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)

The technique of premature chromosome condensation was combined with immunocytochemical techniques to determine the karyotype of the plasma cells in a patient with multiple myeloma. Although the patient's myeloma cells had a diploid DNA content, the mean chromosome number was 39. Multiple chromosome rearrangements were documented in the G- and C-banded G1 and G2 prematurely condensed chromosomes, and several of these involved telomeric regions resulting in dicentric chromosomes. That the aberrant karyotype was present in the kappa light chain positive plasma cells was proved by simultaneous chromosome analysis and immunocytochemical examination of the fused cells. Thus the combination of premature chromosome condensation and immunocytochemistry proved a powerful tool for cytogenetic analysis of a slow-growing, heterogeneous cell population.
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PMID:Simultaneous cell type identification and premature chromosome condensation analysis in a case of multiple myeloma. 250 6

The karyological study of 10 mouse hybridomas revealed that all cells in two hybridoma clones, as well as in two subclones isolated from the third hybridoma, contained specific clonal biarmed markers, atypical for myeloma parent cells X63.Ag8.653. The proportion of cells with additional new meta- and submetacentric markers, which were different in the cells of the same culture, reached 0.38-0.56 in some of the hybridomas under study. The above biarmed chromosomes were, probably, formed as the result of the centromeric fusions of subtelocentrics. The presence of identical new biarmed chromosomes in all cells in some hybridoma cultures could be attributed to the fact that all these cells originated from a single initial cell, already containing such marker (or markers). The results of the cytogenetic analysis may confirm the monoclonal origin of a considerable part of mouse hybridomas.
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PMID:[Chromosome markers of murine hybridomas]. 345 1

C.B-20 (Ighb) but not (C.B-20 X BALB/c)F1 mice reject BCL1, a sIg+ tumor that spontaneously arose in an Igh congenic BALB/c (Igha) mouse. C.B-20 immune T cells from mice immunized with either BCL1 or BALB/c splenocytes adoptively transfer tumor protection to sublethally irradiated C.B-20 but not BALB/c or (BALB/c X C.B-20)F1 mice. These data suggest that BALB/c and BCL1 share an antigen, which if present in the host prevents the immune cells from eradicating the tumor. The antigen is controlled by H-40, a gene that maps to the C end of the Igh complex, telomeric to Tsu and in the region of Pre-1. The ability of H-40 to act as a tumor antigen for other BALB/c tumors inoculated into C.B-20 hosts was investigated. H-40 did not elicit rejection of P1798 (T lymphoma), Meth A (fibrosarcoma), or MOPC-315 (alpha, lambda myeloma) tumor cells. C.B-20 mice that previously rejected BCL1, however, showed partial resistance to a low challenge dose of the MOPC-104E (mu, lambda myeloma) tumor. These data suggest that H-40 has a differential degree of expression on BALB/c tumor cells. The ability of the adoptively transferred cells to confer protection against BCL1 is abrogated by pretreatment of the cells with anti-Lyt-1 or anti-Lyt-2 antibodies. However, an admixture of anti-Lyt-1- and anti-Lyt-2-treated cells provided protection. These data, together with the results detected by cytotoxic T lymphocyte (CTL) activity in vitro, indicate that H-40 can serve as a target antigen for tumor rejection by CTL in allogeneic hosts. The implications of the results for allogeneic bone marrow transplantation into leukemic individuals who benefit from a graft vs leukemia effect are discussed.
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PMID:H-40, an antigen controlled by an Igh-linked gene and recognized by cytotoxic T lymphocytes. II. Recognition of H-40 as a tumor antigen in leukemic animals. 643 38

