The C4 and Slp genes of the complement region of the murine H-2 major histocompatibility complex

Recent analyses, at the protein and DNA levels of structure, of the murine complement components C4 and the closely related sex-limited protein, Slp have led to new insights into the H-2/S region-linked C4 and Slp genes and their products. The primary products are 200 000 Da precursors which are cleaved, intracellularly and extracellularly, into the the mature alpha-beta-gamma-subunit molecules of plasma. Precursor order of subunits is beta-alpha-gamma; a complementary DNA clone spanning the alpha-gamma junction has been extensively analysed. The C-terminal of the alpha-chain is of particular interest because of post-secretion processing which differentiates 'secreted' and 'plasma' forms of C4, both apparently functional, and because allelic variants of C4 and the Slp protein, which differ substantially in molecular masses, owe their differences principally to different levels of glycosylation of the alpha-chain. Allelic variations in rate of C4 synthesis (C4-high compared with C4-low) have been analysed in cultures of hepatocytes and macrophages. Three distinct modes of genetic regulation of the expression of the Slp protein have been identified.     

Oligosaccharide structure of human C4

The oligosaccharide structure of human C4 was studied by using C4 purified from plasma and C4 secreted by human hepatoma-derived cell line, HepG2. The alpha- and beta-chains of human C4 are glycosylated, whereas the gamma-chain is devoid of carbohydrate. The alpha-chain has three complex fucosylated oligosaccharides of the biantennary type, one each on the alpha 2, alpha 3, and alpha 4 fragments. The beta-chain has a single high mannose oligosaccharide primarily of the Man9GlcNAc2 type. The approximately 2000 Mr difference between the alpha-chains of the two C4 gene products (C4A and C4B) was localized to the alpha 2 fragment and is not due to carbohydrate. Sulfation of the C4 alpha-chain was localized to the alpha 4 fragment of the alpha-chain. Hence, the Mr difference between the two gene products is likely to reside in amino acid differences. The oligosaccharide structure of three incompletely processed C4 molecules was also analyzed. These molecules have the oligosaccharide composition of the appropriate individual subunits. Therefore, intracellular proteolytic processing to the multi-chain form of C4 is not required for proper oligosaccharide processing.     

Sequence comparison of alleles of the fourth component of complement (C4) and sex-limited protein (Slp).

cDNA clones specific for the fourth component of complement (C4) and its androgen-regulated isotype, sex-limited protein (Slp), have been isolated from two mouse haplotypes (H-2d and H-2w7) that show differential C4 activity and differential regulation of Slp. Clones were first isolated using a cDNA probe enriched by subtractive hybridization. Subsequent screening has resulted in cDNAs spanning the entire C4d mRNA, as well as much of C4w7, Slpw7 and a short region of Slpd. The cDNAs for C4 and Slp show extensive sequence homology, but can be distinguished using oligonucleotide probes synthesized to regions of greatest sequence divergence. Sequence differences between C4 and Slp indicate structurally important features of C4 that have been altered in Slp such that Slp is unable to participate in the complement pathway. Of the few nucleotide differences between C4d and C4w7, a single base change resulting in one less glycosylation site in the C4w7 alpha chain could account for its 4-fold reduced hemolytic efficiency. Sequence comparison of multiple alleles of C4 and Slp indicates that possible gene conversion events occurred in the H-2w7 strain that has multiple Slp genes.     

The effect of peptide deletions on the glycosylation of murine immunoglobulin M heavy chains

The glycosylation and processing of the asparagine-linked oligosaccharides at individual glycosylation sites on the mu-chain of murine immunoglobulin M were investigated using variant cell lines that synthesize and secrete IgM heavy chains with known peptide deletions. Normal murine IgM has five N-linked oligosaccharides in the constant region of each heavy or mu-chain. Each mu-chain has four complex-type oligosaccharides as well as a single high mannose-type oligosaccharide near the carboxyl terminus of the molecule. The peptide deletion of the C mu 1 constant region domain in the heavy chains synthesized by one variant cell line did not prevent subsequent glycosylation at more distal glycosylation sites. In fact, the presence of this deletion resulted in more complete glycosylation at the C-terminal glycosylation site. Evaluation of glycopeptides containing individual glycosylation sites by Concanavalin A-Sepharose indicated that this deletion had no significant effect on the processing of structures from high mannose-type to complex-type oligosaccharide chains. In contrast, a deletion of the C-terminal peptide region of the heavy chain of IgM synthesized by a second variant cell line resulted in intracellular processing to more highly branched oligosaccharide structures at several of the glycosylation sites not involved in the deletion.     

