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)

E myeloma protein, PS, was reduced in different concentrations of dithiothreitol (DTT) for 1 hr followed by alkylation with 14C-iodoacetamide. The affinity of the reduced-alkylated molecules for target cells was evaluated by their ability 1) to sensitize primate skin in a reversed P-K reaction, 2) to sensitize human basophils in a reversed-type histamine release and 3) to block passive sensitization with reaginic antibody. Antibody-epsilon0 antibody was employed for reversed type reactions to avoid participation of cell-bound normal IgE in the reactions. The sensitizing activity of IgE did not change following reduction in 1 mM DTT, which split inter-heavy-light chain disulfide bond. The activity of IgE significantly diminished after reduction in 2 mM DTT followed by alkylation. This treatment resulted in the cleavage of two intra-epsilon-chain disulfide bonds, which are present between the hinge and the Fd portion of the molecules. The reduced-alkylated protein was capable of sensitizing primate skin and human basophils, however, a much higher concentration of the reduced-alkylated protein than the native protein was required for passive sensitization. The optimal sensitization period for the reversed P-K reaction was 3 hr with the reduced-alkylated protein. The protein had the ability to block passive sensitization with reaginic antibody. The reduced-alkylated protein and the native protein were labeled with 125I, and binding of these proteins with human basophils was examined by autoradiography. The results showed that affinity of the reduced-alkylated protein for basophils was less than that of native protein. Since the disulfide bonds split by 2 mM DTT were not included in the Fc portion of the molecules, the Fc fragment was obtained from the reduced-alkylated protein and was tested for affinity for basophils. It was found that the Fc fragment had higher affinity than the reduced-alkylated protein. Recovery of the affinity by papain digestion strongly suggested that cleavage of disulfide bonds in the Fab portion of the molecules induced conformational changes in the Fc portion which is involved in binding to the target cells. Reduction of IgE with 10 mM DTT followed by alkylation resulted in cleavage of 5 disulfide bonds, which is accompanied by a loss of both sensitizing and blocking activities. The fifth disulfide bond which was cleaved by 10 mM DTT, but not by 2 mM DTT, appears to be an inter-heavy chain disulfide bond in the Fc portion of the epsilon-chains. Neither epsilon1 nor epsilon2 determinants in the Fc portion of epsilon-chains were degraded by this treatment.
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PMID:Biologic significance of disulfide bonds in human IgE molecules. 4 81

In this paper we report the structural basis for the nonexpression of G1m(3) and Km (1,2) allotypes in an IgG1 (kappa) human myeloma protein (protein LEC). Heavy and light chains spontaneously dissociate in sodium dodecyl sulfate polyacrylamide gels. Light chains appear to be covalently S-S bonded. Analysis of cysteine-containing peptides shows that the heavy chain of the IgG protein LEC has a deletion of residues 216-230, thus encompassing the entire hinge region. An arginine residue, characteristic of the G1m(3) marker is present at position 214. An alanine at position 153 and a leucine at position 191 of the light chain, characteristic of the Km (1, 2) allotypes, are present. It is likely that the double Km and Gm lack of expression is the result of the deletion. The genetic implications of the sequence of this protein are discussed.
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PMID:Deletion of hinge region of human myeloma IgG1 molecule (protein LEC) associated with nonexpression of G1m (3) and Km (1, 2) allotypes. A possible genetic explanation at the DNA level. 6 77

The serum of a patient with multiple myeloma contained an IgG1 kappa monoclonal protein which existed in two molecular species: one with and one without inter-heavy chain covalent bonds, the latter dissociating into half molecules without reduction. The half molecules were present in the urine together with a kappa Bence-Jones protein. This peculiar protein was discovered because the serum and urinary IgG formed double percipitin lines when analysed by immunoelectrophoresis with an antiserum to gamma chains, the inner line being due to residual normal IgG. The isolated half molecule, as well as the major constituent of the 7 S IgG fraction, failed to precipitate with most antisera specific for the Fc fragment of IgG. The half molecule lacked the Gm(non a) marker and other antigenic determinants of the third constant region of gamma1 chains. No isotypic or allotypic antigenic determinant of another immunoglobulin class or subclass was detected. The molecular weights of the 7 S molecule, the half molecule and its covalently linked heavy and light chains were about normal, suggesting that they did not have a large deletion which could have caused the lack of interheavy chain covalent bonds. The hinge peptide appeared normal after high voltage electrophoresis of the peptic-tryptic digest of the reduced and alkylated half molecule. The carboxy-terminus of the heavy chain and the amino acid composition of the molecule were similar to those of IgG1 myeloma proteins. Two cysteinyl peptides of the CH3 domain showed on a diagonal peptidic map an electrophoretic mobility somewhat different from that of the corresponding peptides of an IgG1 myeloma protein. Another peculiar feature of this protein was the presence of galactosamine. Idiotypic determinants of the half molecule were present in the 7 S fraction, suggesting that the 7 S IgG molecules and the half molecules were derived from the same clone of tumour cells. Lack of material precluded further characterization of the structural abnormality--probably located in the third constant domain of the heavy chain--responsible for the absence of most antigenic determinants of the Fc region of IgG1 and for the formation of half molecules. This abnormality could be a small deletion undetectable by molecular weight measurements or an unidentified exchange of genetic material. Family members of the patient could not be studied in order to investigate whether this immunoglobulin abnormality reflected a minor genetic variant or a mutational event.
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PMID:Immunochemical study of a human myeloma IgG1 half molecule. 8 30

