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 mouse myeloma cell line MPC 11 carries two C gamma 2a immunoglobulin heavy-chain genes on the expressed chromosome, a duplication shown to have occurred through unequal sister chromatid exchange (USCE). In the present report, we present the nucleotide sequence of the USCE joint and show that both breaks occurred within tracts of repeated TC dinucleotides. Additional TC dinucleotide tracts and two oligonucleotide segments (N sequences) were inserted at the USCE site.
Mol Cell Biol 1989 Mar
PMID:Nucleotide sequence of an unequal sister chromatid exchange site in a mouse myeloma cell line. 272 1

Nuclei of different cell lines contain protein factors interacting with octamer ATTTGCAT. Fragment k53 of kappa-gene promoter region was used as DNA-probe. The factors from lymphoid cells yield a DNA/protein complex with mobility B0. The proteins are referred to as HF-B0. The nonspecific ubiquitous factor present in many non-lymphoid cells (for instance, HeLa cells) interacts with the probe to produce a complex whose mobility is much lower. The protein NF-B0 was isolated from the nuclear extract of myeloma MOPC21 cells. It was purified by chromatography on ion exchangers, hydroxylapatite, heparin-Sepharose and affinity sorbent containing a synthetic octamer sequence. At all the steps of purification, protein fractions were chosen for their ability to interact selectively with the octamer yielding a complex with the mobility B0. As a result, NF-B0 protein (60 +/- 2)kDa was purified 6.10(4) times to the electrophoretically homogeneous state. Purified factor NF-B0 selectively interacts with the octamer.
Mol Biol (Mosk)
PMID:[Protein factors, interacting with the octamer sequence of immunoglobulin genes]. 277 Jul 40

The urinary light chain dimer and serum monoclonal IgG1 protein from a patient (Mcg) with multiple myeloma and amyloidosis were systematically tested for their binding activities to peptides presented on solid supports. The system was validated using a series of enkephalins, beta-casomorphins and DNP-lysine derivatives which were known to complex with the dimer. Sets of peptide ligands binding to the proteins were constructed by incremental additions of amino acid residues to minimal binding units [Geysen et al., J. Immun. Meth. 102, 259-274 (1987)]. Both the amino acid sequences and the combinations of optical isomers were optimized at each stage of the syntheses. Binding could be demonstrated for ligands ranging in size from a tethered single amino acid to pentapeptides. At the dipeptide levels, the dimer and the IgG1 protein showed different preferences (Hp versus qf, where lower case letters designate D-amino acid residues). However, in a tetrapeptide ligand (qfHp) for the dimer, both of these initial preferences had converged. With few exceptions, the IgG1 molecule showed binding activity for the ligands developed for the dimer. Two sets of selected peptides, one based on Hp and the other on mW, were synthesized for diffusion into crystals of the dimer. X-ray analyses showed that these peptides bound exclusively in the main binding cavity between the "variable" domains of the dimer. As predicted from the ELISA results with tethered ligands, the relative occupancies in the crystals followed the order of tetrapeptide greater than tripeptide much greater than dipeptide. The crystallographic studies confirmed that peptides with very different sequences can bind in the same cavity.
Mol Immunol 1989 Jul
PMID:Similar binding properties of peptide ligands for a human immunoglobulin and its light chain dimer. 277 86

The immunoglobulin heavy-chain enhancer is a cis-acting element which activates transcription of nearby genes only in cells of the lymphoid lineage. To identify the minimal sequences necessary to impart cell type transcriptional specificity, we tested the activity of several deletions and internal mutations in the mu enhancer. Experiments involving measurement of both chloramphenicol acetyltransferase activity and RNA levels indicated the presence of a dominant repressor element within the mu enhancer. This repressive activity was detected in fibroblasts but not in myeloma cells. Removal or disruption of this repressor element revealed the presence of elements within the mu enhancer that activate transcription in fibroblasts. Thus, enhancer tissue specificity is in part due to the composite of both constitutive activation and cell-type-specific repressive activity. The possible biological roles of this phenomenon are discussed.
Mol Cell Biol 1988 Feb
PMID:Localization of a repressive sequence contributing to B-cell specificity in the immunoglobulin heavy-chain enhancer. 283 47

