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)

The structure and antigenic characteristics of a human k, IgG myeloma protein that formed half-molecules were analyzed. Most of the myeloma protein found in the patient's serum and urine consisted to two chain 4.3S half-molecules. A small amount of four chain 7S myeloma protein was, however, found in the serum and was apparently formed by the same clone of tumor cells. Polyacrylamide gel electrophoresis in 8 M urea and 1% sodium dodecyl sulfate and analytical ultracentrifugation in 6 M guanidine of the fully reduced and alkylated half-molecule indicated that this myeloma protein had a heavy chain of a smaller molecular weight (approximately 45,000) than that of normal gamma chains, Except for this apparent deletion, the heavy chain resembled gamma1 chains. The amino acid composition of the peptides containing the half-cysteine residues forming the interchain disulfide bonds, the glycopeptide of the Fc fragment and the COOH-terminal structure were similar if not identical with the analogous structures of gamma1 chains. No Fc fragment could be prepared because the Fc portion of the heavy chain of the myeloma protein was extremely susceptible to degradation with papain. After mild reduction and alkylation, the 7S myeloma protein dissociated into half-molecules, indicating a lack of noncovalent interactions in the Fc fragment that are present in all classes of human immunoglogulins and are responsible for the formation ofFc dimers. The half-molecule was antigenically deficient in the Fc fragment. It failed to precipitate with anti-Fc fragment antisera in double gel diffusion tests and inhibited a Fc-anti-Fc fragment binding reaction weakly and incompletely. The half-molecule and the 7S protein had the same genetic markers on the first and second homology region of the gamma chain. The half-molecule lacked, however, the corresponding markers on the third homology region, These findings suggest that this myeloma protein had a deletion in the gamma chain which was probably located in third homology region and was likely the structural abnormality responsible for the lack of noncovalent interaction in the Fc fragment and absence of most of the antigenic determinants characteristic of gamma chains.
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PMID:Human myeloma IgG half-molecules. Structural and antigenic analyses,. 5 83

The partially purified immunoglobulin light chain messenger RNA fraction from P3K (MOPC 21) mouse myeloma tissue-culture cells has been employed in hybridisation studies. Fragments of the messenger RNA were generated by alkali hydrolysis. 6-S fragments not containing poly(A) showed the characteristic biphasic hybridisation profile seen with the intact RNA fraction. 12-S and 6-S poly(A)-containing fragments, however, showed single transitions lacking the rapidly hybridising component. Complementary DNA copies of the intact messenger RNA fraction were prepared with RNA-dependent DNA polymerase and the DNA populations fractionated on acrylamide gels. Hybridisation experiments with complementary DNA fractions up to 800 bases in length showed annealing to single (or a few) genes. A rapidly hybridising component (about 200 copies) appears in the cDNA fraction containing the largest transcripts. We conclude that the kappa constant region gene and the MOPC 21 variable region gene are present as one or a few copies in the haploid genome and that the rapidly hybridising component is not due to variable region genes.
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PMID:Mouse immunoglobulin genes: studies on the reiteration frequency of light-chain genes by hybridisation procedures. 5 93

Total poly(A)-mRNA from polyribosomes of MOPC 21 mouse myeloma were investigated. Poly(A)-mRNA was released by two successive chromatography on oligo (dT)-cellulose. A 14S fraction of total poly(A)-mRNA was obtained and partially purified by sucrose gradient centrifigation followed by acrylamide gel electrophoresis. As estimated from the electrophoretic analysis, the 14S mRNA has three components, one of which appears to be 18S rRNA and two others--mRNAs with molecular weight of 5.2.10(5) and 3.8.10(5), respectively. Total poly(A)-mRNA and partially purified 14S mRNA were active when employed as a template in a reverse transcription and cell-free system from wheat germ. DNA complementary to the 14S mRNA was prepared with avian myeloblastosis virus RNA-dependent DNA polymerase. This cDNA was heterogeneous in size with the average size of about 800 nucleotides when analyzed by gel electrophoresis in 98% formamide. The maximal length was about 1100 nucleotides that consistent with full template length. About half of the translation product directed by the 14S mRNA migrated as mature L-chain Ig (upon polyacrylamide gel electrophoresis in sodium dodecylsulfate). The presented data suggested that 14S mRNA species contain mRNA L-chain Ig.
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PMID:[mRNA of mouse plasmacytoma. Reverse transcription and translation in cell-free systems]. 8 67

