Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 expression of 6 different oncoproteins and 2 tumour suppressor gene products in the plasma cells of 63 bone marrow samples was used to determine a profile of the oncogenic phenotype of patients with multiple myeloma. Dual label flow cytometry after periodatelysine paraformaldehyde fixation was used to detect cell surface phenotype and intracellular protein expression simultaneously. The normal range for both the incidence and intensity of expression was determined for each protein by analysing plasma cells (high CD38 intensity) in 22 normal bone marrow samples. The percentage of myeloma patients with a greater than normal incidence of plasma cells expressing these proteins was 53% for c-myc, 28% for Rb, 28% for bcl-2, 27% for c-fos, 24% for p53 wild, 22% for p53 mutant, 13% for c-neu and 13% for pan-ras. When a panel of 8 antibodies was used, 82% of the samples (n = 28) had an increased incidence of expression by at least one oncoprotein or tumour suppressor gene product. The 5 patients with a normal incidence of expression of all 8 proteins were in plateau stage and 4 had not received chemotherapy for more than 12 months. The number of patients with an increased incidence of expression by 2 or more oncoproteins was significantly greater (X2 = 9.0; p < 0.005) in progressive disease (55%) than in stable disease (14%) but there was no specific phenotype pattern associated with progressive disease. All 6 oncoproteins and both tumour suppressor gene products had a greater incidence and intensity of expression in progressive than in stable disease. The expression of c-myc oncoprotein correlated with c-myc mRNA expression in the same samples (n = 10) but c-myc did not correlate with either the plasma cell labelling index (r = -0.15) nor serum thymidine kinase (r = 0.10). Our results suggest that there is a heterogeneous, non-systematic but almost universal presence of activated oncogenes and tumour suppressor genes in the plasma cells of patients with multiple myeloma and that disease progression is associated with the accumulation of a variety of secondary genetic changes which confer increased malignant behaviour.
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PMID:The oncoprotein phenotype of plasma cells from patients with multiple myeloma. 769 21

In multiple myeloma the duration of plateau is an important clinical and biological determinant of quality of life and survival. During plateau phase, the tumour is in an indolent state, as manifested by a low labelling index of plasma cells and other proliferative markers, e.g. the thymidine kinase level. The mechanism by which plasma cells escape from this indolent phase to a more aggressive phase of this disease is unknown, but a number of possible mechanisms have been postulated. These include loss of immunoregulation, clonal evolution, cytokine dysfunction and oncogene activation or tumour suppressor gene dysfunction. As current chemotherapy protocols do not appear to be able to eradicate the malignant clone, understanding the nature of the indolent phase of the malignant clone and the reasons for its escape from this phase are very important and may provide new options for disease control.
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PMID:Mechanisms of the escape phase of myeloma. 820 6

The recent finding that eight out of 10 multiple myeloma cell lines have p53 gene mutations prompted us to examine the p53 tumour suppressor gene in 25 non-related multiple myeloma patients. None of 19 patient bone marrow samples available for Southern blot analysis showed rearrangements in the p53 gene and only one patient showed loss of the p53 locus. DNA encompassing exons 5, 7, and 8, where p53 mutations commonly cluster, was amplified by PCR. Single-strand conformation polymorphisms of the PCR-amplified exon 5 region were detected in two patients. Direct sequencing of the mutant band revealed that one patient had a C to T transition at codon 138 (Ala to Val) and one patient had a G to C transversion at codon 139 (Lys to Asn). p53 mutations in germline cells in hereditary cancer syndromes predispose the family members to the development of malignancies. We therefore searched for p53 germline mutations in exons 5, 7, and 8 in the affected individuals from three families each with two multiple myeloma patients (these patients include three individuals from the non-related group mentioned above). Using Southern blotting, polymerase chain reaction/single-strand conformation polymorphism (PCR-SSCP) analysis and direct sequencing, no germline mutations were found. These results indicate that mutations in exons 5, 7, and 8 of the p53 gene are infrequent in multiple myeloma.
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PMID:Sporadic mutations of the p53 gene in multiple myeloma and no evidence for germline mutations in three familial multiple myeloma pedigrees. 832 Oct 49

