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 mb-1 gene was originally identified based on its restricted expression in B lineage cells. Predicted structural homology with the gamma chain of the CD3 complex on T cells led to the suggestion that the MB-1 protein might associate with surface Ig(sIg) on B cells and be involved in signal transduction. Other studies identified at least two proteins that are noncovalently associated with sIgM, one of which has recently been shown to be the product of the mb-1 gene. To identify genes specifically expressed in normal human B cells we constructed a B minus T lymphocyte subtraction library and isolated a cDNA clone highly homologous to murine mb-1 (m-mb-1). A full-length cDNA was subsequently isolated and found to encode a membrane glycoprotein of 226 amino acids. It included a leader sequence (32 amino acids), an extracytoplasmic domain (111 amino acids) containing six potential N-glycosylation sites and three cysteine residues for potential inter- or intrachain disulfide linkages, a transmembrane domain (22 amino acids), and an intracytoplasmic domain (61 amino acids). The amino acid sequence homology between human and mouse mb-1 was especially striking (approximately 92%) in the intracytoplasmic, transmembrane, and membrane-proximal extracellular domains but was less marked (approximately 42%) in the remaining extracytoplasmic portion. Interestingly, part of the 3'-untranslated region was also highly conserved between species, suggesting an important role for this region in the regulation of mb-1 expression. The human mb-1 (h-mb-1) cDNA hybridized with a mRNA species of approximately 1.2 kb on Northern blots. Similar to m-mb-1, the h-mb-1 transcripts could be detected in pre-B cell lines and fetal bone marrow, in normal, mitogen activated- and transformed B cells but not in myeloma plasma cells. h-mb-1 was not expressed in peripheral T cells nor by cells of other hemopoietic lineages or in brain, heart, muscle, lung, and kidney. Surprisingly, however, low levels of h-mb-1 transcripts were detectable in two early T lineage cell lines and in the fetal thymus. This suggests that mb-1 may have other functions in addition to its role in signal transduction in B lineage cells.
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PMID:Molecular cloning and expression pattern of a human gene homologous to the murine mb-1 gene. 153 35

Membrane-bound immunoglobulins of the IgM and IgD class are expressed on the B cell surface in association with a disulfide-linked heterodimer consisting of alpha and beta subunits. While the alpha component of the IgM antigen receptor (IgM-alpha, 34 kDa) is encoded by the B cell-specific gene mb-1, the gene coding for IgD-alpha (35 kDa) has not yet been identified. We show here that the alpha component of the IgD antigen receptor is also encoded by the mb-1 gene. The difference in molecular weight between IgM-alpha and IgD-alpha thus seems to be due to post-translational modifications of the mb-1 gene product. We also demonstrate that the previously described myeloma variant J558L delta m2.6 expresses an alternative form of the IgD antigen receptor, which does not contain an alpha/beta heterodimer.
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PMID:The B cell antigen receptor of class IgD can be expressed on the cell surface in two different forms. 191 50

Beside the immunoglobulin (Ig) heavy and light chains the murine B cell receptor of the IgM class contains a heterodimer of two transmembrane proteins (IgM-alpha and Ig-beta). By N-terminal sequencing of IgM-alpha and Ig-beta we have identified the genes encoding these proteins as mb-1 and B29, respectively. Both genes are B cell specific and have been previously cloned from B minus T cell subtractive cDNA libraries. We have constructed expression vectors of the two genes and demonstrate that expression of the mb-1 and B29 genes can influence the surface expression of IgM in micron-transfected myeloma cells. From the known sequences of the IgM-alpha and Ig-beta proteins and from the results of previous transfection experiments with various vectors expressing the mu chain we have developed a structural model of the B cell antigen receptor of class IgM which we compare with that of the T cell antigen receptor.
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PMID:Identification of the genes encoding the IgM-alpha and Ig-beta components of the IgM antigen receptor complex by amino-terminal sequencing. 226 34

