotein and P0. In the present study, the oligosaccharide structures that bear the antibody epitope(s) were investigated. The extracellular derivative of myelin-associated glycoprotein (dMAG) was purified by immunoaffinity chromatography. P0 was electroeluted from gel slices. Western blot analysis of whole glycoproteins demonstrated that the epitopes for HNK-1 and the human monoclonal IgM antibody were different. The glycopeptides obtained by proteolysis of purified dMAG and P0 were separated and characterized by affinity chromatography on concanavalin A-Sepharose. Both dMAG and P0 displayed heterogeneity in their oligosaccharide structures, i.e., they both contained mainly tri- and tetraantennary oligosaccharides (approximately 80%), although biantennary (10%) and high-mannose and/or hybrid (10%) oligosaccharides were present. The human monoclonal IgM antibody epitope was present on all types of isolated oligosaccharide structures from either dMAG and P0. The HNK-1 epitope was present on all types of oligosaccharide structures of dMAG, whereas it was present only on tri- and tetraantennary structures of P0.     

Ultrastructural Localization of P2 Protein in Actively Myelinating Rat Schwann Cells

Abstract: The myelin specific protein, P₂, was localized immunocytochemically in electron micrographs of 4-day-old rat peripheral nerve by a preembedding technique. P₂ staining was restricted to Schwann cells that had established a one-to-one relationship with an axon. P₂ antiserum produced a diffuse staining throughout the entire cytosol of myelinating Schwann cells. In addition, the cytoplasmic side of Schwann cell plasma membranes and the membranes of cytoplasmic organelles that were exposed to cytosol were stained by P₂ antiserum. This cytoplasmic localization of P₂ protein is similar to that described for soluble or peripheral membrane proteins that are synthesized on free ribosomes. P₂ antiserum stained the cytoplasmic side of Schwann cell membranes that formed single or multiple loose myelin spirals around an axon. In the region of the outer mesaxon, P₂ antiserum stained the major dense line of compact myelin. These results demonstrate that P₂ protein is located on the cytoplasmic side of compact myelin membranes and are consistent with biochemical studies demonstrating P₂ to be a peripheral membrane protein.     

PROTEIN COMPOSITION OF MYELIN OF THE PERIPHERAL NERVOUS SYSTEM

Abstract— Myelin was purified from the peripheral nervous system (PNS) of several species. The protein composition of these preparations was examined by discontinuous polyacrylamide gel electrophoresis in buffers containing sodium lauryl sulphate. Proteins characteristic of all samples include, in order of increasing mobility: a series of high molecular weight proteins, the major peripheral nerve protein (P₀), two uncharacterized proteins, and two basic proteins (P₁ and P₂). Quantitative results, obtained by densitometry of gels stained with Fast Green showed differences in protein distribution, both between species, and from different types of nerves obtained from the same animal. The relative amounts of P₁ and P₂ proteins were the most variable; e.g. myelin from guinea-pig sciatic nerve had little or no P₂ protein, whereas 15 per cent of the myelin protein of beef posterior intradural root was Pz protein. P₀, P₁ and P₂ proteins from rabbit sciatic nerve and P₀ and P₂ proteins from beef dorsal and ventral intradural roots were purified and their amino acid compositions were determined. Our results indicated that the P₁ protein is very similar in size and amino acid composition to the basic protein of central nervous system myelin, whereas the P₀ and P₂ proteins are unique to the PNS.     