ADAMs (A disintegrin and metalloproteinase) are a recently discovered family of proteins with significant primary sequence similarity to the reprolysin family of snake venomases. These ADAMs closest known homologues are the type III reprolysin enzymes which have been demonstrated to be, among other things potent type IV collagenases. ADAMs are putative membrane linked proteins with several domains including a metalloproteinase domain, a potential integrin binding domain, a cysteine rich sequence and an EGF like sequence. They have been implicated in a wide variety of functions including basement membrane degradation and cell-cell and cell-matrix interactions. We have used RT-PCR and Northern blotting to characterise the expression of members of this family in cells derived from a variety of haematological malignancies including leukaemia (HL60 and Jurkat), erythroleukaemia (K562), lymphoma (U937 and Cupillo) and myeloma (U266B1). We find clear expression of four members of this novel family of proteins but note differences in the expression levels of each member. The ADAMs known as MADM (ADAM10), MCMP (ADAM12, MDC9) and Metargidin (ADAM15) which all possess potentially active metalloproteinase domains are expressed in all these cell types to significant levels. The putative tumour suppressor gene MDC (ADAM11) is expressed at very low levels in all cells examined. As ADAMs may have both potential metalloproteinase activity and adhesive domains we wish to explore the role of these proteins with regard to pathophysiology of haematological malignancy such as egression of leukaemic cells from the bone marrow.
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PMID:Expression of members of the novel membrane linked metalloproteinase family ADAM in cells derived from a range of haematological malignancies. 919 13

The dysregulation of specific oncogenes due to either mutation or activation has previously been reported in a small number of patients with myeloma but the extent of oncogene dysregulation during the course of the disease is not known. The oncoprotein phenotype of plasma cells in 146 bone marrow samples from 81 patients with multiple myeloma was determined by dual colour flow cytometry using a predetermined panel of 8 monoclonal antibodies. High intensity CD38 expression was used to distinguish the plasma cell population and the cells were permeabilised to detect intracellular antigen expression. In situ hybridization using biotinylated cDNA probes for c-myc and bcl-2 was used to determine mRNA expression and to validate the flow cytometric assay. The normal range of expression for each of 6 oncoproteins (c-myc, c-fos, c-neu, bcl-2, p-ras, p53 mutant) and 2 tumour suppressor gene products (p53 wild and Rb) was determined in plasma cells from 33 normal bone marrows. Disease progression was associated with the concurrent abnormal expression of at least one oncogene and one tumour suppressor gene where as stable disease was associated with a normal expression of at least one or both (chi2 = 34.1; p < 0.001). At diagnosis there was a correlation between serum beta2 microglobulin and the concurrent overexpression of both an oncoprotein and a tumour suppressor gene product. Longitudinal studies of 33 different patients over 4 years, suggests that the progressive evolution of myeloma is a multistep process of genomic instability producing ongoing alterations in the expression of both oncogenes and tumour suppressor genes.
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PMID:Disease progression in patients with multiple myeloma is associated with a concurrent alteration in the expression of both oncogenes and tumour suppressor genes and can be monitored by the oncoprotein phenotype. 925 Aug 26

Recently, p16 and p15 have been identified as commonly inactivated tumour suppressor genes in haematological malignancies. We previously reported that these genes were frequently hypermethylated in multiple myeloma (MM). To investigate how p16 and p15 inactivation are associated with hypermethylation, methylation status and transcription of these genes in six MM-derived cell lines were studied by Southern blot analysis and RT-PCR. Aberrant methylation of p16 was found in ARH-77, HS-Sultan, IM-9, RPMI-8226, U266-B1 and NCI-H929 MM cell lines. However, loss of p16 transcription was demonstrated only in HS-Sultan, RPMI-8226, U266-B1 and NCI-H929 with extensive methylation at the 5' upstream region of p16. Conversely, only HS-Sultan showed extensive methylation at the 5' upstream region of p15, which was associated with p15 transcriptional block. These results suggest that extensive methylation within a critical domain may be crucial in silencing p16 or p15 transcription. To demonstrate the reversibility of methylation and its relationship with transcription, HS-Sultan, RPMI-8226 and NCI-H929 were demethylated with 5-aza-2'-deoxycytidine. Restoration of gene transcription was observed and correlated with partial demethylation of the genes. The present data show that the p16 and p15 genes are silenced in MM by hypermethylation, which may play an important role in MM pathogenesis.
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PMID:Transcriptional silencing of the p16 gene in human myeloma-derived cell lines by hypermethylation. 979 5

