Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026764 (multiple myeloma)
 36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Some human marrows in culture release particles with oncornavirus-like properties. This study was designed to examine the immunological properties of similar particles in human marrow culture supernates. Leukemic and nonleukemic marrows were cultured for 5-7 days in the presence of [14C]uridine and [3H]leucine or [3H]glucosamine. Labeled supernatant components banding in sucrose gradient densities of 1.20-1.24 g/ml were used as antigen in a double antibody immunoprecipitation assay. The assay was validated by end point titrations and competition with unlabeled antigen; purified myeloma proteins were used as negative controls. Cross-reactivity with mammalian oncornaviruses, as judged by competitive inhibition of precipitation by these viruses, was slight and at the border of the sensitivity of the method. Precipitated antigens analyzed by SDS polyacrylamide gel electrophoresis contained three distinct polypeptides of about 70,000, 45,000 and 30,000 mol wt; these comigrated with the gp 70, pg 45, and p 30 of a murine leukemia virus. Similar polypeptides were obtained from both leukemic and nonleukemic marrow culture supernates. As determined by the radioimmunoprecipitation assay, 32 of 45 leukemic sera (71%), 36 of 45 normal sera (80%), 15 of 19 sera from family contacts of leukemic patients (79%), 14 of 21 cord blood specimens (67%), and 21 of 23 sera (91%) from patients with systemic lupus erythematosus had detectable antibody activity.
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PMID:Antibodies in human sera to oncorna virus-like proteins from normal or leukemia marrow cell cultures. 18 53

The biosynthesis and secretion of a glycosylated, K-type immunoglobulin light chain (K-46) was studied in a mouse myeloma tumor, mineral oil plasmacytoma-46B. Viable single cell suspensions were prepared from excised tumors and optimal conditions were established for incorporation of amino acid and carbohydrate precursors into the protein synthesized and secreted by the cells. The glucose analog, 2-deoxy-D-glucose, was utilized as an inhibitor of glycosylation to determine the role of glycosylation in the biosynthesis, intracellular transport, and export of the protein from the cell. It was determined that 6 mM 2-deoxyglucose prevents the incorporation of glucosamine, mannose, and galactose into secreted protein, but permits the incorporation of leucine at approximately 40% of control values. The nonglycosylated protein, secreted in the presence of 2-deoxyglucose, was characterized as a nonglycosylated form of K-46 light chain by the following criteria: (a) electrophoresis in polyacrylamide gels containing sodium dodecyl sulfate, (b) reactivity of the nonglycosylated protein with antisera prepared against native, fully glycosylated, K-46 light chain, (c) analysis of the protein by gel filtration techniques, (d) behavior of the protein on lectin-derivatized Sepharose, and (e) analysis of tryptic peptides derived from the protein. We have concluded that 2-deoxyglucose-inhibited cells synthesize and secrete the normal polypeptide chain of K-46 devoid of its carbohydrate side chain indicating that glycosylation is not an essential step in the biosynthesis, intracellular transport, or export of this protein that is normally synthesized and secreted in a glycosylated form. Under conditions of 2-deoxyglucose inhibition, the nonglycosylated form of K-46 light chain constitutes a significantly greater proportion of accumulated intracellular protein, suggesting that the biosynthesis of the polypeptide chain of K-46 light chain proceeds at a nearly normal rate, but that the absence of the carbohydrate side chain of the protein retards, but does not prevent, the intracellular transport of the protein and its export from the tumor cell.
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PMID:Glycoprotein biosynthesis in myeloma cells. Characterization on nonglycosylated immunoglobulin light chain secreted in presence of 2-deoxy-D-glucose. 40 89