Somatic cell hybrid clones were isolated from the fusion of RPC 5,4 mouse myeloma cells and B lymphocytes from three patients with agammaglobulinemia. One patient had X-linked agammaglobulinemia; the remaining two patients had common varied agammaglobulinemia. All three patients had B lymphocytes which fail to secrete immunoglobulin. The hybrid nature of the clones was established by examination of metaphase chromosome spreads. Most of the clones from all three patients expressed surface immunoglobulin of mouse and human parental origin. Clones from two of the patients had fewer cells with surface Ig than hybrids from normal persons, while clones from the third patient had large numbers of surface Ig fluorescent cells. Most of the clones from all three patients synthesized and secreted human and mouse immunoglobulin. As determined by sodium dodecyl sulfate acrylamide gel electrophoresis of radioactively labeled proteins, clones from each of the patients produced human gamma, alpha, and mu-heavy chains. These studies demonstrate the presence of functional structural genes coding for human immunoglobulin heavy chains in B lymphocytes of patients with agammaglobulinemia. Further, they represent induction in the somatic cell hybrids of a gene product not expressed in the parental B lymphocytes.
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PMID:Induction of human immunoglobulin synthesis and secretion in somatic cell hybrids of mouse myeloma and human B lymphocytes from patients with agammaglobulinemia. 10 May 74

The method of preparative isotachophoresis in acrylamide gel ensuring a high yield of IgD and IgE with insignificant admixtures of IgG, etc. was used for the isolation of IgD and IgE from the blood sera of myeloma patients. As a result of immunization with these antigens, monospecific IgD and IgE antisera were obtained. These antisera, alongside with specific antibodies, contained antibodies to admixtures; the latter were eliminated by the method of immune absorbtion carried out with the use of a sorbent based on Sepharose activated with bromo-cyanogen and conjugated with normal human blood serum. Ig D antisera were also shown to contain antibodies to idiotypical IgD determinants located in the Fab fragment of this immunoglobulin.
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PMID:[Isotachophoretic isolation of IgD and IgE and production of monospecific antisera against them]. 11 52

A companion paper in this issue (46) described the evolution of peripheral nervous system dying-back disease of the giant axonal type in animals chronically intoxicated with the neurotoxic hexacarbons n-hexane (CH3CH2CH2CH2CH2CH3), methyl n-butyl ketone or MBK (CH3COCH2CH2CH2CH3), and 2,5-hexanedione (CH3COCH2CH2COCH3). The present study compares the distribution and pattern of peripheral (PNS) and central nervous system (CNS) dying-back disease produced by these three neurotoxic hexacarbons with that produced by acrylamide (CH2CHCONH2), and, in addition, employs these compounds to address unresolved issues in the dying-back process. In the PNS, large myelinated fibers in tibial nerve branches supplying calf muscles were especially sensitive in rats intoxicated with hexacarbons. These nerve branches and sensory plantar nerves in the hindfeet were equally vulnerable in acrylamide-treated rats. In both conditions, fibers located at these sites commenced degeneration before the distal regions of much longer and smaller diameter nerve fibers in nerve branches supplying the flexor digitorum brevis muscle and, in rats intoxicated with hexacarbons, before equivalent regions of plantar sensory branches to the digits. Pacinian corpuscles sited in the hindfeet of intoxicated cats were much less vulnerable to MBK than to acrylamide. Rats and cats intoxicated with hexacarbons displayed giant axonal swellings in vulnerable regions of the PNS degeneration in these animals was accompanied by pronounced endoneurial edema. In the CNS, rostral regions of long, ascending tracts (dorso-spino-cerebellar, gracile and, later, the cuneate) and the caudal end of long, descending tracts (lateral colums, ventrolateral and ventromedial tracts) of hexacarbon-treated animals were especially vulnerable. After prolonged intoxication of cats with MBK, giant axonal swelling was also found in preterminal and terminal axons in Rexed laminae V-VII at spinal levels C4 through S3-Neurofilament proliferation without giant axonal swelling was seen in CNS fibers of rats intoxicated with acrylamide. Taken in concert, the findings underline the importance of axon diameter and length in determining the hierarchy of fiber vulnerability and indicate the common sensitivity of selected regions of the PNS and CNS. The term central-peripheral distal axonopathy is introduced to emphasize the widespread, distal distribution of disease in these and in similar experimental conditions. It is suggested that certain human neuropathies (toxic, nutritional, uremic, diabetic and some hereditary polyneuropathies, and the neuropathy associated with multiple myeloma) are additional examples of central-peripheral distal axonopathies.
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PMID:Ultrastructural studies of the dying-back process. IV. Differential vulnerability of PNS and CNS fibers in experimental central-peripheral distal axonopathies. 19 Mar 58