Phosphorylation and Fucosylation of Myelin Protein In Vitro by Sciatic Nerve from Developing Rats

Abstract: Proteins of the paniculate fraction of sciatic nerve of rats ranging from 1 to 55 days of age were analyzed by polyacrylamide gel electrophoresis. The major myelin protein, P₀, could not be detected at 1 day of age, but by 10 days it comprised from 15 to 20% of the particulate protein, the same proportion as in adult rats. Growth of nerve continued throughout the period studied. Rat sciatic nerves were incubated with [³²P]orthophosphate or [³H]fucose. Particulate matter proteins from sciatic nerve (and in certain cases proteins of myelin purified from sciatic nerve) were separated by polyacrylamide disc gel electrophoresis and the distribution of protein and of radioactivity along the gels was determined. [³²P]Phosphate appeared to label all myelin proteins. Labeling with fucose was more specific; myelin basic proteins were not fucosylated. A developmental study showed that sciatic nerves from 2-day-old rats could incorporate radioactive fucose and [³²P]-phosphate into several proteins at the P₀ region of polyacrylamide gels. Specific radioactivity of [³H]fucose in P₀ protein was highest in preparations from 5-day-old rats and declined by 80% over the next 5 days as it was diluted by accumulating myelin. The specific radioactivity of incorporated [³²P] phosphate was high at the early age points and declined as a result of the accumulation of compact myelin. The results indicate an association of fucosylation and/or phosphorylation with some step in the formation of myelin.     

Glycoprotein Biosynthesis in Peripheral Nervous System Myelin: Effect of Tunicamycin

Abstract: The effect of an inhibitor of N -glycosylation of glycoproteins, tunicamycin, on synthesis of PNS myelin proteins was investigated in vitro by using chopped sciatic nerves or spinal roots of 21-day-old Wistar rats. Tunicamycin when incubated with these nerves in the presence of ³H-labeled fucose, mannose, or glucosamine inhibited the uptake of radioactivity into myelin proteins including some high-molecular-weight proteins, P₀, 23K protein, and 19K protein by amounts ranging from 42 to 79%. Uptake of ¹⁴Camino acid mixture was inhibited much less by tunicamycin, but a new radioactive protein peak appeared when the protein mixtures had been separated by electrophoresis on polyacrylamide gels in the presence of sodium dodecyl sulfate. This protein ran directly in front of the P₀ peak, did not correspond to any bands stained by Fast green, and was not labeled by fucose. This peak appeared in increasing larger proportions with progressive time of incubation of nerves with ³H amino acids in the presence of tunicamycin. The new protein, which cross-reacts with P₀ antiserum, was tentatively identified as a nonglycosylated P₀ protein that appears to be almost as well incorporated as P₀ into the subcellular fraction containing myelin. At this time it is not possible to determine whether the unglycosylated P₀ is actually assembled into a site and configuration like that of P₀.     

Concanavalin A Receptors Associated with Rat Brain Synaptic Junctions Are High Mannose-Type Oligosaccharides

Abstract: Glycoproteins were isolated from a rat brain synaptic junction fraction by affinity chromatography on Concanavalin A-agarose. The isolated glycoproteins were digested with pronase and radiolabeled with ¹²⁵I-Bolton Hunter reagent, and ¹²⁵I-Concanavalin A-binding glycopeptides were isolated by chromatography on Concanavalin A-agarose. Treatment of the ¹²⁵I-Concanavalin A-binding glycopeptides with either α-mannosidase or endo-β- N -acetylglucosaminidase-C₁₁ abolished their interaction with Concanavalin A. The pronase digest was reacted with endo-β-N-acetylglucosaminidase-C₁₁ and released oligosaccharides were reduced with NaB³H₄. Following affinity chromatography on Concanavalin A-agarose, Concanavalin A-binding [³H]oligosaccharides were chromatographed on Biogel P₄. Two major oligosaccharides corresponding to standard carbohydrates containing eight and five mannose residues were identified. Treatment of these oligosaccharides with α-mannosidase converted them to smaller saccharides having a mobility on Biogel P₄ columns equal to the standard disaccharide mannose-β-1-4- N '-acetylglucosamine. These results demonstrate that the Concanavalin A receptor activity associated with CNS synaptic junctions resides in asparaginelinked oligosaccharides of the high-mannose type.     