This communication deals with the sequence work done with tryptic and chymotryptic peptides and some cyanogen bromide splitting products. With these peptides, and if necessary with their splitting peptides, the whole primary structure of the alpha1-H-chain of myeloma protein Tro is established. The position of the amides is determined by electrophoresis and digestion with aminopeptidase M. The alpha1-chain Tro comprises 475 amino acid residues. Because of its specific exchanges and deletions the variable part of alpha1-chain Tro belongs to subgroup III of variable parts of H-chains. The switch from the variable to the constant part occurs at position 119/120 and is analogous to other chains which have been sequenced up to now. The large number of cysteine residues in the alpha-chain which may influence the tertiary structure, especially in the hinge and the subsequent CH2-region, is noteworthy. Furthermore, myeloma protein Tro is compared with the other alpha1-chain Bur[5] sequenced in the meantime, and protein But[6], which is an IgA2 molecule of the allotype A2m(2).
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PMID:[Rule of antibody structure: the primary structure of a human monoclonal IgA1-immunoglobulin (myeloma protein Tro), V. The arrangement of the tryptic peptides and a discussion of the complete primary structure of the H-chain (author's transl)]. 10 16

The amino acid sequences of most of the CH1, CH2 and CH3 domains of IgG Zie, a myeloma protein belonging to the IgG2 subclass, are presented. These data make possible a comparison of the sequences of residues 253-446 of all four subclasses of immunoglobulins: these residues make up almost the entire Fc regions. A comparison can also be made of the CH1 domain of IgG1 Eu and the CH1 domain of IgG2 Zie. Earlier sequence analyses of the Fc regions of subclass 1 and 3 proteins, and parts of the Fc regions of subclass 2 and 4 proteins showed that about 95% of these sequences were identical. The extended comparisons made possible by the data presented here show that this very high degree of identity is maintained throughout the four subclasses. Similarly, the CH1 domains of gamma 1 and gamma 2 chains were found to have about 93% sequence identity. It is unlikely that the few single amino acid changes within the constant region domains can account for the marked differences between subclasses observed in the region domains can account for the marked differences between subclasses observed in the biological effector functions of immunoglobulin Fc regions, especially since most of the changes are highly conservative. Rather, it seems probable that these functional differences are caused by conformational differences between the subgroups, which result from sequence differences in the hinge regions.
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PMID:The amino acid sequences of the three heavy chain constant region domains of a human IgG2 myeloma protein. 11 60

The amino acid sequence of the heavy-chain variable region of the crystallizable human myeloma protein Dob has been determined. This protein has previously been shown to have a deletion in the hinge region [Lopes, A. D., & Steiner, L. A. (1973) Fed. Proc., Fed. Am. Soc. Exp. Biol. 32, 1003; Steiner, L. A., & Lopes, A. D. (1979) Biochemistry (preceding paper in this issue)]. The complete sequence was established by analysis, in the automated sequenator, of the intact Fd' piece and of three large overlapping fragments prepared from Fd' by digestion with cyanogen bromide, by tryptic digestion of the citraconylated Fd', and by cleavage with hydroxylamine. Portions of the sequence were confirmed by examination of the amino acid composition and the partial sequence of a variety of small peptides obtained by enzymatic degradation. The Dob heavy-chain variable region appears to belong to the VHIII subgroup, but there are several unusual substitutions. Residue 45 in the Dob sequence is proline, although all other known heavy-chain sequences in man, mouse, rabbit, and guinea pig have leucine at this position. Positions 10 (aspartic acid), 68 (alanine), and 82 (leucine) in the Dob sequence are also atypical. There is no deleted segment in the variable region of the Dob heavy chain nor any abnormality in the variable-constant joining region. The hinge-region deletion appears to be the only gross structural anomaly in the Dob heavy chain.
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PMID:Amino acid sequence of the heavy-chain variable region of the crystallizable human myeloma protein Dob. 11 9