Because metaphase cytogenetic studies in multiple myeloma (MM) are hampered by a low proliferative activity of myeloma cells in vitro, interphase cytogenetics by means of fluorescence in situ hybridization (FISH) should improve the detection of chromosomal abnormalities in MM. We therefore investigated chromosomal aneuploidy in 36 patients with MM using interphase FISH and alpha-satellite DNA probes for chromosomes 1, 3, 7, 8, 11, 12, 16, 17, 18, and X. By FISH, myeloma cells from 32 patients (88.9%) were aneuploid for at least one of the chromosomes examined. In 24 patients (66%), aberrations of > or = 3 chromosomes were observed. Aneuploidy was predominantly characterized by a gain of chromosome numbers, with involvement of chromosomes 3, 7, and 11 occurring in > 50% of patients. Loss of a centromeric signal suggesting monosomy was most frequently observed for chromosomes 17 (22.2% of patients) and X (monosomic in 42.3% of female patients, but loss of chromosome X was never observed in males, P < 0.05). Dual-color FISH studies provided evidence for marked heterogeneity of aneuploid cells in 8 patients (22.8%). Occurrence of chromosomal aneuploidy was independent of stage and pretreatment status. Gain of chromosome 3 was significantly correlated with an IgA paraprotein (P < 0.05). In 12 patients, the direct comparison of metaphase cytogenetics and FISH showed that FISH detected aneuploidy of chromosomes in 9 patients that was missed by metaphase analysis. In conclusion, interphase FISH, by which chromosomal aneuploidy was detected in almost 90% of patients with MM, represents an approach for evaluating the clinical significance of specific chromosomal abnormalities in MM.
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PMID:Multiple myeloma: high incidence of chromosomal aneuploidy as detected by interphase fluorescence in situ hybridization. 764 Dec 4

We found a t(11;14)(q13;q32) translocation in six patients with multiple myeloma (MM) or plasma cell leukemia. In five of them, rearrangements of BCL1 and PRAD1 could be studied. Two patients showed a rearrangement only with the Prad1 probe, located 120 kb telomeric of the major translocation cluster. The three other patients lacked rearrangements with both Bcl1 and Prad1.
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PMID:Molecular breakpoints of t(11;14)(q13;q32) in multiple myeloma. 765 99

The der(16)t(1;16)(q11;q11) is a frequent recurrent rearrangement in solid tumours such as breast carcinomas and Ewings sarcomas. Recently, this abnormality was described also in multiple myeloma. We identified a der(16)t(1;16)(q11;q11) in three patients with myelodysplastic syndrome, either during preleukaemic phase (n = 2) or at the time of blastic transformation (n = 1). Breakpoints were ascertained by fluorescence in situ hybridization (FISH) using specific centromeric alpha-satellite probes and whole chromosome painting for chromosome 1 and chromosome 16. These observations, combined with isolated cases of the literature, suggest that der(16)t(1;16)(q11; q11) is a nonrandom abnormality associated with myelodysplastic syndromes.
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PMID:Der(16)t(1;16)(q11;q11) in myelodysplastic syndromes: a new non-random abnormality characterized by cytogenic and fluorescence in situ hybridization studies. 778 73

Deletion of the retinoblastoma gene (Rb-1) was found in more than 50% (12/23) of patients with multiple myeloma (MM) by fluorescence in situ hybridization (FISH). Myeloma cells were highly purified from bone marrow aspirates by flow cytometry and analyzed using probes specific for the Rb-1 gene and the centromeric region of chromosomes 13 and 21. Routine cytogenetics revealed abnormal chromosome 13 in only 17% (4/23) of these patients. No correlation between Rb-1 deletion and tumor stage, immunoglobulin isotype, anemia, serum beta-2 microglobulin levels, patient age or the extent of prior therapy was found. However, the high incidence of Rb-1 deletion detected by FISH suggests a role of this tumor suppressor gene in the biology of MM. Although allelic loss of the Rb-1 gene is unlikely to be the only genetic change necessary for the development of MM, it may be a relatively early event in MM unrelated to chemotherapeutic intervention. Since the Rb-1 gene suppresses IL-6 production and secretion, Rb-1 deletion may result in deregulation of IL-6 expression and hence expansion of IL-6 dependent myeloma clones.
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PMID:Deletion of the retinoblastoma gene in multiple myeloma. 805 62