Multiple forms of recombinant murine interleukin-4 expressed in COS-7 monkey kidney cells

Recombinant murine interleukin-4 (muIL-4) expressed in COS-7 monkey kidney cells was purified to homogeneity by sequential CM-Sepharose, Sephadex G-100 chromatography and mono-S FPLC to a specific activity of 6.10(7) units per mg of protein based on an in vitro HT-2 cell proliferation assay. Two electrophoretic variants, designated a and b, which migrated on SDS-PAGE as a closely spaced doublet with Mr 19,000, were present in the final product. Gas phase sequencing of the purified protein revealed the presence of an N-terminus corresponding to the mature protein predicted from the cDNA sequence and sequencing of a cyanogen bromide digest confirmed 75 of the 120 predicted amino acids. Elution behavior on gel filtration corresponded to that of a monomer of Mr 19,000. Since there are three potential sites of N-glycosylation predicted by the cDNA sequence, the contribution of glycosylation to the observed heterogeneity was examined by treatment with endoglycosidases. Variant b was digested by either endo-beta-N-acetylglucosaminidase H (endo H) or endo-beta-N-acetylglucosaminidase F (endo F) to protein of Mr 15,000 on SDS-PAGE but was unaffected by treatment with endo-beta-N-acetylglucosaminidase D (endo D), thus indicating the presence of high mannose type of N-glycan. In contrast, variant a was resistant to endo H, F and D. Complete conversion of a mixture of variants a and b to a single protein of Mr 15,000 on SDS-PAGE was obtained only after treatment with N-glycanase. Both variants were resistant to neuraminidase and O-glycanase treatment. These data show that the microheterogeneity observed in purified muIL-4 preparations is due to differences in the nature of the N-linked oligosaccharides. The availability of purified recombinant muIL-4 and a methodology for both total and selective deglycosylation provides a basis for the initiation of structure-function studies of this novel T-cell lymphokine.     

Recombination of two homologous MHC class III genes of the mouse (C4 and Slp) that accounts for the loss of testosterone dependence of sex-limited protein expression

In most mouse strains, expression of a gene encoding sex-limited protein (Slp), an isotype of the fourth component of complement (C4), is induced by testosterone, or the gene is not expressed at all; however, in some wild-derived strains carrying H-2w7, H-2w16, or H-2w19 haplotype, Slp is expressed constitutively in the same way as C4. To examine the structural basis for the testosterone-independent expression of Slp, 41 overlapping clones together encoding the S region were isolated from C3H.W7 mouse (H-2w7) cosmid library. Five C4-related genes each spanning approximately 16 kb were identified among the cluster of cosmid clones and were isolated for structural study. One of the genes (C4w7) hybridized with the C4-specific oligonucleotide probe but not with the Slp-specific oligonucleotide probe, whereas the other genes (Slpw7a, Slpw7b, Slpw7c, and Slpw7d) hybridized only with the Slp-specific probe. Restriction mapping of these genes and sequencing of the selected regions of 5'-flanking regions of the genes were performed, and the results were compared with the data obtained with the C4 and Slp genes of FM (H-2d) and B10.BR (H-2k). These studies showed that three of the C4-related genes of C3H.W7 (Slpw7b, Slpw7c, and Slpw7d) are C4-Slp recombinant genes comprising a 5'-region derived from C4 gene and a 3'-region derived from Slp gene. It is suggested that 5'-flanking region derived from C4 in these C4-Slp recombinant genes accounts for testosterone-independent expression of Slp in C3H.W7 mouse.     