A small proportion of the antibodies to Group A streptococcal carbohydrate (A-CHO) elicited in BALB/c mice by immunization with Group A streptococci, has idiotypic determinants in common with the BALB/c myeloma protein S117 which has specificity for N-acetyl-glucosamine, the major antigenic determinant of A-CHO. The expression of these idiotypic determinants is under the control of a gene which is linked to the Ig-1a+ allotype locus in strain BALB/c and in other strains carrying the same Ig-1 haplotype. This gene (S117+) segregates in breeding experiments as if it were an allele to the gene A5A+ which controls the expression of the A5A idiotype in association with antibodies to A-CHO in strain A/J and which is linked to the Ig-1e allotype locus. Another possible allele, linked to the Ig-1c allotype locus, controls the expression of both S117 and A5A cross-reactive determinants (S117cr, A5Acr). The distribution of these idiotypic determinants in various lines that carry recombinant Ig-1 haplotypes suggests that the A5A and S117 loci are nonallelic and map at different positions in the Ig-1 region. The data suggest complex pseudollelic relationships between different Ig-1 haplotypes that allow the expression of the same genes in allelic and in nonallelic fashion.
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PMID:Genetics of the idotype of BALB/c myeloma S117: multiple chromosomal loci for Vh genes encoding specificity for group A streptococcal carbohydrate. 79 81

The carbohydrate composition of an human IgM myeloma protein (IgM Du) has been determined. Seventeen homogeneous glycopeptides are described and exhibit a very large microheterogeneity. They appear as two different groups : the first one contains only mannose and N-acetyl glucosamine, while the other contains N-acetyl-glucosamine, mannose, galactose, fucose, and sialic acid in variable amounts. One glycopeptide termed IX1, which contains 6 mannose and 1 N-acetylglucosamine residues is located on the terminal portion of the Fc fragment and its aminoacid sequence has been determined : Tyr-Asx-Val-Ser.
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PMID:[Preparation and characterization of glycopeptides from human monoclonal immunoglobulin]. 81 88

A 58-kDa Golgi protein (gp58) was previously identified and found to be concentrated in cis Golgi cisternae in several cell types (Saraste, J., Palade, G.E., and Farquhar, M.G. (1987) J. Cell Biol. 105, 2021-2029). In this study the protein was partially purified from rat pancreas and mouse myeloma cells in order to characterize its oligosaccharides. It migrated on sodium dodecyl sulfate-polyacrylamide gels as a 57-58-kDa doublet under reducing conditions or as a single approximately 116-kDa band under nonreducing conditions. Pancreatic gp58 was susceptible to alpha-N-acetylgalactosaminidase digestion and it bound concanavalin A, Helix pomatia, Dolichos biflorus, soybean agglutinin, and Bauhinia purpurea lectins, but not Ricinus communis agglutinin or lectins from Griffonia simplicifolia-1, Arachis hypogaea, and Limulus polyphemus. It bound Ricinus communis agglutinin after galactosylation with GlcNAc galactosyltransferase. These data demonstrate that pancreatic p58 contains immature N-linked moieties with nonreducing terminal GlcNAc residues as well as the initiating GalNAc of O-linked glycoproteins. Myeloma gp58 was sensitive to endo-beta-N-acetylglucosaminidase H, and oligosaccharide analysis of its [3H]glucosamine-labeled glycopeptides indicated that it also contained immature N-linked glycans. Some of the latter consist of high mannose chains (high affinity for concanavalin A, endo-beta-N-acetylglucosaminidase H-sensitive), but the predominant (95%) species are neutral tri- or tetraantennary N-linked chains containing GlcNAc (no binding to concanavalin A). Glycopeptides from biosynthetically labeled myeloma cells did not contain detectable base labile oligosaccharides, indicating that unlike pancreatic p58, myeloma gp58 may not be an O-linked glycoprotein. Neither pancreatic nor myeloma gp58 contained terminally processed oligosaccharides, indicating that gp58 has not been modified by trans-Golgi glycosyltransferases. Thus, the oligosaccharide content of gp58 is consistent with the assumption that this protein is retained in the cis Golgi cisternae during biosynthesis instead of being transported across the Golgi stacks and targeted back to the cis Golgi from the trans side.
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PMID:A 58-kDa resident protein of the cis Golgi cisterna is not terminally glycosylated. 189 39