In somatic cells, each DNA replication round gives a shortening of the telomere ends as a consequence of incomplete lagging strand synthesis. Telomeres are essential for chromosomal integrity and extensive telomere length reduction is associated with increased instability of the genome. In germ line cells and in established cell lines, telomerase activity maintains the length of the telomeres by de novo synthesis of telomeric repeats, in humans (T2AG3)n. Recently, it was for the first time shown the existence of telomerase activity in human ovarian carcinomas. In the present study we show that telomerase activation can also occur in human hematopoietic tumor cells in vivo. Cell extracts from 19 cases with leukemia, lymphoma and myeloma were tested for telomerase activity using an in vitro assay with (T2AG3)3 or permutations of this sequence as primers. Eight cases demonstrated an RNAse A sensitive ability to add new nucleotides to the human telomere sequence. Nine acute leukemias were tested telomerase negative. Our data demonstrate that telomerase activation in vivo seems to be a common event in B cell neoplasias with a mature immunophenotype like non-Hodgkin's lymphoma and myeloma, in contrast to acute leukemias of B, T or myeloid cell origin. Telomere length evaluation indicated no marked differences between samples with or without telomerase activity which could argue for a telomere length independent mechanism for telomerase activation in at least some cases.
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PMID:Telomerase activity in vivo in human malignant hematopoietic cells. 808 12

The mononuclear cells in the peripheral blood are implicated in the myeloma process especially with the presence of peripheral blood plasma cells (PBPC) and clonal B lymphocytes found using phenotypic or gene rearrangement techniques. The purpose of this study was to look for aneuploidy in the two main B cell components of the peripheral blood: PBPC and CD20-positive B lymphocytes. Conventional cytogenetics (CC) or DNA content analysis and fluorescence in situ hybridization (FISH) with centromeric probes were performed on bone marrow plasma cells (BMPC) of 21 patients with multiple myeloma and peripheral blood cells were studied as follows: immunostaining to look for PBPC and to assess their number, image analysis cytometry for the determination of their DNA content, and FISH chromosomes analysis. FISH was performed using probes against the chromsomes that were lost or gained in BMPC and was coupled with immunostaining of the relevant light chain or CD20 antigen to study PBPC or B lymphocytes, respectively. Monotypic PBPC were found in 16 patients. Their DNA content was the same or nearly the same as for BMPC and they exhibited the same monosomies or trisomies as those found within their BM counterpart. By contrast, DNA content of mononuclear cells other than PBPC was within normal ranges, and in 13 of 15 patients CD20-positive B lymphocytes failed to show chromosomal changes by FISH analysis. In two patients however, a few CD20+ cells with lymphoid morphology exhibited chromosome changes, hypothesizing that a few cytogenetically abnormal B cells without plasmocytic morphology may circulate. From these data, we conclude that PBPC share the same genetic abnormalities as BMPC and thus belong to the malignant clone, whereas most peripheral blood B lymphocytes are unrelated to the tumor clone.
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PMID:Involvement of peripheral blood cells in multiple myeloma: chromosome changes are the rule within circulating plasma cells but not within B lymphocytes. 920 87

Dysregulation of oncogenes by translocation to the IgH locus (14q32) is a seminal event in the pathogenesis of B-cell tumours. In multiple myeloma (MM), translocations to the IgH locus have been reported at an incidence of 20-60%. For most translocations, the partner chromosome is unknown (14q+); for the others, a diverse array of chromosomal partners have been identified, with 11q13 (cyclin D1) the only chromosome that is frequently involved. Recently, we developed a Southern-blot assay that detects translocation breakpoint fragments in most MM tumours, including those with no translocation detected by conventional karyotyping. In a continuing analysis of translocation in 21 myeloma cell lines and primary tumours, we show that the novel, karyotypically silent translocation t(4;14)(p16.3;q32.3) is present in five lines and at least three of ten primary tumours. The chromosome-4 breakpoints are clustered in a 70-kb region centromeric to the fibroblast growth factor receptor 3 gene (FGFR3), the apparent dysregulated oncogene. Two lines and one primary tumour with this translocation selectively express an FGFR3 allele containing activating mutations identified previously in thanatophoric dwarfism. We propose that after the t(4;14) translocation, somatic mutation during tumour progression frequently generates in FGFR3 protein that is active in the absence of ligand.
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PMID:Frequent translocation t(4;14)(p16.3;q32.3) in multiple myeloma is associated with increased expression and activating mutations of fibroblast growth factor receptor 3. 920 91


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