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

A human lambdaV (Mcg) and a human lambdaII (Vil) myeloma protein have identical sequences in their first hypervariable segments although they differ at 21 positions throughout the variable region. If a different structural gene is responsible for each subgroup, the findings favor insertion of information for the hypervariable or complementarity-determining segments.
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PMID:Similarities among hypervariable segments of immunoglobulin chains. 81 20

Sharks are living fossils that are indistinguishable morphologically from their Devonian ancestors of approximately equal to 400 million years ago. If parallel conservatism characterizes their biochemical evolution, characterization of their immunoglobulin chains could provide information regarding the primordial features of these essential defense molecules. Shark immunoglobulins are polydisperse like those of mammals, but these species lack homogeneous myeloma proteins. This heterogeneity has precluded direct determination of the sequence of elasmobranch light-chain proteins. We have sequenced four cDNA clones that contain the constant-region sequence as well as varying degrees of variable- or joining-region segments. The sandbar shark (Carcharhinus plumbeus) has at least four distinct light-chain constant regions, and these can be considered homologs of mammalian lambda chains. Approximately 40% identity was found in comparison from sharks to mammals. Certain stretches of sequence were remarkably conserved, whereas others varied in a manner consistent with accepted concepts of speciation. One hexapeptide (Ala-Thr-Leu-Val-Cys-Leu) occurred in lambda constant regions of all vertebrate species. There was a universal conservation of certain cysteines, phenylalanines, tryptophans, and glycines and strong identities in the block of residues from Ser-176 to Trp-186. Comparison of the shark sequence with that of the characterized human lambda myeloma protein Mcg indicates a strong conservation of three-dimensional structure in this light-chain domain representing species whose ancestors diverged early in vertebrate evolution. The shark light-chain sequence contains primordial features shared by mammalian kappa and lambda chains and by T-cell receptor beta chains.
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PMID:Evolution of immunoglobulin light chains: cDNA clones specifying sandbar shark constant regions. 251 77

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

Intact rabbit immunoglobulin G molecules (IgGs) and their papain or pepsin fragments were radio-iodinated and injected into HeLa cells. Whole IgGs, Fab2, and Fc fragments were degraded with half-lives of 60-90 h, whereas half-lives of Fab fragments were 110 h. These results indicate that proteolytic cleavage in the hinge region of the IgG molecule is not the rate-limiting step in its intracellular degradation. The hingeless human myeloma protein, Mcg, was degraded at the same rate as bulk human IgG, providing further evidence that the proteolytically susceptible hinge region is not important for intracellular degradation of IgG molecules. SDS acrylamide gel analysis of injected rabbit IgG molecules revealed that heavy and light chains were degraded at the same rate. Injected rabbit IgGs and rabbit IgG fragments were also examined on isoelectric focusing gels. Fab, Fab2, and Fc fragments were degraded without any correlation with respect to isoelectric point. Positively charged rabbit IgGs disappeared more rapidly than their negative counterparts, contrary to the trend reported for normal intracellular proteins. The isoelectric points of two mouse monoclonal antibodies were essentially unchanged after injection into HeLa cells, suggesting that the altered isoelectric profile observed for intact rabbit IgG resulted from degradation and not protein modification. The intracellular distributions of IgG fragments and intact rabbit IgG molecules were determined by autoradiography of thin sections through injected cells. Intact IgG molecules were excluded from HeLa nuclei whereas both Fab and Fc fragments readily entered them. Thus, for some proteins, entry into the nuclear compartment is determined primarily by size.
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PMID:Intracellular distribution and degradation of immunoglobulin G and immunoglobulin G fragments injected into HeLa cells. 640 51