Mouse hybridomas producing antibodies against the structural proteins of strain WV4843, a subgroup B strain of respiratory syncytial (RS) virus, were produced by fusion of Sp2/0 myeloma cells with spleen cells from BALB/c mice immunized with purified preparations of the virus. After immunoprecipitation test with [35S]methionine-labelled extracellular virions, 35 clones found to produce antibodies against the fusion (F) protein, six against the member (M) protein, 21 against the nucleocapsid (NP) and eight against the phospho- (P) protein were further characterized. Immunoprecipitation with [3H]glucosamine-labelled intracellular virus polypeptides detected nine hybridoma cell lines producing antibodies against the large glyco- (G) protein of the virus. By competitive binding ELISA tests with monoclonal antibodies against each of the structural components, a minimum of two, 24, four, 15 and three epitopes were detected on the G, F, M, NP and P proteins, respectively. Eleven monoclonal antibodies directed against nine epitopes of the F protein could neutralize the infectivity of the virus. In contrast, none of the nine monoclonal antibodies against G could neutralize the infectivity of the virus. In order to find out more about the antigenic relationship between human and bovine RS virus strains all monoclonal antibodies were reacted with subgroup A RS virus and also with three different strains of bovine RS virus and one strain of caprine RS virus in immunofluorescence, ELISA and immunoprecipitation tests. In addition, 31 previously developed monoclonal antibodies against subgroup A virus were reacted with the bovine and caprine strains. The numbers of monoclonal antibodies of subgroup B specific for the B type of the two human subgroups were 9/9, 3/35, 0/6, 0/21, 0/8, for the G, F, M, NP and P proteins, respectively. No antigenic variations were found between the three bovine strains and the caprine strain. They did not react with the nine monoclonal antibodies against the G protein of subgroup B, nor did they react with nine monoclonal antibodies against subgroup A. Most but not all of the monoclonal antibodies against the other structural proteins of the two human RS virus subgroups reacted with the four strains. All 11 monoclonal antibodies against the F protein of subgroup B that could neutralize the infectivity of subgroup B also reacted with the bovine strains and neutralized their infectivity. It is concluded that although the bovine strains share many epitopes with the two human subgroups, they are antigenically distinct from the human viruses.
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PMID:Preparation and characterization of monoclonal antibodies directed against five structural components of human respiratory syncytial virus subgroup B. 244 24

Previous reports from our laboratory have described the binding specificity of a monoclonal antibody, D83.21, prepared by fusing P3X63/Ag8 mouse myeloma cells with mouse lymphocytes immunized against the DU145 human prostate adenocarcinoma cell line. The D83.21 monoclonal antibody displayed preferential binding to human prostate and bladder carcinoma cell lines and tissues. This antibody was not reactive with a variety of other normal and malignant human cell lines or tissues. Immunofluorescence analysis indicated that the D83.21 antigen was located on the plasma membrane. Biochemical characterization of the target antigen was performed by subjecting detergent-soluble extracts of [3H]glucosamine-labeled cells to D83.21 monoclonal antibody affinity chromatography. The radioactive material that was specifically bound and eluted from the affinity column was analyzed by sodium dodecyl sulfate:polyacrylamide gel electrophoresis and fluorography. In the absence of 2-mercaptoethanol, the antigen displayed two prominent bands with molecular weights of 180 and 110 kilodaltons. In the reduced form, the antigen is composed of an Mr 60,000 heavy chain and an Mr 28,000 light chain. The antigen was further resolved using two-dimensional (intact/reduced) sodium dodecyl sulfate: polyacrylamide gel electrophoresis. These analyses indicated that the Mr 180,000 chain was composed entirely of Mr 60,000 subunits, whereas the Mr 110,000 band consisted only of Mr 28,000 subunits. The antigen recognized by the D83.21 monoclonal antibody is therefore a membrane glycoprotein with a subunit structure cross-linked together through disulfide bonds.
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PMID:Disulfide bonding of a human prostate tumor-associated membrane antigen recognized by monoclonal antibody D83.21. 257 9