Oligosaccharide microheterogeneity of the murine major histocompatibility antigens. Reproducible site-specific patterns of sialylation and branching in asparagine-linked oligosaccharides

The influence of peptide structure of endogenous cell-surface glycoproteins on the branching and sialylation of their asparagine-linked oligosaccharides was evaluated in a murine B cell lymphoma, AKTB-1b. This cell line simultaneously synthesizes two classes of major histocompatibility antigens that, within each class, share a high degree of amino acid sequence homology and possess potential N-linked glycosylation sites at invariant positions. [3H]Mannose-labeled oligosaccharides were released from each of 11 purified glycosylation sites by the almond peptide:N-glycosidase and analyzed by a variety of chromatographic procedures and glycosidase treatments. The data indicate: 1) a unique distribution of oligosaccharide structures is present at each glycosylation site; 2) each site-specific oligosaccharide pattern is highly reproducible, independent of the number of in vivo tumor passages. The heavy chain of the class I antigens, H-2Kk and H-2Dk contain two and three sites, respectively, in which biantennary structures predominate. However, each site varies with respect to the extent of sialylation and the proportions of more highly branched structures present. The class II antigens, I-Ak and I-Ek, each contain an alpha-chain site toward the N terminus and a single beta-chain site where the overall extent of sialylation is similar, yet the distributions of antennary structures are dramatically different for each. The alpha-chains of each class II antigen also contain a more C-terminal underglycosylated site where sialylation and branching are reduced to differing degrees depending upon the site. The influence of peptide structure on oligosaccharide microheterogeneity is manifest at two levels. First, the overall distributions of oligosaccharides at corresponding sites on structurally related glycoproteins are similar. Second, the specific "fingerprint" of sialylation and branching patterns at a particular site are reproducibly unique. These data suggest that subtle changes in peptide structure are reflected in the extent of sialylation and branching of oligosaccharides found at corresponding glycosylation sites of structurally related glycoproteins.     

Invariant chain influences post-translational processing of HLA-DR molecules

HLA class II MHC molecule alpha- and beta-chains are normally synthesized in the presence of a third molecule, the invariant chain (Ii). Although Ii is not required for surface expression of HLA class II molecules, the influence of Ii on post-translational processing and maturation HLA class II molecules has not been thoroughly studied. In the present study, BALB/c 3T3 cells were transfected with HLA-DR alpha- and beta-chains with or without co-transfection with human Ii. Although Ii had no effect on the surface expression of DR, Ii did have a profound effect on the post-translational processing of both the alpha- and beta-chains. In the absence of Ii, the major species of alpha- and beta-chains were of lower m.w. than when expressed in the presence of Ii. The differences in m.w. were shown to be caused by differences in glycosylation with the majority of alpha- and beta-chains remaining unprocessed and endo H sensitive in the absence of Ii. The small proportion of alpha-chains that were processed in the absence of Ii showed an altered m.w. and altered sensitivity to treatment with endo H relative to alpha-chains processed in the presence of Ii. Pulse/chase studies demonstrated that although the majority of the alpha- and beta-chains remained unprocessed in the absence of Ii, the small amount that was processed was done so at a rate similar to that observed for alpha- and beta-chains processed in the presence of Ii. These studies demonstrate that Ii influences the post-translational processing of human class II molecules by affecting the proportion of alpha- and beta-chains that are processed and by determining the degree of processing of oligosaccharides on mature alpha-chains.     

Diversity of oligosaccharide structures on the envelope glycoprotein gp 120 of human immunodeficiency virus 1 from the lymphoblastoid cell line H9. Presence of complex-type oligosaccharides with bisecting N-acetylglucosamine residues