Sixteen lambda-type Bence-Jones proteins and eight constant domain fragments of lambda chains were used to measure nuclear magnetic resonance (NMR) signal of the C2- AND C4-H protons of two histidine residues (His- 189 and His-198) which exist in the constant half of the lambda chains. The pH titration curves for the C2-H proton signals of His-189 and His-198 of six Bence-Jones dimers were compared with those for the corresponding constant fragments. It was concluded that the tertiary structure of the constant domain is well preserved even in the constant fragments which are known to exist as the monomer in solution. It was shown that the C2- and C4-H proton peaks of His-198 can be used to identify the Mcg isotype. It was also shown that the chemical shifts of the C4-H proton of His-189 and His-198 can be used to detect the amino acid substitutions at positions 153 and 190 which are the Kern and Oz markers, respectively. On the basis of the NMR measurements, it was suggested that the Kern and at least one of the Mcg markers are in close spatial proximity to His-189 and His-198, respectively. The NMR data were compared with the X-ray structure of the Fab fragment of human myeloma immunoglobulin, IgG1 (lambda) New [Poljak, R. J., Amzel, L. M., Avey, H. P., Chen, B. L., Phizacherley, R. P., & Saul, F. (1973) Proc. Natl. Acad. Sci. U.S.A. 70, 3305-3310]. The NMR data are explained in terms of the crystal structure and are thus consistent with solution and crystal structure being quite similar in the constant domain of the lambda chains.
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PMID:Proton nuclear magnetic resonance studies of human immunoglobulins. Solution conformation of the constant domain of the lambda light chains and identification of the isotypes. 677 4

The human light chain JC lambda locus is comprised of seven distinct segments, designated JC lambda 1, JC lambda 2, JC lambda 3, JC lambda 4, JC lambda 5, JC lambda 6, and JC lambda 7. Whereas three of these seven represent pseudogenes (psi Clambda 4, psi C lambda 5, and psi C lambda 6), the JC lambda 1, JC lambda 2, and JC lambda 3 complexes are functional, as demonstrated by the finding of their protein products through sequence analyses of lambda-type Bence Jones proteins and light chains derived from monoclonal Igs. Although the JC lambda 7 segment also appears functional, as evidenced through analysis of lymphocyte-derived mRNA, heretofore no monoclonal JC lambda 7-containing lambda-chains have been identified. Serologically, two distinct isotypic markers, Mcg and Oz, are associated, respectively, with JC lambda 1 and JC lambda 3 proteins, in contrast to JC lambda2 components, which do not express these determinants and represent a third isotype. Although another serologic marker, Ke (Kern), considered a fourth isotype, has been assigned to the JC lambda 7 complex, this relationship has been questioned. We now report the primary structural features of a lambda-type Bence Jones protein that include the four distinctive residues encoded by the JC lambda 7 gene segment. This protein, obtained from a patient with multiple myeloma and designated MCP, represents the first example of such a molecule and provides definitive evidence that the JC lambda 7 gene complex is functional. Additionally, comparison of the C lambda sequences of Mcg-/Oz- Bence Jones proteins MCP and KERN supports the contention that the Ke-associated one-residue amino acid variation at position 152 reflects a C lambda A2 polymorphism and that yet another isotypic marker, provisionally designated Mcp, is encoded by the JC lambda 7 gene segment. Thus, we posit that there are four human JC lambda isotypes, Mcg, Ke-Oz-/Ke+Oz-, Ke-Oz+, and Mcp, that represent, respectively, products of the JC lambda 1, JC lambda 2, JC lambda 3, and JC lambda 7 gene complexes.
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PMID:Characterization of a light chain product of the human JC lambda 7 gene complex. 890 24