In an attempt to understand the relationship of amino acid sequence to the formation of primary or multiple myeloma-related amyloid (AL amyloid), we have determined the complete amino acid sequence of amyloid protein BAN. This protein belongs to the kappa I immunoglobulin light chain subgroup and has a polypeptide chain length of 126 amino acids. It encompasses the entire variable region, the joining segment and the first tryptic peptide of the constant region. This protein has two unique features. First, the molecule is glycosylated. At position 61 the usual arginine residue has been replaced by an asparagine with the generation of the signal sequence Asn-Phe-Thr, to which a glucosamine-containing carbohydrate unit is attached. Secondly, the protein is not monoclonal but consists of two chains which have the same variable region but different J-segments. Comparison of the BAN sequence with other amyloid and nonamyloid kappa I proteins reveals a systematic difference between the two groups. In the amyloid proteins, several hydrophilic framework residues have been replaced by hydrophobic residues. These substitutions may provide the nucleation sites for self-aggregation and fibril formation.
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PMID:Polymorphism in a kappa I primary (AL) amyloid protein (BAN). 308 40

The carbohydrate contents and compositions of cryoglobulins and myeloma proteins were comparatively investigated by gas-liquid chromatographic and colorimetric analyses. Human monoclonal cryoglobulins, Jir (IgG3 kappa), Wat (IgG3 lambda), Fji (IgM kappa), and human myeloma proteins, Har (IgGl kappa) and Kob (IgA kappa) were used for the present experiments. The results obtained were that the carbohydrate contents of Jir and Wat were 2.7 and 4.4% in weight basis; the N-acetyl glucosamine of Wat was almost two times higher than that of Jir and no sialic acid was found in both of these proteins; the total carbohydrate content of Fji was 7.7% and the sialic acid content was 19.3% of the total carbohydrate moiety; the myeloma proteins, Har and Kob, contained 5.3 and 10.4% carbohydrate, respectively, and sialic acid was detectable in these proteins. These results indicate that the carbohydrate contents are variable in each of the proteins, but the relative compositions of monosaccharides in individual samples are nearly the same, except for Kob containing O-glycosidic carbohydrate linkages. In addition, the results showing that sialic acid was detectable in Fji, but not in Jir nor Wat, suggested that the lack of terminal carbohydrate residue was not a common structural feature of cryoglobulins, and was not responsible for the temperature-dependent precipitability of these unusual proteins.
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PMID:Human monoclonal cryoimmunoglobulins. II. Comparative studies on the carbohydrate contents and compositions of cryoglobulins and myeloma proteins. 368 11

The kinetics of incorporation of leucine, galactose and mannose into intracellular and secreted myeloma protein, MOPC 21 IgG(1) and MOPC 46 kappa-type light chain, by cell suspensions of two myeloma plasma-cell tumours, MOPC 21 and MOPC 46, were similar. Radioactive galactose was incorporated to over 90% into galactose residues of intracellular and secreted protein, mannose to over 90% into glucosamine and mannose residues of intracellular protein and to over 90% into glucosamine, mannose and fucose residues of secreted protein, but not into galactose residues. The results show that specific residues in the carbohydrate portion of myeloma proteins can be labelled by specific radioactive monosaccharides, and suggest that fucose residues are added, while myeloma protein is in its final stage of secretion from the plasma cell. The kinetics of incorporation indicate at least three sequential precursor-product relationships between different intracellular forms and the secreted form of myeloma protein.
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PMID:Biosynthesis of the carbohydrate portion of immunoglobulins. Kinetics of synthesis and secretion of [3H] leucine-, [3H] galactose- and [3H] mannose-labelled myeloma protein by two plasma-cell tumours. 409 65


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