Kinetics of Entry of P0 Protein into Peripheral Nerve Myelin

Abstract: Sciatic nerves from 9-day-old rat pups were removed, sliced into 0.4-mm sections, and incubated with [³H]fucose or [¹⁴C]glycine precursors. The nerve slice system gave nearly linear incorporation of [³H]fucose as a function of time for 3 h, after an initial lag of ˜30 min for homogenate and ˜60 min for myelin. Incorporation of [³H]fucose at constant specific radioactivity was directly proportional to exogenous fucose levels over the range 3.0 × 10⁻⁸ m to 1.5 × 10⁻⁶ m . Analysis of labeled proteins by sodium dodecyl sulfate polyacrylamide gel electrophoresis showed that greater than 50% of labeled glycoprotein was P₀, with no other major constituents. This system was used in fucose-chase experiments to determine that a period of ˜20 min elapses between fucosylation and assembly of P₀ into myelin. Cycloheximide inhibition of protein synthesis was used to determine that a period of ˜33 min elapses between protein synthesis and appearance of P₀ myelin.     

Partial Structure and Mapping of the Human Myelin P2 Protein Gene

Abstract: The myelin P₂ protein, a 14,800-Da cytosolic protein found primarily in peripheral nerves, belongs to a family of fatty acid binding proteins. Although it is similar in amino acid sequence and tertiary structure to fatty acid binding proteins found in the liver, adipocytes, and intestine, its expression is limited to the nervous system. It is detected only in myelin-producing cells of the central and peripheral nervous systems, i.e., the oligodendrocytes and Schwann cells, respectively. As part of a program to understand the regulation of expression of this gene, to determine its function in myelin-producing cells, and to study its role in peripheral nerve disease, we have isolated and characterized overlapping human genomic clones encoding the P₂ protein. We report here on the partial structure of this gene, and on its localization within the genome. By using a panel of human-hamster somatic cell hybrids and by in situ hybridization, we have mapped the human P₂ gene to segment q21 on the long arm of chromosome 8. This result identifies the myelin P₂ gene as a candidate gene for autosomal recessive Charcot-Marie-Tooth disease type 4A.     

Basic proteins of rodent peripheral nerve myelin: immunochemical identification of the 21.5K, 18.5K, 17K, 14K, and P2 proteins

Abstract: Proteins in peripheral nervous system and central nervous system myelin and homogenates of sciatic nerve and brain from young and adult mice and rats were characterized with affinity-purified anti-P₂ and anti-myelin basic protein sera after electrophoretic transfer from sodium dodecyl sulfate-polyacrylamide gels to nitrocellulose sheets. Using this method we have identified a component of rodent peripheral nervous system myelin as P₂ protein. Peripheral nervous system myelin also showed the presence of four basic proteins in addition to P₂ protein. These were found to be analogous to the 14, 17, 18.5, and 21.5K species found in the central nervous system myelin. A number of high-molecular-weight proteins were also detected with anti-myelin basic protein serum in peripheral nervous system, as well as central nervous system myelin. In addition, we report the presence of a high-molecular-weight P₂ cross-reactive protein in rodent brain stem homogenates, but not in central nervous system myelin.     