The N-linked oligosaccharide structures on the envelope glycoprotein gp120 of human immunodeficiency virus 1 derived from chronically infected lymphoblastoid (H9) cells have been investigated by enzymatic microsequencing after release from protein by hydrazinolysis, labeling with NaB3H4, and chromatography on adsorbent columns of Phaseolus vulgaris erythrophytohemagglutinin and Ricinus communis agglutinin (Mr 120,000) and on Bio-Gel P-4. A substantially greater diversity of oligosaccharide structures was detected than among those released by hydrazinolysis from recombinant gp120 produced in Chinese hamster ovary cells and investigated by similar procedures (Mizuochi, T., Spellman, M.W., Larkin, M., Solomon, J., Basa, L.J., and Feizi, T. (1988) Biochem J. 254, 599-603) and among those released by endoglycosidases from virus-derived gp120 isolated from infected H9 cells after metabolic labeling with D-[2-3H]mannose or D-[6-3H]glucosamine (Geyer, H., Holschbach, L., Hunsmann, G., and Schneider, J. (1988) J. Biol. Chem. 263, 11760-11767). In this study, 16% of the oligosaccharides were identified as complex-type bi-, tri-, and tetraantennary sialo-oligosaccharides with bisecting N-acetylglucosamine residues. Such structures were lacking on recombinant gp120 and could not be detected on the metabolically labeled, virus-derived glycoprotein. As in the earlier investigations, complex-type chains lacking bisecting N-acetylglucosamine residues, hybrid-type chains, and a series of high mannose-type structures with 5-9 mannose residues were identified. In addition, an array of complex-type chains having one or more outer chains with beta-galactosyl residues were detected in this study, but with additional substitutions that require further investigation. The number of potential N-glycosylation sites on gp120 is on the order of 20, but the oligosaccharide structures are far more numerous. Thus, the salient conclusion from this and earlier investigations is that alternative structures occur on at least some of the glycosylation sites and that numerous glycosylation variants of this glycoprotein are produced even within a single cell line. Since the glycosylation is the product of host cell glycosyltransferases, an even greater number of glycosylation variants of gp120 are predicted to arise from the heterogeneous cell populations harboring the virus in in vivo infection.     

Restriction fragment length polymorphism of the murine C4 and Slp genes: two C4 groups.

We have examined the related H-2 genes coding for the fourth component of complement (C4) and the sex-limited protein (Slp) from 30 inbred mouse strains by Southern blot analysis. With four restriction enzymes, 11 RFLP patterns distributed among 26 different H-2 haplotypes have been identified. Strains of the same serologic H-2 haplotype were found to have identical RFLP patterns. It was confirmed that the number of C4-related genes in most haplotypes is two, Slp and C4; but H-2SWI6 (SWI6) and SWI9, which have the same RFLP pattern, have four and Sw7 has five. Although C4 and Slp have many similarities, they also were found to contain distinctive features: relative to Slp, each C4 allele examined has two insertions totaling 1.1 kb located in introns 14 and 15; and each Slp allele examined, excluding hybrids, has a provirus insertion upstream. No other large deletions or insertions were detected. The RFLP patterns are also due to 10 polymorphic restriction sites, which have been placed on standard maps; two are associated with Slp and eight are associated with C4.Sk strains, the only strains that express low serum levels of C4, have the same RFLP phenotype as Sw14, Sw18, and Swx; Sk may have arisen from a recent common ancestor of these strains. Homologous recombination has been important in the formation of existing C4 alleles. However, based on complete linkage disequilibrium between three RFLP internal to C4, the haplotypes have been divided into two groups that may have functional significance.     

The murine lymphocyte receptor for IgE. V. Biosynthesis, transport, and maturation of the B cell Fc epsilon receptor

The post-translational processing and maturation of the receptor for IgE (Fc epsilon R) on murine hybridoma B cells were studied to determine the carbohydrate content and the importance of processing events in cell surface expression and ligand (IgE) binding ability. Endo and exoglycosidase treatment demonstrated that the mature receptor is composed of two to three complex-type N-linked oligosaccharides and contains sialic acid. Pulse-chase experiments indicated that the receptor is synthesized as a 44,000 dalton precursor that begins to be processed by 1 hr to the mature 49,000 dalton form, and the latter is expressed at the cell surface by 2 hr. It was determined that the processing included the conversion of N-linked oligosaccharides to the complex type as well as an additional processing event, because in the presence of tunicamycin, the receptor is synthesized as a 36,000 dalton precursor that is processed to a 38,000 dalton species. Analysis of the effects of tunicamycin treatment and endo F digestion on soluble Fc epsilon R isolated from cell supernatants demonstrated the existence of several m.w. species of Fc epsilon R fragments, and indicated that only the higher m.w. fragments were N-glycosylated. The use of several inhibitors of the N-linked carbohydrate processing pathway demonstrated that the addition of core N-linked side-chains, but not their processing to the complex type, is required for cell surface expression of Fc epsilon R. Also, processing of N-linked carbohydrate is not required for ligand binding activity. Finally, IgE affinity chromatography indicated that the 49,000 and 38,000 dalton (tunicamycin) Fc epsilon R bind IgE more effectively than their precursor forms, 44,000 and 36,000 daltons, respectively, indicating that a processing event independent of N-linked glycosylation is necessary for optimal ligand binding activity.     