Multiple myeloma (MM) is a currently incurable disease caused by the proliferation of malignant plasma cells. Although the pathogenesis of the disease still remains unclear, recent research in the biology of MM has produced new insights into the factors that control the growth and survival of myeloma cells. Among the growth factors, interleukin-6 (IL-6) has an essential role. Evidence suggests that IL-6 is not only a growth factor, but also a survival factor in MM, inhibiting apoptosis in myeloma cells. IL-6 interacts with several factors which are involved in the pathogenesis of MM, such as adhesion molecules, tumour suppressor genes and oncogenes. Considering the essential role of IL-6, it could serve as a target for new therapeutic interventions. Neutralizing the effect of IL-6 may result in a regression of tumour progression.
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PMID:Role of INTERLEUKIN-6 in the pathogenesis of multiple myeloma. 1081 21

Deletions of 13q14.3 are well known in several malignancies and are thought to be associated with tumour suppressor function. The RB-1 gene is a tumour suppressor gene, but other loci including D13S319 and D13S25 telomeric to this within 13q14.3 are deleted in B-cell chronic lymphocytic leukaemia (B-CLL), multiple myeloma and non-Hodgkin's lymphoma, with varying clinical significance. The fluorescence in situ hybridization screening of 22 patients with T-prolymphocytic leukaemia (T-PLL) for deletions of 13q14.3 revealed loss of D13S25 in 17 cases (mean 40% range 13-98%), with 11 patients having at least a 20% deletion. Mapping the deletions for the RB-1, D13S319,and D13S25 loci revealed D13S25 as the most frequently deleted marker. However, patients with only the D13S25 deletion had low percentages of cells with the deletion (12-13%), suggesting that loss of D13S25 on its own may not provide sufficient growth advantage. The use of the YAC 954c12, which maps immediately adjacent to D13S25, defined the telomeric border of the deletion in some of the cases. Inv(14)(q11q32) and t(14;14)(q11;q32) are characteristic of T-PLL, but are also observed in premalignant T-cell clones in patients with ataxia telangiectasia. Transition to overt leukaemia may result from loss of suppressor function. Thus, 13q14.3 deletions could contribute to the development of overt leukaemia in T-PLL, but the involvement of more than one gene in the region cannot be excluded.
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PMID:Deletions of D13S25, D13S319 and RB-1 mapping to 13q14.3 in T-cell prolymphocytic leukaemia. 1152 51

For understanding of the pathophysiology of multiple myeloma, features of the malignant clone and changes induced by the bone-marrow microenvironment are equally important. Multiple myeloma plasma cells, which originate from postfollicular B cells, are characterised by complex chromosomal aberrations. Among the earliest genetic events are translocations of the immunoglobulin heavy-chain gene locus, which leads to dysregulation of oncogenes at translocation partner regions (cyclin D1 at 11q13, FGFR3/MMSET at 4p16.3, c-MAF at 16q23, and cyclin D3 at 6p21), and deletions of 13q14, the site of a putative tumour suppressor gene, which is an adverse prognostic indicator. Additional molecular events include epigenetic changes and activation of oncogenes (mutations of N-RAS and K-RAS, and changes in c-MYC), which are usually associated with disease progression. Bone-marrow stromal cells support growth and survival of multiple myeloma cells via various cytokines. Osteoclast activity factors (in particular MIP1alpha) and imbalances between RANKL and osteoprotegerin are major factors for the development of myeloma bone disease. Further characterisation of crucial events in the development of monoclonal gammopathies by novel techniques such as global gene expression profiling will contribute to a molecular classification of multiple myeloma and foster future therapeutic approaches.
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PMID:New insights into the pathophysiology of multiple myeloma. 1296 77

Multiple myeloma (MM) is characterised by the expansion of monoclonal immunoglobulin-secreting plasma cells. Despite recent advances in systemic and supportive therapy, it remains incurable, with a median survival of about three years. Development of MM is a multistep process associated with an increasing frequency of chromosomal abnormalities and complex translocations, which induce mutations in several proto-oncogenes and tumour suppressor genes. Furthermore, differentiation, maintenance, expansion and drug resistance of MM cells are dependent on multiple growth factors, cytokines, and chemokines, secreted by tumour cells, bone marrow stromal cells, and non-haematopoietic organs; as well as on direct tumour cell-stromal cell contact. Therefore, signalling pathways initiated by both mutated genes in MM cells as well as signals originating in the bone marrow microenvironment represent potential targets for intervention. Close collaboration between basic researchers and clinicians will be required to further improve our knowledge of MM pathophysiologically in order to translate advances from the bench to the bedside and improve patient outcome.
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PMID:Targeting signalling pathways for the treatment of multiple myeloma. 1593 21


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