UMLS:C0026764 - FACTA Search

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Query: UMLS:C0026764 (multiple myeloma)
36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A variant line (LV-1) of mouse myeloma MOPC 315 (IgA, lambda 2) has lost the ability to synthesize L chain. It synthesizes an altered H chain (H' chain) that is turned over intracellularly and is not secreted. Rescue of H' chain secretion can be accomplished by fusion of LV-1 to a variant of another myeloma line, MPC 11 (IgG2b, kappa), which only synthesizes a light chain. The hybrid (X-2) secretes the H' chain in a four chain structure (kappa 2 alpha' 2). In wild-type MOPC 315 cells, it was reported previously that inhibition of core sugar addition blocks the secretion of the H chain polypeptide. We have studied glycosylation in MPOC 315 wild-type, LV-1 variant, and X-2 hybrid cell lines. The ability of all three lines to add the core sugars mannose and glucosamine to heavy chain was demonstrated. Due to the instability of the H' chain in LV-1, it is difficult to assess H' chain fucosylation directly. To study fucose addition in LV-1, the enveloped virus vesicular stomatitis (VSV), which can infect the three lines, was utilized. The fucosylation and secretion of VSV glycoprotein G was discernible in all three lines; however, only LV-1 cannot activate free fucose, and instead fucosylates through conversion of the mannose intermediate. Normal fucose addition to H chain in a wild-type cell occurred immediately before secretion. The fact that degradation of H' chain in LV-1 begins before fucosylation suggests that the rescue of H' chain secretion by formation of the X-2 hybrid is due to the acquired presence of a suitable L chain rather than complementation of a sugar defect. These observations indicate that proper assembly of the polypeptide components of some secretory proteins, e.g., Ig molecules, is required for the secretion of the individual chains.
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PMID:Glycosylation and secretion of an altered immunoglobulin heavy chain in mouse myeloma MOPC 315. 629 92

A nerve growth factor (NGF) receptor interactive monoclonal antibody (192-IgG) which enhances beta-NGF binding to PC12 cells has been produced. The hybridoma clone was obtained by fusing Sp2/0- Ag14 myeloma cells with splenocytes from Balb/C mice which had been immunized with n-octyl glucoside solubilized proteins from isolated PC12 cell plasma membranes. The antibody is an IgG, which does not bind beta-NGF. It binds to the same number of sites on PC12 cells at low temperature as does beta-NGF. The 192-IgG increases the apparent affinity of beta-NGF binding to fast receptors on PC12 cells at low temperature by a factor of 2.5- to 4-fold and enhances the photoactivatable cross-linking of beta-NGF to the same receptor while decreasing the cross-linking of beta-NGF to the slow NGF receptor. At 37 degrees C 192-IgG partially inhibits the regeneration of neurites from primed PC12 cells. The 192-IgG also reduces the rate of appearance of binding to slow NGF receptors and increases the proportion of beta-NGF bound to fast receptors at 37 degrees C. These results implicate the slow receptor as the mediator of the biological response. This antibody provides a tool for examining steps in the mechanism of action of beta-NGF after binding to the receptor.
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PMID:A monoclonal antibody modulates the interaction of nerve growth factor with PC12 cells. 632 98

The capacity of Plasmodia to synthesize sialic acids was investigated by adding radioactive acetate to short-term in vitro cultures of the intraerythrocytic asexual forms of three malaria parasites (the human malaria Plasmodium falciparum in Aotus trivirgatus erythrocytes; the simian malaria P. knowlesi in rhesus monkey erythrocytes; the rodent malaria P. berghei in mouse erythrocytes) and to cultures of extracellular zygotes of the avian malaria P. gallinaceum. Radioactive acetate was added to normal rhesus monkey erythrocytes and to cells of the murine myeloma NS-1 for comparison. Although [1-14C]-acetate labeled many proteins with each malaria parasite and the NS-1 cells, analysis of purified sialic acids revealed that only with the NS-1 cells was radioactivity incorporated into sialic acids. Furthermore, N-acetyl[6-3H]mannosamine was not incorporated into sialic acids or malarial glycoproteins when added to P. knowlesi cultures. All of the malaria parasites underwent growth or differentiation during these experiments as measured by [35S]methionine uptake into protein and by light microscopy. Extracellular parasites largely free of erythrocyte membranes were prepared to determine whether Plasmodia contain sialic acids that are not labeled by exogenous precursors. Purified merozoites of P. knowlesi and zygotes of P. gallinaceum did not contain detectable amounts of sialic acids on chemical analysis. Thus, although we could show that Plasmodia can incorporate radioactive sugars such as glucosamine, galactose and mannose into proteins, presumably glycoproteins, they do not synthesize sialic acids or sialo-glycoproteins, nor do they contain sialo-glycoconjugates of host origin.
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PMID:Malaria parasites do not contain or synthesize sialic acids. 637 Aug 20