Synthesis of the major oligosaccharide components of murine haemangioendothelioma cells

Murine haemangioendothelioma cells in culture synthesize lactosaminoglycan-type glycoproteins which are found both associated with cells and secreted into the culture medium. Pronase-derived glycopeptides, prepared from the [3H]glucosamine-labeled glycoproteins that were secreted into the culture medium were found to contain about 10% of the labeled products as large size (Mr greater than 5000) 3H-labeled glycopeptides. In contrast, 40% of the cellular 3H-glycopeptides were found to be of this large size class of glycopeptides. These large size glycopeptides did not bind to Con A-Sepharose but did bind to Datura stramonium-agarose, from which they were eluted with chitobiose. The glycopeptides which did not bind to Datura-lectin were sulfated complex-type oligosaccharides which were not degraded by endo-beta-galactosidase. The glycopeptides which bound to Datura-lectin were degraded by endo-beta-galactosidase (or keratanase) to yield Gal----GlcNAc----Gal and glycopeptides, which were resistant to further endo-beta-galactosidase digestion and which no longer bound to Datura lectin-agarose. A major [3H]glucosamine-labelled glycoprotein (Mr approx. 75000) was found to be susceptible to endo-beta-galactosidase degradation and is probably the major cellular constituent having lactosaminoglycan-type side chains in these cells. An in vitro assay to measure leucocyte-haemangioendothelioma interactions indicated that treatment of haemangioendothelioma cells with endo-beta-galactosidase reduced leucocyte binding to these cells by 80%.     

Carbohydrate structure of glycoprotein 52 encoded by the polycythemia-inducing strain of Friend spleen focus-forming virus

The primary envelope (env) gene product of the polycythemia-inducing variant of Friend spleen focus-forming virus (F-SFFVP), representing a glycoprotein with an apparent Mr of 52,000 (gp52), was isolated from F-SFFVP-infected normal rat kidney cells metabolically labeled with [2-3H]mannose in the presence or absence of glucose. Structures of the oligosaccharides present were determined by micromethylation analysis, acetolysis, and digestion with exoglycosidases. Gp52 radiolabeled in the presence of glucose contains solely oligomannosidic glycans comprising 6 to 9 mannose residues (Man6-9GlcNAc2), some of which carry additional glucose. The structures of the glycans found reflect the typical intermediates of oligosaccharide processing. The glycosylation of gp52 isolated from glucose-deprived cells (-Glc), however, is characterized by increased amounts of Man5-7 species comprising other structural isomers. Only gp52 (-Glc) glycans are, in part, further processed yielding incomplete complex-type oligosaccharides. Our results demonstrate that the limited post-translational processing of the primary F-SFFVP env gene product is neither due to aberrant trimming of its oligomannosidic glycans nor due to transfer of immature lipid-linked oligosaccharide-intermediates as observed in glucose-starved cells.     

Structures of the asparagine-linked sugar chains of laminin

This investigation describes the isolation and characterization of oligosaccharides of the basement membrane glycoprotein, laminin. Pronase-released glycopeptides of isolated laminin, from a mouse Engelbreth-Holm-Swarm tumor, were fractionated using a combination of gel permeation chromatography and Con A-Sepharose affinity chromatography. The glycopeptides were analyzed for sugar linkage patterns by methylation analysis. Glycopeptides and hydrazine-released oligosaccharides were further analyzed using endo-beta-galactosidase, endo-beta-N-acetylglucosaminidase H and specific exoglycosidases in conjunction with calibrated gel permeation chromatography. Based on these experiments, murine tumor laminin was shown to contain asparagine-linked oligosaccharides with the following structures: bi-, tri- and tetraantennary complex-type oligosaccharides; polylactosaminyl side chains containing Gal(beta 1----4)GlcNAc(beta 1----3) repeating units attached to the trimannose core portion of the bi-, tri- and tetraantennary complex-type oligosaccharides; unusual complex-type oligosaccharides terminated at the nonreducing end with sialic acid, alpha-galactose, beta-galactose and beta-N-acetylglucosamine; alpha-galactosyl residues linked to N-acetyllactosamine sequences; high-mannose-type oligosaccharides. These results, in conjunction with analytical data, indicate that most of the carbohydrate of this laminin is N-linked to asparagine and that there are about 43 such N-linked oligosaccharides per laminin molecule.     