Murine leukemia virus (MuLV) induced T-lymphomas bear surface receptors specific for the leukemogenic retroviruses they produce. We have proposed that such virus receptors on lymphoid tumors are the antigen-specific receptors present on their normal lymphocyte counterparts. To determine the relationship between immune receptors and virus receptors on malignant lymphocytes, a spontaneous B cell lymphoma, BCL1, was investigated. BCL1-lymphoma cells from an in vivo passaged BCL1-cell line grew in vitro only in contact with splenic stromal cells. These stromal cells produced a retrovirus, termed BCL1-V, which was lymphotropic but not leukemogenic. BCL1 cells bound BCL1-V, whereas normal spleen cells did not. Isolated BCL1-IgM bound BCL1-V, whereas three other IgM myeloma proteins, MOPC-104E, CBPC-112, and HPC-76, did not. Rat anti-BCL1-IgM monoclonal antibodies recognizing mu chain isotypic determinants and BCL1-specific idiotypic specificities, blocked BCL1-V binding to BCL1 IgM. These data support the receptor mediated leukemogenesis hypothesis, suggest a role for virus:cell surface immunoglobulin interactions in the development of B cell lymphoma, and implicate an antigen presenting cell population in the lymphomagenic process.
J Mol Cell Immunol 1987
PMID:Receptor mediated leukemogenesis: murine leukemia virus interacts with BCL1 lymphoma cell surface IgM. 285 8

The expressed immunoglobulin gamma 2b (IgG2b) heavy-chain gene of 4T001 was cloned into the shuttle vector pSV2-gpt and transfected into myeloma J558L and lymphoma A20.2J. Northern blots indicated that the transfected gamma 2b gene was processed in a manner similar to the endogenous heavy chain in both lymphoma and myeloma cells. To identify sequences important for immunoglobulin mRNA processing, we constructed deletions around the secretion-specific polyadenylation site and introduced the deleted genes into J558L cells. The BAL deletion lacked 670 base pairs of intervening sequence between secreted and membrane regions; the Kpn deletion lacked 830 base pairs in this region. J558L cells transfected with either the entire gamma 2b gene or the delta BAL vector produced predominantly secretion-specific gamma 2b mRNA and protein. J558L cells transfected with the delta Kpn vector produced approximately equimolar amounts of secretion-specific and membrane-specific gamma 2b mRNA. Both 55,000-dalton secreted and 62,000-dalton putative surface IgG2b proteins were detected in the delta Kpn transfectants. We conclude that sequences absent in the Kpn deletion but present in the BAL deletion exert an important role in the production of secretion-specific mRNA. The Kpn deletion removes the normal site of cleavage and poly(A) addition, and it is possible that it is the absence of this site which changes the processing pattern. Alternatively, it is possible that sequences absent in the Kpn deletion but present in the BAL deletion function in regulating the production of predominantly secretion-specific mRNA in myeloma cells. The possible role of a highly conserved sequence found in this region is discussed.
Mol Cell Biol 1986 May
PMID:Sequences near the 3' secretion-specific polyadenylation site influence levels of secretion-specific and membrane-specific IgG2b mRNA in myeloma cells. 287 62

Ten cases of multiple myeloma are reported in which there were a large number of plasma cells with excessively convoluted or lobulated nuclei. These cases represent 3% of the 297 evaluable multiple myeloma patients treated at our institution over a 22-year period. All 10 had intermediate or advanced stage disease at the time of diagnosis, and all have died after a mean survival of 19.5 months. Ultrastructural features of 2 cases are described. When found in abundance, such cells can cause difficulty in establishing a morphologic diagnosis of multiple myeloma because of their resemblance to other cell types. Therefore, it may be necessary to perform immunoperoxidase staining and/or electron microscopy to confirm the plasmacytic identity of these cells. The findings add further support to the contention that the presence of excessive nuclear convolutions is not a completely reliable indication of T-cell, as opposed to B-cell, lineage.
Virchows Arch B Cell Pathol Incl Mol Pathol 1988
PMID:Multiple myeloma associated with multilobated plasma cell nuclei. 290 Nov 68