The CD79 molecule, comprising two polypeptide chains, mb-1 (CD79a) and B29 (CD79b), is physically associated in the B-cell membrane with immunoglobulin. It transmits a signal after antigen binding and may, therefore, be considered the B cell equivalent of CD3. It appears before the pre-B-cell stage, and the mb-1 (CD79a) chain can still be present at the plasma cell stage. In this report, we describe a new anti-CD79a monoclonal antibody, JCB117, which reacts with human B cells in paraffin embedded tissue sections, including decalcified bone marrow trephines. When tested on a total of 454 paraffin embedded tissue biopsies, gathered from a number of different institutions, it reacted with the great majority (97%) of B-cell neoplasms, covering the full range of B-cell maturation, including 10 of 20 cases of myeloma/plasmacytoma. It is of interest that the antibody labels precursor B-cell acute lymphoblastic leukemia samples, making it the most reliable B-cell marker detectable in paraffin-embedded specimens in this disorder. All neoplasms of T cell or nonlymphoid origin were negative, indicating that antibody JCB117 may be of value to diagnostic histopathologists for the identification of B-cell neoplasms of all maturation stages.
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PMID:CD79a: a novel marker for B-cell neoplasms in routinely processed tissue samples. 763 52

The B cell antigen receptor of class IgM is a multimeric protein complex containing the membrane-bound immunoglobulin molecule and a heterodimer of the two B cell-specific transmembrane proteins Ig-alpha and Ig-beta. The B cell antigen receptor fulfills a dual role on the surface of B cells. First, it is a signal transduction complex which can activate protein tyrosine kinases and induce the release of Ca2+ ions from intracellular stores. Second, its internalization mediates the specific uptake of bound antigens, which are processed intracellularly and presented as major histocompatibility complex-bound peptides on the cell surface. In case of the IgM antigen receptor, the association with the heterodimer is necessary for expression of large amounts of IgM on the surface. We show here that the IgG2a antigen receptor can be expressed on the surface of myeloma cells in two structurally different forms: either with or without the Ig-alpha/Ig-beta heterodimer. A functional comparison of the two forms of antigen receptors demonstrates that the Ig-alpha and Ig-beta molecules are required for the activation of protein tyrosine kinases after cross-linking of the B cell antigen receptor. In contrast, both forms of IgG2a are equally well internalized. This suggests that Ig-alpha and Ig-beta are essential for signal transduction through the IgG2a antigen receptor, whereas internalization can occur independently of the heterodimer.
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PMID:The internalization of the IgG2a antigen receptor does not require the association with Ig-alpha and Ig-beta but the activation of protein tyrosine kinases does. 812 35

The B cell antigen receptor (BCR) is a multimeric protein complex consisting of the ligand binding immunoglobulin molecule and the Ig-alpha/beta heterodimer that mediates intracellular signalling by coupling the receptor to protein tyrosine kinases (PTKs). Transfection of the Ig-alpha deficient myeloma cell line J558L microns with expression vectors coding for mutated Ig-alpha allowed us to test the function of the tyrosines in the cytoplasmic region of Ig-alpha in the context of the BCR. Furthermore we expressed Ig-alpha mutations as chimeric CD8-Ig-alpha molecules on K46 B lymphoma cells and tested their signalling capacity in terms of PTK activation and release of calcium. We show here that the conserved tyrosine residues in the cytoplasmic portion of Ig-alpha have a dual role. First, they are required for efficient activation of PTKs during signal induction and second, one of them is subject to phosphorylation by activated src-related PTKs. Phosphorylation on tyrosine in the cytoplasmic portion of Ig-alpha is discussed as a possible mechanism to couple the BCR to SH2 domain-carrying molecules.
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PMID:Dual role of the tyrosine activation motif of the Ig-alpha protein during signal transduction via the B cell antigen receptor. 830 75

Pax5 plays a key role in the progression of B cell development. Its expression is observed in a wide range of cell types from early lineage-committed precursors up to mature B cells, but is silenced in terminal differentiated plasma cells. In this report, we show that DNA methylation is involved in the silencing of Pax5. In the Pax5-expressing cell lines 38B9 (pre-B) and 2PK-3 (mature B), all CpG sites in TATA-containing upstream promoter were unmethylated, whereas these sites were completely methylated in myeloma cell lines FO and Sp-2/0, which do not express Pax5. Demethylation of FO and Sp-2/0 with 5-aza-2'-deoxycytidine (5-aza-dC) resulted in Pax5 re-expression with the concomitant expression of CD19 and mb-1 genes, which are known to be the target genes of Pax5. Re-expression of Pax5 was also induced by trichostatin A (TSA), which was a specific inhibitor of histone deacetylase. This re-expression was, however, transcribed only from the TATA-less downstream promoter. Taken together, we concluded that the upstream promoter was predominantly inactivated by DNA methylation, while the downstream promoter was repressed by the histone deacetylation. This synergetic inactivation of two promoters results in the final silencing of Pax5 expression in terminally differentiated B cell lines.
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PMID:DNA methylation dominates transcriptional silencing of Pax5 in terminally differentiated B cell lines. 1204 82