Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In order to test the concepts that aminoacyl-tRNAs in plasmacytomas may on the one hand modulate the protein synthesized or on the other hand reflect the structure of the synthesized protein, the RPC-5 chromatographic profiles of aminoacyl-tRNAs for all 20 amino acids were studied in tRNA prepared from normal mouse liver and 11 plasmacytomas. The patterns of isoaccepting tRNA were compared with the structure of the myeloma protein being synthesized. The elution profiles of aminoacyl-tRNAs for nine of the amino acids were constant, i.e. they were the same for liver and all plasmacytomas. Significant variability was observed in the profiles of the other 11 families of aminoacyl-tRNAs: asparagine, serine and tryptophan, had peaks of isoaccepting tRNAs found in tumors and not in liver; glutamic acid, histidine and lysine, had different patterns of aminoacyl-tRNAs in plasmacytomas which could be distinguished from the elution profile of liver; and isoleucine, proline, threonine and tyrosine, showed pattern variability in only a few of the tumors. Valyl-tRNA uniquely had one isoacceptor present in liver but absent in the tumors. This variability is thought to be associated with different posttranscriptional modification of the tRNAs rather than regulation of individual tRNA genes in response to particular amino acid sequences in secreted myeloma proteins. Similarily, the lack of correlation of isoacceptors with sequence differences makes the modulation of protein fine structure by tRNA availability unlikely.
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PMID:Transfer ribonucleic acids from eleven immunoglobulin-secreting mouse plasmacytomas. Constant and variable chromatographic profiles compared with the myeloma protein sequences. 25 44

Culture filtrate extracts from a number of dermatophyte and Aspergillus species precipitate with human C-reactive protein (CRP) and the lectin Con A. Using immobilized Con A, a peptidopolysaccharide (PPS) has been isolated from Epidermophyton floccosum culture filtrate by affinity chromatography and shown to precipitate with Con A, human CRP sera and a mouse myeloma serum with specificity for phosphorylcholine (PC). The PPS contains carbohydrate (60%), protein (35%), choline and phosphate. The carbohydrate portion consists almost entirely of D-mannose with only 2% hexosamine. Amino acid analysis revealed that serine, threonine, proline and glycine accounted for over 50% of the total amino acids present. Precipitation of E. floccosum PPS and pneumococcal C substance with human CRP sera and mouse anti-PC serum were compared in quantitative precipitin studies. Inhibition studies demonstrated that PC is a potent inhibitor of the serum CRP-PPS and myeloma protein-PPS precipitation reactions. The involvement of 'C substances' in a variety of biological processes is discussed.
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PMID:Isolation of a peptido-polysaccharide from the dermatophyte Epidermophyton floccosum and a study of its reaction with human C-reactive protein and a mouse anti-phosphorylcholine myeloma serum. 88 87

The ABPC 48 myeloma protein and the 3-14-9 mAb derive their V region genes from the same VH and V kappa gene families. They also share a cross-reactive idiotope defined by the anti-Id mAb IDA 10. Whereas ABPC 48 is specific for bacterial levan, 3-14-9 showed a significant Ag-binding activity to aminophenyl-beta-N-acetylglucosaminide (AZO). In order to define the molecular basis of idiotope expression and Ag-binding activity, we have cloned the genes encoding the 3-14-9 H and L chain V region genes, generated antibodies that carry mutations within the L chain genes, by site-directed mutagenesis, and investigated the effects of those mutations with respect to IDA 10 idiotope expression and binding to AZO. Our findings show that, whereas expression of the IDA 10-defined idiotope requires association of both the H and L chains, a single change (glycine to phenylalanine) at position 91 in the third complementarity-determining region of the L chain abolished both idiotope expression and Ag-binding activity. In addition, a L chain change of alanine to threonine at position 25 allowed idiotope expression to some extent but significantly reduced binding activity to AZO. These data suggest that a single amino acid change can play a crucial role in the functional activity and structural integrity of antibodies.
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PMID:A single amino acid mutation in CDR3 of the 3-14-9 L chain abolished expression of the IDA 10-defined idiotope and antigen binding. 138 May 35