Characterization of recombinant murine interleukin 5 expressed in Chinese hamster ovary cells.

We have purified recombinant murine interleukin 5 (rmIL-5) from the supernatant of Chinese hamster ovary cells. Each peptide fragment of the purified rmIL-5 generated by Achromobacter protease I digestion was characterized and glycosylation sites were determined. Although rmIL-5 contains three potential sites of N-linked glycosylation (Asn-26, Asn-55 and Asn-69), Asn-69 is not glycosylated. The oligosaccharides released from the protein by hydrazinolysis were fractionated by paper electrophoresis, lectin column chromatography and gel permeation chromatography, and their structures were analysed by sequential exoglycosidase digestion in combination with methylation analysis. The results indicated that they are a mixture of bi-, tri- and tetraantennary complex-type sugar chains with and without a fucose at the C-6 position of the proximal N-acetylglucosamine residue and high-mannose-type sugar chains. Although > 80% of the sugar chains are neutral oligosaccharides similar to recombinant human IL-5 (rhIL-5; Kodama, S., Endo, T., Tsuroka, N., Tsujimoto, M. and Kobata, A. (1991) J. Biochem., 110, 693-701), rmIL-5 has more tetraantennary oligosaccharides than rhIL-5. A site differential study revealed that Asn-55 has more tetraantennary oligosaccharides than Asn-26.     

Synthesis and processing of the three major envelope glycoproteins of Epstein-Barr virus.

In pulse-chase experiments, the three major Epstein-Barr virus envelope glycoproteins, gp350/300, gp250/200, and gp85, were shown to be synthesized from separate precursors of 190,000, 160,000, and 83,000 daltons, respectively. These three pulse-labeled species were chased into the mature forms of the glycoproteins between 1 and 3 h after transfer to nonradioactive medium. Digestion of precursor forms with endo-beta-N-acetylglucosaminidase H (endo H) yielded polypeptides of 160,000, 120,000, and 75,000 daltons. Comparison of these results with those from experiments with tunicamycin, which specifically blocks N-linked glycosylation, indicated that some other post-translational modification(s), probably O-linked glycosylation, contributes about 100,000 and 60,000 daltons of apparent molecular mass to gp350/300 and gp250/200, respectively. Experiments with endo H showed that mature gp350/300 and gp250/200 contain complex-type (endo H-resistant) N-linked glycosyl chains, whereas gp85 contains both high-mannose (endo H-sensitive)- and complex-type oligosaccharides. In contrast to the results obtained with the three envelope glycoproteins, no precursor forms of the two unglycosylated protein, p160 (the major Epstein-Barr virus capsid antigen) and p140 (an envelope protein), were detected. The partial proteolytic maps of gp350/300 and gp250/200 were quite similar, suggesting that polypeptide sequence homology could account for at least part of the observed serological cross-reactivity of the two proteins. Taken together, these results demonstrate that the polypeptide portions of gp350/300 and gp250/200 are closely related but not derived from a common precursor. Furthermore, the polypeptide portions comprise half or less of the apparent molecular weight of the mature glycoproteins on sodium dodecyl sulfate-polyacrylamide gel electrophoresis.     

Identification of distinct endoglycosidase (endo) activities in Flavobacterium meningosepticum: endo F1, endo F2, and endo F3. Endo F1 and endo H hydrolyze only high mannose and hybrid glycans

Flavobacterium meningosepticum endo-beta-acetyl-glucosaminidase F preparations have been resolved by hydrophobic interaction chromatography on TSK-butyl resin into at least three activities designated endo F1, endo F2 and endo F3 each with a unique substrate specificity. The 32-kDa endo F1 protein is the principle component representing in excess of 95% of most earlier and currently available commercial endoglycosidase preparations, the remainder being a mixture of five proteins from 32 to 43 kDa. Substrate specificity studies reveal endo F1 and endo H from Streptomyces plicatus to have nearly identical capacities to hydrolyze high-mannose oligosaccharides with a minimum Man1 alpha 3Man1 alpha 6Man1 beta 4GlcNAc1 beta 4GlcNAc structure. Although endo H will hydrolyze fucose-containing hybrid oligosaccharides at rates approaching comparable high-mannose forms, core-linked fucose reduces the hydrolysis rate of endo F1 by over 50-fold relative to high-mannose structures. Neither homogeneous endo F1 nor endo H hydrolyze complex multi-antennary glycans. The biantennary cleaving activity previously reported for endo F preparations (Tarentino, A. L., Gómez, C. M., and Plummer, T. H., Jr. (1985) Biochemistry 24, 4665-4671) is a characteristic of the contaminating endo F2 activity.     