Light (L) chain dimers expressed by multiple myeloma cells and collected as Bence-Jones proteins from the urine of human subjects were tested for their ability to form deposits in fibroblast monolayer cell cultures. Bence-Jones proteins from subjects with primary amyloidosis associated with L chains were shown to form fibrillar deposits by the in vitro assay introduced in this report. Filaments interspersed with nascent collagen could be detected after only 48 h. Deposition of L chains continued over a period of 72 h culminating in the appearance of dense fibrils with widths of 80-100 A and a variety of lengths. Formation of amyloid-like fibrils was accompanied by interference with the maturation of the collagen produced by the fibroblast cells. Fibrils composed of the Mcg lambda-type L chain were deposited between collagen fibers, thus expanding them laterally and leading to their partial disintegration. Mature collagen was completely missing from fibroblast monolayers exposed to the Sea lambda chain and the Jen kappa chain. Collagen with the characteristic striped pattern matured normally in control samples, such as those not dosed with amyloid precursors or those treated with a non-amyloidogenic Bence-Jones protein (e.g., the Hud lambda chain dimer). By immunochemical techniques using fluorescein- and gold-labeled anti-L chain antibodies, amyloidogenic L chains were shown to decorate the strands of nascent collagen. This observation suggests that amyloidogenic L chains are concentrated in the extracellular matrix by monovalent antigen-antibody type reactions. The capacity of the Mcg L chain dimer to bind collagen-derived sequences was tested by soaking crystals with a collagenase substrate, PZ-Pro-Leu-Gly-Pro-D-Arg. Difference Fourier analysis at 2.7 A resolution indicated that the PZ-peptide is a site-filling ligand. It could not be removed from the active site by perfusion of the crystal with ammonium sulfate crystallizing media. Similar experiments with the collagen-derived peptide (Pro-Pro-Gly)(5) showed substantial hysteresis effects extending from one end of the Mcg dimer to the other. After the ligand was withdrawn, the active site of the Mcg dimer could no longer bind the PZ-peptide. However, if the active site was first blocked by the PZ-peptide and subsequently exposed to the (Pro-Pro-Gly)(5) peptide, the difference Fourier map was indistinguishable from that obtained with the PZ-peptide alone. We concluded that amyloidogenic L chains such as the Mcg dimer could be concentrated in the perivascular space by binding to normal tissue constituents. These components include nascent collagen, which can be deterred from maturing as a result of this binding. Participation in such pathological activity is also self-destructive to the amyloidogenic L chains, which lose their binding capabilities for collagen-derived peptides and also become susceptible to irreversible conversion to amyloid fibrils. All of these events may be prevented by prior treatment of the amyloidogenic L chains with site-filling ligands. (c) 2000 John Wiley & Sons, Ltd.
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PMID:Binding of nascent collagen by amyloidogenic light chains and amyloid fibrillogenesis in monolayers of human fibrocytes. 1093 57

Unlike other immunoglobulin G (IgG) subclasses, IgG4 antibodies in plasma have been reported to be functionally monovalent. In a previous paper, we showed that the apparent monovalency of circulating IgG4 antibodies is caused by asymmetry of plasma IgG4-a large fraction has two antigen-binding sites resulting in bispecificity. We postulated that the generation of bispecific antibodies was caused by a post-secretion mechanism, involving the exchange of IgG4 half-molecules (i.e. one heavy and one light chain). This hypothesis was based on the observed instability of the inter-heavy chain disulfide bonds of IgG4. To investigate this instability, we constructed IgG4 mutants and analyzed the covalent interaction between the heavy chains by sodium dodecyl sulfate-poly acrylamide gel electrophoresis (SDS-PAGE) under non-reducing conditions. The mutation to serine of one of the hinge cysteines involved in the inter-heavy chain bond formation, Cys226, resulted in a more stable rather than a more labile inter-heavy chain linkage. Moreover, we confirmed that mutating the IgG4 hinge sequence Cys-Pro-Ser-Cys to the IgG1 hinge sequence Cys-Pro-Pro-Cys also markedly stabilizes the covalent interaction between the heavy-chains. These two observations suggested an explanation for the observed instability of the inter-heavy chain disulfide bonds: the formation of an alternative, intra-chain cystine. Obviously, this intra-chain cystine cannot be formed in the mutant where Cys226 is replaced by Ser, and cannot easily be formed in the mutant with the IgG1 hinge sequence (Cys-Pro-Pro-Cys) due to the restricted torsional freedom of prolines. We, therefore, postulate that the lack of a covalent heavy-chain interaction in a subpopulation of IgG4 reflects an equilibrium between inter- and intra-chain cystines. Based upon the published structure of the IgG4-related hinge-deleted IgG1 myeloma protein Mcg, we propose a model for the two forms of IgG4 and for the half-molecule exchange reaction, which might result in the formation of bispecific IgG4 antibodies.
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PMID:The inter-heavy chain disulfide bonds of IgG4 are in equilibrium with intra-chain disulfide bonds. 1148 5