DNA from newborn mice was digested with restriction endonuclease EcoRI, and a 6.6-kilobase fragment encoding immunoglobulin gamma 2b chain mRNA derived from MPC 11 myeloma was enriched about 100-fold by RPC-5 column chromatography and agarose gell electrophoresis. The 6.6-kilobase fragment was cloned with lambda gt WES.lambda B as EK2 vector. The cloned phage (lambda WES.IgH22) contained the constant region gene of the gamma 2b chain but not the variable region gene of MPC 11 mRNA. The constant region genes of the other gamma chains (i.e., gamma 1, gamma 2a, and gamma 3) were not present in lambda gt WES.IgH22 DNA. R-loop mapping indicates that the gamma 2b chain structural gene is divided into two parts (330 +/- 60 SD base pairs and 930 +/- 110 SD base pairs) by an intervening sequence (360 +/- 100 SD base pairs). The nucleotide sequence around the junction of the hinge region and CH2 domain was determined and shown to match the amino acid sequence of the initial part of the CH2 domain of the gamma 2b chain. The base sequence upstream from the junction, however, is unrelated to the amino acid sequence of the CH1 domain and the hinge region of all the gamma chains whose sequences have been determined. These results indicate that the gamma 2b chain gene is interrupted at the junction of the hinge region and CH2 domain by an intervening sequence. The existence of two more intervening sequences, one between the CH1 domain and the hinge region and the other between the CH2 and CH3 domains, is discussed.
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PMID:Cloning immunoglobulin gamma 2b chain gene of mouse: characterization and partial sequence determination. 11 31

A myeloma IgD immunoglobulin (designated WAH) that was present in high concentration in plasma ( approximately 3.5 g/dl) was purified in >90% yield by a two-step procedure of ammonium sulfate precipitation plus AcA 34 gel filtration. Although the plasma had been stored for 2 years without the addition of a proteolytic inhibitor, no "spontaneous" degradation was apparent and the isolated IgD remained structurally intact. However, the purified IgD showed extreme susceptibility in vitro to various proteolytic enzymes; e.g., Fab(delta) (M(r) approximately 47,000) and Fc(delta) (M(r) approximately 80,000) fragments were generated quantitatively after only 10 min of incubation with papain in the absence of cysteine. By combining limited enzymatic digestion, reductive cleavage, and cyanogen bromide fragmentation, several series of well defined fragments corresponding to the different regions and domains of the IgD molecule were generated. These fragments are useful for physical, chemical, and immunological studies, as well as for the sequence determination of the IgD delta chain. A model of the IgD molecule was derived from such studies and from overlapping of the series of fragments. The possible existence of an extra constant domain in the delta chain appears unlikely in view of our finding of an extended hinge region of about 50 residues which can be cleaved off the amino terminus of the papain Fc(delta) by brief treatment with trypsin. In addition to a distinct stretch of carbohydrate attachment sites, the delta-chain hinge region contains a segment unusually rich in electrical charge. This charged segment is responsible for the lability of IgD to spontaneous degradation and may be related to its biological role as a B lymphocyte receptor.
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PMID:Structural studies of human IgD: isolation by a two-step purification procedure and characterization by chemical and enzymatic fragmentation. 29 45

The digestion of a human IgG1 K myeloma protein with pepsin in the presence of 8M-urea was observed to produce a fragment, designated Fb'2, which differed from the products of aqueous peptic digestion and from other characteristic immunoglobulin digestion products. 2. Fragment Fb's was also found when two other IgG1/K proteins were treated similarly. 3. Sedimentation-equilibrium studies showed the mol.wt. of fragment Fb'2 to be 56800. 4. On reduction, two equivalents of each of three peptides were released from fragment Fb's; these were characterized by N- and C-terminal determinations and by amino acid sequencing. 5. Fragment Fb'2 was shown to consist of the constant regions of both light chains, from residue Ile-117 to the C-terminus, and the CH1 domains and hinge region of the heavy chains, from residue Val-113 to residue Met-252, with a gap of five residues within the intrachain disulphide loop, between residues Leu-174 and Tyr-180.
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PMID:Fb'2, a new peptic fragment of human immunoglobulin G. 77 69

The digestion of human IgG1/K myeloma proteins with pepsin in the presence of 8 M-urea produces fragments that differ from those produced by aqueous peptic digestion, and from other characteristic immunoglobulin fragments. Fb'2, the larger urea/pepsin fragment, was previously shown to consist of the constant regions of the light chains, and the CH1 domains and hinge regions of the heavy chains. The smaller fragment, upFc, has now been characterized. After reduction, three peptides were released from fragment upFc. Amino acid sequencing, N- and C-terminal determinations and amino acid compositions have enabled these peptides to be identified as residues Ile-253 to Leu-306, residues Thr-307 to Asp-376 and residues Thr-411 to Gly-446 of the heavy chain. Fragment upFc therefore contains the entire Fc region, beginning at residue Ile-253, except for a 34-residue section from within the CH3-domain disulphide loop. Peptic digestion of IgG1/K proteins in 8M-urea therefore provides a method for isolating from gamma1 heavy chains five homogeneous peptides in good yield, which account for almost the entire constant region. Characterization of fragments Fb'2 and upFc has shown that the action of pepsin in urea is entirely different from that of aqueous pepsin. Two gamma1 heavy chains have been shown to differ in sequence at three positions from the sequence reported for protein Eu.
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PMID:Characterization of upFc, a fragment of human immunoglobulin G1 produced by pepsin in urea. 79 Dec 67


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