Processing of MOPC 315 immunoglobulin A oligosaccharides: evidence for endoplasmic reticulum and trans Golgi alpha 1,2-mannosidase activity

The processing of asparagine-linked oligosaccharides on the alpha- chains of an immunoglobulin A (IgA) has been investigated using MOPC 315 murine plasmacytoma cells. These cells secrete IgA containing complex-type oligosaccharides that were not sensitive to endo-beta-N- acetylglucosaminidase H. In contrast, oligosaccharides present on the intracellular alpha-chain precursor were of the high mannose-type, remaining sensitive to endo-beta-N-acetylglucosaminidase H despite a long intracellular half-life of 2-3 h. The major [3H]mannose-labeled alpha-chain oligosaccharides identified after a 20-min pulse were Man8GlcNAc2 and Man9GlcNAc2. Following chase incubations, the major oligosaccharide accumulating intracellularly was Man6GlcNAc2, which was shown to contain a single alpha 1,2-linked mannose residue. Conversion of Man6GlcNAc2 to complex-type oligosaccharides occurred at the time of secretion since appreciable amounts of Man5GlcNAc2 or further processed structures could not be detected intracellularly. The subcellular locations of the alpha 1,2-mannosidase activities were studied using carbonyl cyanide m-chlorophenylhydrazone and monensin. Despite inhibiting the secretion of IgA, these inhibitors of protein migration did not effect the initial processing of Man9GlcNAc2 to Man6GlcNAc2. Furthermore, no large accumulation of Man5GlcNAc2 occurred, indicating the presence of two subcellular locations of alpha 1,2-mannosidase activity involved in oligosaccharide processing in MOPC 315 cells. Thus, the first three alpha 1,2-linked mannose residues were removed shortly after the alpha-chain was glycosylated, most likely in rough endoplasmic reticulum, since this processing occurred in the presence of carbonyl cyanide m-chlorophenylhydrazone. However, the removal of the final alpha 1,2-linked mannose residue as well as subsequent carbohydrate processing occurred just before IgA secretion, most likely in the trans Golgi complex since processing of Man6GlcNAc2 to Man5GlcNAc2 was greatly inhibited in the presence of monensin.     

Different oligosaccharide processing of the membrane-integrated and the secretory form of gp 80 in rat liver.

Rat liver synthesizes a glycoprotein with Mr of 80.000 (gp 80) which is partly inserted into the plasma membrane and partly secreted into the serum. The membrane-integrated and the secretory form of this glycoprotein have an identical peptide pattern, but different N-linked glycans. Whereas gp 80 from the serum is glycosylated with complex-type oligosaccharides, gp 80 from the plasma membrane has high mannose glycans. Phase separation with Triton X-114 showed that membrane-integrated gp 80 contains hydrophobic portions, whereas secretory gp 80 has hydrophilic properties. Intracellular transport and oligosaccharide processing of gp 80 were studied in vivo in the endoplasmic reticulum, the Golgi apparatus and plasma membranes of rat liver and in serum using pulse-chase labeling with L-[35S]methionine and immunoprecipitation. Peak labeling of gp 80 was reached in the endoplasmic reticulum 10 min after the pulse, in the Golgi apparatus 20 min later, and in the plasma membrane after 2 h; in the serum the specific radioactivity was steadily increasing during the experiment. Gp 80 of the endoplasmic reticulum was completely sensitive to endo-beta-N-glucosaminidase H (endo H), but simultaneously occurred in the Golgi apparatus in an endo H-sensitive and endo H-resistant form. The endo H-sensitive form was transported to the plasma membrane, the endo H-resistant species secreted into the serum. Conversion from the endo H-sensitive to the endo H-resistant form was completed within 10 min after transfer of gp 80 to the Golgi apparatus.(ABSTRACT TRUNCATED AT 250 WORDS)