Infection of mouse myeloma cells (MPC-11) with vesicular stomatitis (VS) virus resulted in rapid and marked reduction in cellular RNA synthesis considerably before cell viability was compromised. Mouse myeloma cells responded maximally to viral infection at a multiplicity of 1 and were considerably more se;sitive to shut-off of RNA synthesis than were mouse L cells or BHK-21 cells. This inhibition of cellular RNA synthesis was shown not to be caused by differential membrane permeability of infected and uninfected MPC-11 cells to [3H]uridine, nor was it due to greater degradation of previously synthesized RNA. VS viral infection appeared not to impede transport of newly synthesized nuclear RNA to the cytoplasm; moreover, infected cells accumulated polyadenylated mRNA at the same rate as did uninfected cells. Polyacrylamide gel electrophoresis of newly synthesized nuclear RNA demonstrated that the polydisperse nature and size distribution were not affected by VS viral infection. Isolated nuclei of infected MPC-11 cells also inhibited greatly impaired capacity to synthesize RNA despite the absence of cytoplasmic factors. Infected-cell cytosol did not inhibit transcription by uninfected-cell nuclei, nor did uninfected-cell cytosol reverse viral inhibition of nuclear transcription. Studies with alpha-amanitin revealed that VS viral infection inhibited the activity of polymerases I, II, and III, but only polymerase II was affected progressively throughout infection and to a much greater extent. These data suggest that, even at low multiplicities of infection, VS virus rapidly shuts off cellular RNA synthesis at the level of nuclear transcription.
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PMID:Inhibition of RNA synthesis in mouse myeloma cells infected with vesicular stomatitis virus. 20 71

Peripheral blood leukocytes (PBL) from myeloma patients were studied for their capacity to lyse plasma cells from myeloma patients, benign monoclonal gammopathy (BMG) patients, and nonneoplastic disease patients. Plasma cells were isolated from bone marrow, labeled with 51Cr, and cultured with PBL isolated from patients with myeloma, BMG, or nonneoplastic disease, as well as normal individuals. PBL from patients with multiple myeloma demonstrated responses to autologous or allogeneic myeloma plasma cells. Optimum conditions for cytotoxic response included a responder-to-stimulator ratio of 1:1 and an effector-to-target ratio of 20:1. PBL from normal individuals or patients with BMG failed to demonstrate this response. However, PBL from BMG patients, but not normal individuals, could be induced to kill myeloma plasma cells (but not nonmyeloma plasma cells) by simultaneous stimulation with allogeneic lymphocytes and myeloma plasma cells.
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PMID:In vitro cytotoxic response to human myeloma plasma cells by peripheral blood leukocytes from patients with multiple myeloma and benign monoclonal gammopathy. 44 67

Affinity chromatography of IgG on protein A-Sepharose was used to isolate the human subclass IgG3 from normal serum and from a patient with multiple myeloma. The isolated material was purified by chromatography on Sephadex G-150 and characterized immunochemically. Ultracentrifugation studies gave so20,w values of about 6.80 for both normal and myeloma IgG3. Approximately 54 half-cystine residues per molecule of IgG3 were obtained as judged from amino acid analysis after performic acid oxidation of the proteins. Polyacrylamide gel electrophoresis in 0.1% sodium dodecyl sulfate of the isolated and reduced material resulted in two bands corresponding to molecular weights of approximately 23,000 and 56,000, respectively. The yield of normal human IgG3 represented 1%-2% of the total IgG.
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PMID:Isolation of IgG3 from normal human sera and from a patient with multiple myeloma by using protein A-sepharose 4B. 81 76

A mutant cell line (IF2) derived from the mouse myeloma MOPC 21 has been used for the isolation and sequence analysis of H-chain mRNA. The IF2 cells synthesise an H-chain of reduced size in which the CH1 homology region is missing. Sizing of the IF2 H-chain mRNA and wild-type H-chain mRNA revealed that the deletion is expressed at the mRNA level. The mutant H-chain mRNA sedimented at 16-S, enabling effective resolution from 18-S ribosomal RNA. In experiments using IF2 cells labelled with [32P]phosphate, the 16-S mRNA was purified by oligo(T)-cellulose chromatography. Polyacrylamide gel analysis of the poly(A)-containing fraction showed the presence of a single radioactive band. Comparison of the mobility of this band relative to markers of known molecular weight revealed that the molecule contained about 1600 nucleotides. Digestion of the 32-P-labelled mRNA with T1 ribonuclease and two-dimensional fractionation of the resulting oligonucleotides yielded a 'finger-print' suitable for a preliminary sequence analysis. By using the established amino acid sequence of the IF2 H-chain and a knowledge of the genetic code, 14 oligonucleotides were assigned within the constant region and four within the variable region of the IF2 H-chain. This sequence data accounts for 19.5% of the coding region. Several other oligonucleotides, which could not be assigned within the coding region but which occurred in approximately molar yield, have also been partially characterised. These oligonucleotides are presumably derived from the untranslated regions of mRNA.
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PMID:Purification and sequence analysis of the mRNA coding for an immunoglobulin heavy chain. 81 96

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