DNA from 161 patients with various forms of hematologic malignancies were investigated for mutations in exons 1 and 2 of the N-RAS, K-RAS and Ha-RAS gene by direct sequencing of DNA amplified in vitro by the polymerase chain reaction. Mutations involving either codons 11, 12, or 13 of the N-RAS gene were identified in 18 of the 161 patients. The relative frequencies of N-RAS gene mutations in these hematologic disorders was as follows: acute myelogenous leukemia (AML), 15%; acute lymphoblastic leukemia (ALL), 14%; myelodysplastic syndromes, 24%; and myeloid and lymphoid blast crisis of chronic myelogenous leukemia (CML), 3%. No correlation was observed between the presence of mutations and cytologic features or immunophenotype of these malignancies. Mutations involving codons 12 or 13 were equally prevalent, with a glycine to aspartic acid substitution being the most frequently encountered change. A single T-ALL case had a codon 11 mutation resulting in substitution of alanine with threonine. We failed to find mutations in exons 1 and 2 of the K-RAS or Ha-RAS genes in any case except a single AML with a mutation in codon 61 of the K-RAS gene. Also, no mutations were identified in chronic phase of CML, chronic lymphocytic leukemia. Ph1 positive ALL, non-Hodgkin's lymphoma, Hodgkin's disease, or multiple myeloma. These results indicate that RAS mutations, especially those involving exon 1 of the N-RAS gene, are frequent only in a subset of hematologic malignancies.
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PMID:The pattern of mutational involvement of RAS genes in human hematologic malignancies determined by DNA amplification and direct sequencing. 218 88

The immunoglobulin Kol was the first intact antibody molecule which was characterized by high-resolution X-ray crystallography. Furthermore the complete amino-acid sequence of the heavy (H)-chain is known. Here we report the complete amino-acid sequence of the light (L)-chain of the monoclonal immunoglobulin Kol (IgG1). The polypeptide has an Mr of 22,781, consists of 216 amino acids and due to its structure is of the lambda-type. With the characteristic amino acids threonine, asparagine, threonine, glycine and lysine in positions 101, 114, 116, 154, and 165, respectively the Kol L-chain is of the Mcg isotype. With the proteins Mcg, Mot, Bur, Loc and Mem six myeloma-derived amino-acid sequences of the same isotype are known. The amino-acid sequence of the N-terminal variable part is characteristic of subgroup 1. This contribution completes the primary structure of IgG1 Kol.
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PMID:[The primary structure of crystallizable monoclonal immunoglobulin IgG1 Kol. II. Amino acid sequence of the L-chain, gamma-type, subgroup I]. 271 5

Concanavalin A binding to glycoprotein bands on nitrocellulose blots was used to detect mannose, sorbose, N-acetylgalactosamine and/or glucose residues on 100% (31/31) of human Bence Jones protein light chains, following sodium dodecyl sulphate-polyacrylamide gel electrophoresis. All (20/20) light chains form IgG myeloma proteins and light chains from a preparation of normal polyclonal human IgG were also bound by concanavalin A. The specificity of concanavalin A for glycoproteins was demonstrated by its binding to human Fc fragments and a human monoclonal anti-Rhesus D antibody (REG-A), but not to human albumin pFc' fragments and aglycosylated REG-A derived from cells grown in the presence of the glycosylation inhibitor tunicamycin. These results suggest that all Bence Jones proteins and light chains from myeloma IgG proteins contain mono- or oligosaccharides linked O-glycosidically to serine or threonine residues.
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PMID:Immunogenicity and antigenicity of immunoglobulins: detection of human immunoglobulin light-chain carbohydrate, using concanavalin A. 311 95

1. Peptide maps of Fc fragments or heavy chains of 36 G myeloma proteins and two "heavy chain disease" proteins belonging to the four gamma-chain subgroups revealed very striking similarities between them. However differences in a few peptides were noted. This was most pronounced for the Ge(gamma(2)d) subgroup which lacked three peptides characteristic of the other three subgroups. While Fc fragments from different proteins belonging to the same subgroup appeared very similar, minor differences in addition to those based on currently recognized Gm factors were occasionally noted. 2. Fc fragments from Gm(a+) We(gamma(2)b) proteins had a peptide previously shown to be characteristic of normal Gm(a+) gammaG-globulins. Fc fragments from Gm(a-) molecules belonging to the We(gamma(2)b), Vi(gamma(2)c), or Ne(gamma(2)a) subgroups, whether Gm(b+), Gm(f+), or Gm(-), had the peptide previously identified in Gm(b+f+) normal gammaG-globulin. This "non-a" peptide was absent in peptide maps from Gm(-) molecules of the Ge(gamma(2)d) subgroup which contained instead another peptide with the same electrophoretic mobility but migrating slightly further on chromatography. 3. Both the "a" and "non-a" peptides were pentapeptides having three amino acids in common, and differing in the other two. The "a" peptide contained one residue of lysine, aspartic acid, threonine, leucine, and glutamic acid. The "non-a" peptides prepared from Gm(b+), Gm(f+), and Gm(-) proteins were identical and contained one residue of lysine, threonine, and methionine sulfone, and two residues of glutamic acid. 4. Several possible mechanisms for the origin of these differences, and their possible role in serologic specificity are discussed.
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PMID:Structural studies of human gamma-G-myeloma proteins of different antigenic subgroups and genetic specificities. 416 48