Adenosine Receptors Modulate [Ca2+]i in Hippocampal Astrocytes In Situ

Abstract: Cultured astroglia express both adenosine and ATP purinergic receptors that are coupled to increases in intracellular calcium concentration ([Ca²⁺]_i). Currently, there is little evidence that such purinergic receptors exist on astrocytes in vivo. To address this issue, calcium-sensitive fluorescent dyes were used in conjunction with confocal microscopy and immunocytochemistry to examine the responsiveness of astrocytes in acutely isolated hippocampal slices to purinergic neuroligands. Both ATP and adenosine induced dynamic increases in astrocytic [Ca²⁺]_i that were blocked by the adenosine receptor antagonist 8-( p -sulfophenyl)theophylline. The responses to adenosine were not blocked by tetrodotoxin, 8-cyclopentyltheophylline, 8-(3-chlorostyryl)caffeine, dipyridamole, or removal of extracellular calcium. The P_2Y-selective agonist 2-methylthioadenosine triphosphate was unable to induce increases in astrocytic [Ca²⁺]_i, whereas the P₂ agonist adenosine 5'- O -(2-thiodiphosphate) induced astrocytic responses in a low percentage of astrocytes. These results indicate that the majority of hippocampal astrocytes in situ contain P₁ purinergic receptors coupled to increases in [Ca²⁺]_i, whereas a small minority appear to contain P₂ purinergic receptors. Furthermore, individual hippocampal astrocytes responded to adenosine, glutamate, and depolarization with increases in [Ca²⁺]_i. The existence of both purinergic and glutamatergic receptors on individual astrocytes in situ suggests that astrocytes in vivo are able to integrate information derived from glutamate and adenosine receptor stimulation.     

Formation of a Disulfide Bond in the Immunoglobulin Domain of the Myelin P0 Protein Is Essential for Its Adhesion

Abstract: It is widely accepted, although never demonstrated, that the formation of a disulfide bond in the majority of immunoglobulin (Ig)-like domains stabilizes their final conformation and thus is essential to their functioning as adhesion/recognition molecules. The myelin P₀ protein, which has been shown directly to behave as a homophilic adhesion molecule, contains a single Ig-like domain, stabilized by a putative Cys²¹-Cys⁹⁸ disulfide bond. To test if this bond is indeed necessary to the adhesive function of P₀, the nucleotides in the P₀ cDNA coding for Cys²¹ were altered to code for an alanine. The mutated P₀ cDNA was transfected into Chinese hamster ovary cells, expression of the mutated P₀ protein was characterized, and the adhesiveness of Cys²¹-mutated P₀-expressing cells and that of cells expressing equivalent surface amounts of the unmutated protein were compared. It was found, as we previously reported, that incubation of a single cell suspension of the unmutated P₀-expressing cells resulted in the rapid formation of large aggregates. In contrast, after a similar incubation the cells expressing the Cys²¹-mutated P₀ were still mostly single cells, a result indistinguishable from that observed with the control transfected cells. This suggests that the P₀ protein, when mutated at Cys²¹, does not behave as a homophilic adhesion molecule, which in turn implies that the formation of an Ig domain disulfide bond is essential to the functioning of this molecule.     

Myelin P0 Glycoprotein: Identification of the Site Phosphorylated In Vitro and In Vivo by Endogenous Protein Kinases

Abstract: Myelin membrane prepared from mouse sciatic nerve possesses both kinase and substrates to incorporate [³²P]PO₄³⁻ from [γ-³²P]ATP into protein constituents. Among these, P₀ glycoprotein is the major phosphorylated species. To identify the phosphorylated sites, P₀ protein was in vitro phosphorylated, purified, and cleaved by CNBr. Two ³²P-phosphopeptides were isolated by HPLC. The exact localization of the sequences around the phosphorylated sites was determined. The comparison with rat P₀ sequence revealed, besides a Lys¹⁷² to Arg substitution, that in the first peptide, two serine residues (Ser¹⁷⁶ and Ser¹⁸¹) were phosphorylated, Ser¹⁷⁶ appearing to be modified subsequently to Ser¹⁸¹. In the second peptide, Ser¹⁹⁷, Ser¹⁹⁹, and Ser²⁰⁴ were phosphorylated. All these serines are clustered in the C-terminal region of P₀ protein. This in vitro study served as the basis for the identification of the in vivo phosphorylation sites of the C terminal region of P₀. We found that, in vivo, Ser¹⁸¹ and Ser¹⁷⁶ are not phosphorylated, whereas Ser¹⁹⁷, Ser¹⁹⁹, Ser²⁰⁴, Ser²⁰⁸, and Ser²¹⁴ are modified to various extents. Our results strongly suggest that the phosphorylation of these serine residues alters the secondary structure of this domain. Such a structural perturbation could play an important role in myelin compaction at the dense line level.     