In contrast to healthy persons, microvillous antigens of the proximal tubule were excreted at an increased rate in patients with kidney diseases as could be shown using specific antisera against brush border (BB) fragments (tissue-proteinuria, histuria). These urinary membrane components were immunologically completely identical with those antigens prepared from isolated kidney cell membranes. A glycoprotein of 240 000 dalton, containing mannose and N-acetylglucosamine was identified as a major immunoreactive constituent of the brush border surface and found to be part of a multienzyme complex. BB-antigens were excreted in urine of patients with glomerulonephritis, hypertension, pyelonephritis, multiple myeloma, after operations, after kidney transplantation, under cytostatic treatment, and after administration of radiopaque agents. Histuria of BB-antigens was significantly higher in patients with multiple myeloma and Bence-Jones-proteinuria compared to those patients where no Bence-Jones L-chains in urine became apparent. Selective kidney angiography and intravenous urography caused a significantly higher output of BB-antigens as compared to the control period (2 p less than 0,005). In a volunteer model, on the basis of BB-histuria, a different nephrotoxic potency of cephalosporins and aminoglycosides arose. In addition, beside soluble BB-antigens, also high molecular weight membrane vesicles were discovered in urine of patients after cytostatic treatment (cis-platinum), after x-ray contrast media, and after kidney transplantation. Both, soluble as well as supramolecular membrane vesicles were isolated from urine applying immunospecific affinity chromatography (anti-BS-agarose beads). Labeled antisera directed against the vesicle material of urine revealed a specific immunofluorescence of cortical tubule only.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Immunodiagnosis of kidney tubular cell injuries using specific anti-membrane antibodies]. 638 21

Intracellular membranes from protoplasts of Italian-ryegrass (Lolium multiflorum) endosperm cells have been fractionated on sucrose density gradients and identified on the basis of putative-marker-enzyme assays. Galactosyltransferases capable of incorporating galactose from UDP galactose into 66% ethanol-soluble products are associated with all membrane fractions. Affinity chromatography of the ethanol-insoluble products on (murine myeloma protein J539)-Sepharose reveals that the enzymes responsible for the synthesis of polymers containing (1----6)-beta-D-galactose residues are associated exclusively with subcellular fractions enriched in Golgi-derived membranes. This suggests that the Golgi apparatus plays an important part in the synthesis of the carbohydrate component of the ryegrass arabinogalactan-protein.
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PMID:Biosynthesis of arabinogalactan-protein in Lolium multiflorum (Italian ryegrass) endosperm cells. Subcellular distribution of galactosyltransferases. 642 63

Monoclonal B cell hybridoma cell lines express glycolipids characteristic of both the myeloma and normal lymphocyte parents. The neutral glycolipids from hybridoma cell lines metabolically radiolabeled with [14C]galactose plus [14C]glucosamine separate by high performance thin layer chromatography into patterns that may reflect differences in glycolipid expression among B cell subsets. Gas chromatography/mass spectrometry of oligosaccharides released by trifluoroacetolysis from neutral glycolipids extracted from 10(9) clonally expanded hybridoma cells reveals the carbohydrate composition of the major glycolipid components detected by thin layer chromatography. Glycolipids differentially expressed among six cell lines analyzed include monohexosylceramide, lactosylceramide, globotriaosylceramide, globoside, asialo-GM2, and 2'fucosyllactosylceramide. The latter compound has not been described previously in cells from the mouse.
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PMID:Gas chromatography/mass spectrometry analysis of oligosaccharides from neutral glycosphingolipids of murine B cell hybridomas. 660 22

A mouse monoclonal antibody (IgM) was obtained by cell hybridization between X63-Ag8.653 myeloma cells and spleen cells from a BALB mouse that was immunized with GRSL leukemia cells of the GR strain. This antibody identified a unique fetal antigen, which is expressed exclusively on embryonic thymocytes of all strains tested. Therefore, the antigen defined was named fetal thymus antigen-1, FT-1. The proportion of FT-1+ fetal thymocytes detected by immunofluorescence assay sharply decreases as gestation time increases, and finally they disappear from the thymus. On the other hand, Thy-1+ cells increase in inverse proportion. The immunofluorescence studies and absorption tests showed that FT-1 antigen is not detectable on brain, liver, kidney, or lymphoid tissue cells of adult mice. However, it is expressed on some leukemia cells of various mouse strains, which demonstrated that this is the first example of an oncofetal antigen of a mouse leukemia. The molecular weight of FT-1 antigen on leukemia cells was estimated to be 130,000 by means of biosynthetic labeling with [3H]galactose and [35S]methionine. The two-dimensional gel electrophoresis pattern of FT-1 antigen shows a family of glycoproteins with extensive charge heterogeneity. It was also shown that the FT-1 antigen molecule carries the receptor for DBA lectin.
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PMID:A new differentiation antigen (FT-1) shared with fetal thymocytes and leukemic cells in the mouse. 660 76