IgA protease, a proteolytic enzyme found in human saliva and colonic fluid, hydrolyzes human serum IgA immunoglobulins to yield Fab(alpha) and Fc(alpha) fragments. The enzyme is produced by organisms in the normal human microflora and can be purified from culture filtrates of the common human oral organism Streptococcus sanguis (American Type Culture Collection no. 10556). IgA protease is inactive against all other protein substrates examined including the other classes of human immunoglobulins. The role of this enzyme in affecting the function of the secretory IgA immune system is unknown. To further characterize and explain this unusual substrate specificity, the susceptibility of 31 human IgA myeloma proteins of both subclasses was investigated. 16 IgA1 and 15 IgA2 myeloma paraproteins were treated with enzyme and the extent of proteolysis was determined by cellulose actate electrophoresis, immunoelectrophoresis, polyacrylamide gel electrophoresis, and column chromatography. All IgA1 proteins were enzymatically cleaved to Fab(alpha) and Fc(alpha) fragments, but all IgA2 proteins were resistant, yielding no fragments after prolonged enzymatic treatment. N-terminal amino acid sequence analysis of the purified Fc(alpha) fragment of a single IgA1 paraprotein was as follows: Thr-Pro-Ser-Pro-?-Thr-Pro-Pro-Thr-Pro-Ser-Pro-Ser. Comparison of this sequence to that reported for the IgA1 heavy chain shows that the enzyme-susceptible peptide bond is a Pro-Thr in the IgA1 hinge region. The most likely explanation of the resistance of the IgA2 subclass to IgA protease is a deletion in the heavy chain which commences with the critical threonine of the susceptible Pro-Thr bond.
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PMID:Differential susceptibility of human IgA immunoglobulins to streptococcal IgA protease. 443 34

The hyalin material in massive cutaneous hyalinosis, a disease characterized by extensive tumorous periodic acid-Schiff-(PAS) positive extracellular cutaneous deposits, has been elucidated by biochemical and immunologic methods. Three major components were found: kappa light chains, a mannose-rich glycoprotein, and type I collagen. Trace amounts of fibrinogen, fibronectin, laminin, IgG, pregnancy-specific glycoprotein, albumin, and keratan sulfate, but not keratin, were also present. The kappa light chains were monoclonal, cryoprecipiting, and more basic than the kappa chains from two myeloma patients. The glycoprotein, which could not be identified as any known glycoprotein, had an apparent molecular weight of 90,000 D. Amino acid analysis showed that glutamic acid, aspartic acid, leucine, and threonine were abundant, whereas hydroxyproline, hydroxylysine, and sulfhydryl amino acids were absent. The carbohydrate content of the protein was approximately 20%. The major monosaccharides were mannose and N-acetylglucosamine. Galactose, N-acetylneuraminic acid and fucose also were present. The third major component of the hyalin material was identified as type I collagen. A humoral immune response to the storage material was found: the patient's serum contained IgM and IgG class antibodies against the mannosylglycoprotein (90 kD glycoprotein) and against type I collagen.
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PMID:Massive cutaneous hyalinosis. Identification of the hyalin material as monoclonal kappa light chains, adhesive 90 kD glycoprotein, and type I collagen. 620 74

The authors established the amino acid substitutions determining G3m(s) and G3m(t) specificities, which characterize Mongoloid populations, by sequence analysis of the Fc region of a myeloma protein (Jir). By comparing the amino acid sequences of the IgG3 (Jir) and the other IgG subclasses analyzed to date, it was found that G3m(s) was an isoallotype specified by an amino acid substitution at position 435; i.e., whereas the subclasses IgG1, IgG2, and IgG4 had histidine in common, G3m(s-) had arginine in this position. This was also confirmed by the observation that the Fc fragment in question bound to protein A. It was also established that the amino acid at position 379 of G3m(t-) IgG3 and the other subclasses was valine, whereas methionine in this position was specific for G3m(t+). In addition, the amino acids at position 339 of G3m(u-) IgG3 Jir was threonine, and at position 296 of G3m(g-) IgG3 Jir was tyrosine. These findings are not in accord with the hitherto postulated relations of alanine and phenylalanine to G3m(u-) and G3m(g-), respectively. Finally, this study showed that a large number of substitutions occurred at positions 384 through 389, which suggests that many specificities of the G3m(b) group occur on IgG3 proteins.
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PMID:Structural studies of a human gamma 3 myeloma protein (Jir) bearing the allotypic marker Gm(st). 641 81


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