The X-ray structure of an immunoglobulin light-chain dimer isolated from the urine as a "Bence-Jones protein" from a patient with multiple myeloma and amyloidosis (Sea) was determined at 1.94 A resolution and refined to R and R(free) factors of 0.22 and 0.25, respectively. This "amyloidogenic" protein crystallized in the orthorhombic P2(1)2(1)2(1) space group with unit-cell parameters a = 48.28, b = 83.32, c = 112.59 A as determined at 100 K. In the vital organs (heart and kidneys), the equivalent of the urinary protein produced fibrillar amyloid deposits which were fatal to the patient. Compared with the amyloidogenic Mcg light-chain dimer, the Sea protein was highly soluble in aqueous solutions and only crystallized at concentrations approaching 100 mg ml(-1). Both the Sea and Mcg proteins packed into crystals in highly ordered arrangements typical of strongly diffracting crystals of immunoglobulin fragments. Overall similarities and significant differences in the three-dimensional structures and crystalline properties are discussed for the Sea and Mcg Bence-Jones proteins, which together provide a generalized model of abnormalities present in lambda chains, facilitating a better understanding of amyloidosis of light-chain origin (AL).
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PMID:Three-dimensional structure of an immunoglobulin light-chain dimer with amyloidogenic properties. 1197 93

Two polymorphisms of the human Ig(lambda) (IGL) locus have been described. The first polymorphism concerns a single, 2- or 3-fold amplification of 5.4 kb of DNA in the C(lambda)2-C(lambda)3 region. The second polymorphism is the Mcg(-)Ke(+)Oz(-) isotype, which has only been defined via serological analyses in Bence-Jones proteins of multiple myeloma patients and was assumed to be encoded by a polymorphic C(lambda)2 segment because of its high homology with the Mcg(-)Ke(-)Oz(-) C(lambda)2 isotype. It has been speculated that the Mcg(-)Ke(+)Oz(-) isotype might be encoded by a C(lambda) gene segment of the amplified C(lambda)2-C(lambda)3 region. We now unraveled both IGL gene polymorphisms. The amplification polymorphism appeared to result from a duplication, triplication, or quadruplication of a functional J-C(lambda)2 region and is likely to have originated from unequal crossing over of the J-C(lambda)2 and J-C(lambda)3 region via a 2.2-kb homologous repeat. The amplification polymorphism was found to result in the presence of one to five extra functional J-C(lambda)2 per genome regions, leading to decreased Ig(kappa):Ig(lambda) ratios on normal peripheral blood B cells. Via sequence analysis, we demonstrated that the Mcg(-)Ke(+)Oz(-) isotype is encoded by a polymorphic C(lambda)2 segment that differs from the normal C(lambda)2 gene segment at a single nucleotide position. This polymorphism was identified in only 1.5% (2 of 134) of individuals without J-C(lambda)2 amplification polymorphism and was not found in the J-C(lambda)2 amplification polymorphism of 44 individuals, indicating that the two IGL gene polymorphisms are not linked.
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PMID:Unraveling of the polymorphic C lambda 2-C lambda 3 amplification and the Ke+Oz- polymorphism in the human Ig lambda locus. 1207 54


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