Effects of Monensin on Assembly of Po Protein into Peripheral Nerve Myelin

Abstract: The ionophore monensin has been used in a variety of systems to block secretion of glycoproteins or assembly of glycoproteins into membranes. We examined the effects of monensin on assembly of the Po glycoprotein into PNS myelin, and compared this agent with the glycosylation inhibitor tunicamycin in our system. Sciatic nerves from 9-day-old rat pups were sliced and incubated in vitro . Electron microscopy of the Schwann cells in slices incubated with monensin revealed extensive swelling of the Golgi complex. Incubation with 10⁻⁷ M monensin inhibited total protein synthesis by about 20% and fucose incorporation into protein about 35%. Following isolation of myelin, proteins were separated by sodium dodecyl sulfate gel electrophoresis. Monensin inhibited the appearance of Po in myelin, while causing its accumulation in a denser membrane fraction. In addition, a slightly faster-migrating species of P_o labeled with both [³H]fucose and [¹⁴C]glycine was observed in all fractions. Assembly of basic proteins into myelin was not affected. Preincubation with 10 μg/ml tunicamycin for 30 min prior to incubation with [³H]fucose and [¹⁴C]glycine for 2 h resulted in a 65% decrease in [³H]fucose incorporation into P_o, and the appearance of a new [¹⁴C]glycine-labeled peak that migrated in the region of the 23K protein reported by Smith and Sternberger. [³H]Fucose incorporation was inhibited earlier, and to a greater extent, than protein synthesis. Our results show that processing of the P_o glycoprotein is sensitive to both monensin and tunicamycin, and that monensin partially blocks assembly of P_o into myelin.     

Specificity of the fucose-binding lectin of Pseudomonas aeruginosa

Abstract PA-II lectin of Pseudomonas aeruginosa , purified by affinity chromatography, was examined for its relative affinity to various carbohydrates using equilibrium dialysis and hemagglutination inhibition tests. This lectin was found to exhibit a high affinity for L -fucose and its derivatives. Among them, p-nitrophentl-α- L -fucose was the strongest inhibitor, followed by L -fucose → L -fucosylamine L -galactose → D -mannose →→→ D -fructose. The association constant ( K _a) of L -focuse for PA-II was 1.5 × 10⁶· M⁻¹ and the number of the L -fucose-binding sites per protein subunit was approximately 1. The K _a of D -mannose for PA-II was 3.1 × 10⁻²· M⁻¹ and a value of 0.84 was obtained as the number of its binding sites per mole protein subunit.     

Purification and Characterization of B2 Bradykinin Receptor from Rat Uterus

Abstract: A B₂ bradykinin (BK) receptor was solubilised and partially purified from rat uterine membranes by a combination of ammonium sulphate precipitation, desalting on Sephadex G-50, and hydroxyapatite and wheat germ agglutinin affinity chromatography. The partially purified BK receptor, enriched 1,500-fold, was then cross-linked to ¹²⁵l-Tyr⁰-BK using disuccinimidyl suberate and purified to homogeneity as a single protein species on two-dimensional gel electrophoresis with a molecular mass of 81 kDa. This molecular size was in agreement with the value of 80–120 kDa estimated from Sephacryl 300 size exclusion column chromatography of the B₂ receptor. The partially purified and the crude solubilised B₂ BK receptor from rat uterus showed similar affinities for BK and the BK analogues iodo-Tyr⁰-BK, D-Phe⁷-BK, and des-Arg⁹-BK, indicating that the ligand binding specificity of the receptor had been retained during the purification procedures. The biochemical properties of the solubilised B₂ BK receptor correspond to those of a hydrophobic acidic glycoprotein (isoelectric focusing gave a value of 4.5–4.7) that binds specifically to wheat germ agglutinin but has no affinity for either concanavalin A or lentil lectin, suggesting the absence of terminal mannose or glucose residues.