The complete amino acid sequence of the human myeloma IgD:WAH has been determined and the sites of asparagine glycosylation identified as residues 354, 445, and 496 (Takahashi, N., Tetaert, D., Debuiere, B., Lin, L.-C., and Putnam, F. W. (1982) Proc. Natl. Acad. Sci. U. S. A. 79, 2850-2854). We have determined the structures of the oligosaccharides at each of these positions. Asn 354 bears oligosaccharides exclusively of the high mannose type containing from 5 to 9 mannose residues. Twenty per cent of the oligosaccharides at this site contain 1 glucose residue at the terminus of the branch emanating from the alpha 1 leads to 3-linked core mannose which is believed to reflect incomplete processing of the triglucosyl-high mannose oligosaccharide intermediate following transfer from dolichol to nascent peptide. Asn 445 and Asn 496 bear exclusively dibranched complex oligosaccharide structures; 30-40% of these molecules contain a bisecting GlcNAc-linked beta 1 leads to 4 to the innermost core mannose residue. At Asn 445, 40% of both the bisected and nonbisected oligosaccharides contain 1 residue of fucose on the Asn-linked GlcNAc and 50% bear a single N-acetylneuraminic acid residue. The oligosaccharides at Asn 496 are devoid of sialic acid and fucose. Thus, IgD:WAH is notable for the presence of virtually unprocessed oligosaccharide structures (glucosylated high mannose) on the same peptide backbone as extensively processed complex type molecules. The finding that each of the 3 Asn glycosylation sites of IgD:WAH bears either exclusively a complex or a high mannose type oligosaccharide indicates that there is considerable specificity in the glycosylation process. These oligosaccharides, nonetheless, display extensive microheterogeneity at each location.
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PMID:Structures of the oligosaccharides present at the three asparagine-linked glycosylation sites of human IgD. 661 27

The denaturation of IgE immunoglobulin induced by heating at 56 degrees C or by treatment at low pH is inhibited in the presence of high concentrations of salts or hexoses. Between 50 and 100% of the IgE anaphylactic activity (PCA) of rat and mouse antisera is recovered after heating at 56 degrees C for 1,5 or 5 h, respectively, in 1 M MgSO4 or 2 M glucose, mannose or fructose. Anaphylactic activity of IgE monoclonal anti-DNP mouse antibody is equally preserved. The specific antigenic determinants of human and rat IgE myeloma proteins are also thermostable in these conditions. The addition of MgSO4 or glucose protects IgE anaphylactic antibodies against denaturation at pH 2. It is suggested that IgE denaturation is the consequence of interactions between molecules of immunoglobulin and that such interactions are diminished by steric hindrance in a medium containing high concentrations of ions or hexose molecules.
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PMID:Influence of the medium on the heat and acid denaturation of IgE. 665 41

Macrophages have been obtained from the peritoneal cavities of C57BL/6 mice following treatment with C. parvum, MVE-2, mineral oil, or thioglycollate. Cell populations were primarily composed of mononuclear phagocytes as determined by a latex bead uptake assay. Macrophages obtained from C. parvum or MVE-2 were activated as judged by enhanced cytostatic activity against two tumor cell target lines. Thioglycollate-elicited macrophages demonstrated much lower cytostatic ability. Rats were immunized with activated MVE-2 macrophages. Hybridomas were prepared by fusion with a non-secreting myeloma cell line followed by cloning. Cell supernates were selected on the basis of binding to activated but not elicited macrophages. The monoclonal antibody produced has been characterized by flow cytometry. The antibody does not react with syngeneic erythrocytes, thymocytes, or spleen cells. Reaction with thioglycollate macrophages is very low. Alternatively, intense binding is found on activated macrophages. This antigen which accompanies macrophage activation for tumor cell cytostasis is designated as macrophage activation antigen-1 (MAA-1). Several important physiological changes accompany the process of macrophage activation. For example, activated macrophages demonstrate enhanced microbicidal, phagocytic, secretory, and tumoricidal activity (for reviews see refs. 1,2). Concommitant alterations in cell surface properties have been observed. These include: (a) changes in surface morphology and spreading (3-5), (b) altered lipid and protein content (6,7), (c) decreases in 5'-nucleotidase activity and alkaline phosphodiesterase (8), increases in leucine aminopeptidase (8), decreases in mannose receptors (11,12), and antigen F4/80 (11), (d) increases in Ia antigens (11,12), and (e) increased tumor cell binding (13). These structural and functional modifications indicate that activated macrophages represent a unique class of functionally differentiated cells (9). Antigenic modifications accompanying macrophage differentiation are of special interest. Markers for specific macrophage classes might be useful in defining differentiation pathways, dissecting type-specific functional activities such as tumor cytotoxicity, and providing a means to identify macrophage subsets in heterogeneous cell populations. In the present work we have taken the first step in this direction by defining a cell surface macrophage activation antigen.
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PMID:Characterization of a monoclonal antibody defining a macrophage activation-specific cell surface antigen. 674 39

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