Permeabilized nuclei from mammalian cells encapsulated within agarose microbeads in an isotonic buffer are active in transcription and replication (Jackson, D. A., and P. R. Cook. 1985. EMBO (Eur. Mol. Biol. Organ.) J. 4:913-918). Their DNA is intact and the nuclei are accessible to macromolecules. Myeloma nuclei prepared in this way were used to probe the extent of DNA negative supercoiling and the effects of altering torsional strain by binding radioactively labeled monoclonal antibodies to Z-DNA. Control experiments used monoclonal antibodies against a nonhistone chromosomal protein, HMG-17. On increasing the amount of anti-HMG-17 added, a binding plateau was reached encompassing a 200-fold range of antibody concentration. On binding anti-Z-DNA antibody, a similar broad plateau of constant binding was found encompassing a 100-fold range of antibody concentration. The latter result was taken as a measure of preexisting Z-DNA in the nuclei. Additional anti-Z-DNA antibody binding can be "induced" in the presence of much higher concentration of antibody, apparently by perturbing the B-DNA/Z-DNA equilibrium. On inhibiting topoisomerase I with camptothecin, an elevated antibody binding plateau was found, suggesting that elastic torsional strain in the DNA is responsible for stabilizing the preexisting Z-DNA. This interpretation is supported by the fact that addition of small, nicking amounts of DNase I leads to a complete loss of antibody binding in the Z-DNA plateau region but not in the region of "induced" Z-DNA.
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PMID:The level of Z-DNA in metabolically active, permeabilized mammalian cell nuclei is regulated by torsional strain. 292 Dec 82

In the accompanying paper (Friedman et al., Mol. Cell. Biol. 6:3791-3797, 1986), hepatoma-specific expression of the rat albumin promoter within the adenovirus genome was demonstrated. However, the rate of transcription was very low compared with that of the endogenous chromosomal albumin gene. Here we show that in hepatoma cells the adenovirus E1A enhancer, especially in the presence of E1A protein, greatly stimulates transcription from the albumin promoter but not the mouse beta-globin promoter. This enhancer-dependent stimulation did not occur in myeloma cells in which a virus containing a immunoglobulin promoter and enhancer did function. These experiments suggest a limited distribution in cultured differentiated cells of cell-specific transcription factors. However, either the regulation of such cell-specific factors breaks down in other cultured cells, or strictly cell-specific factors are not at play in controlling cell-specific transcription, because HeLa cells could transcribe the albumin promoter from the same start site about 10% as well as hepatomas could and 293 cells could transcribe both albumin and globin promoters.
Mol Cell Biol 1986 Nov
PMID:Cellular promoters incorporated into the adenovirus genome: effects of viral regulatory elements on transcription rates and cell specificity of albumin and beta-globin promoters. 294 9

Recombinant adenoviruses were constructed in which the viral E1A gene was deleted and the E1B promoter was replaced by the rat albumin, mouse beta-major globin, or mouse immunoglobulin heavy-chain promoter. After infection of human or rat hepatoma cells, E1B-containing mRNAs could be detected only from the virus containing the albumin promoter. Conversely, only the immunoglobulin promoter was active in virus-infected myeloma cells. However, in hepatoma cells transcription from the albumin promoter in the virus was much less than that of the endogenous cellular albumin gene or of other viral genes. In primary mouse hepatocytes endogenous albumin gene transcription was high immediately after plating but declined within 24 h. Expression of the albumin promoter in the virus paralleled that of the cellular albumin gene. From these results it appears that cell-specific expression of albumin depends on the presence of tissue-specific trans-acting factors, but the presence of such factors does not suffice for a maximal rate of transcription, a conclusion that requires direct comparison within a differentiated cell of a newly introduced and preexisting active cell gene.
Mol Cell Biol 1986 Nov
PMID:Cellular promoters incorporated into the adenovirus genome: cell specificity of albumin and immunoglobulin expression. 294 8

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