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 vast majority of the human experience with viral infections is associated with acute symptoms, such as malaise, fever, chills, rhinitis and diarrhea. With this acute or lytic phase, the immune system mounts a response and eliminates the viral agent while acquiring antibodies to that specific viral subtype. With latent or chronic infections, the viral agent becomes incorporated into the human genome. Viral agents capable of integration into the host's genetic material are particularly dangerous and may commandeer the host's ability to regulate normal cell growth and proliferation. The oncogenic viruses may immortalize the host cell, and facilitate malignant transformation. Cell growth and proliferation may be enhanced by viral interference with tumor suppressor gene function (p53 and pRb). Viruses may act as vectors for mutated proto-oncogenes (oncogenes). Overexpression of these oncogenes in viral-infected cells interferes with normal cell function and allows unregulated cell growth and proliferation, which may lead to malignant transformation and tumour formation. Development of oral neoplasms, both benign and malignant, has been linked to several viruses. Epstein-Barr virus is associated with oral hairy leukoplakia, lymphoproliferative disease, lymphoepithelial carcinoma, B-cell lymphomas, and nasopharyngeal carcinoma. Human herpesvirus-8 has been implicated in all forms of Kaposi's sarcoma, primary effusion lymphomas, multiple myeloma, angioimmunoblastic lymphadenopathy, and Castleman's disease. Human herpesvirus-6 has been detected in lymphoproliferative disease, lymphomas, Hodgkin's disease, and oral squamous cell carcinoma. The role of human papillomavirus in benign (squamous papilloma, focal epithelial hyperplasia, condyloma acuminatum, verruca vulgaris), premalignant (oral epithelial dysplasia), and malignant (squamous cell carcinoma) neoplasms within the oral cavity is well recognized. Herpes simplex virus may participate as a cofactor in oral squamous cell carcinoma development by enhancing activation, amplification, and overexpression of pre-existing oncogenes within neoplastic tissues. Because of the integral role of viruses in malignant transformation of host cells, innovative antiviral therapy may prevent tumour development, involute neoplastic proliferations, or arrest malignant progression.
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PMID:Molecular piracy: the viral link to carcinogenesis. 993 Mar 54

In this study we evaluated the replication pattern and cell-cycle dynamics of cells from patients considered to have a premalignant condition (monoclonal gammopathy, or MGUS) and patients with multiple myeloma (MM), as well as healthy controls. We applied the fluorescence in situ hybridization (FISH) technique with the TP53, RB-1 and 21q22 loci on the patient's cells. Asynchrony was determined by the presence of one single and one set of double dots in the same cell. The rate of asynchronic replication was significantly higher in the cells from MM patients, with intermediate value in the cells from MGUS, while the lowest rate was in cells from controls. We suggest that these results may reflect the changes in gene replication and cell-cycle progression that occur in premalignant and malignant cells.
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PMID:Replication pattern in cancer: asynchronous replication in multiple myeloma and in monoclonal gammopathy. 997 21

A recently identified herpesvirus, human herpesvirus-8 (HHV-8), also known as Kaposi's sarcoma (KS)-associated herpesvirus, has been found in nonmalignant bone marrow dendritic cells of patients with multiple myeloma. The virus is also detectable in the peripheral blood of most patients; its absence suggests earlier-stage disease. HHV-8 is not detected in the blood of family members and sexual partners of myeloma patients. Sequencing of HHV-8 open-reading frames (ORFs) shows differences between individual myeloma patients, as well as between myeloma patients and those with other HHV-8-related malignancies. Consistent expression of the viral homolog of both interferon regulatory factor (IRF) and interleukin-8 receptor (IL-8R) suggests a possible role for these transforming viral genes in the pathogenesis of myeloma. Detailed analysis of myeloma cell lines has shown that myeloma is characterized by frequent chromosome translocations involving the switch regions of the immunoglobulin heavy-chain (IgH) locus on 14q32. The three partner chromosomes most commonly involved are 11q13 (cyclin D1), 4p16 (FGFR3), and 16q23 (c-maf). Mutations have also been identified in N- and K-ras and, less frequently, involving p53. Monosomy 13q is common. These findings have implications for immunotherapy. Angiogenesis increases with progressive disease and appears to be a prognostic factor. In at least one patient, this process appears to have been reversed with thalidomide therapy. The underlying mechanisms for the increased vascularization in myeloma have not been identified, and several possibilities have been proposed.
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PMID:Initiation and maintenance of multiple myeloma. 998 83

Mantle-cell lymphoma (MCL) is a lymphoproliferative disorder derived from a subset of naive pregerminal center cells characterized by a nodular or diffuse proliferation of atypical lymphoid cells with a monoclonal B-cell phenotype and coexpression of CD5. Two cytologic variants have been identified, typical and blastic. Typical cases show a proliferation of small to intermediately sized lymphoid cells with irregular nuclei and scarce cytoplasm. Blastic variants include a spectrum of intermediate to large cells with round or irregular nuclei and finely dispersed chromatin. These cases have a higher proliferative activity and a more aggressive clinical evolution. MCL is genetically characterized by 11q13 translocations and bcl-1 rearrangement. This alteration leads to a constant overexpression of cyclin D1, which plays an important pathogenetic role, probably deregulating cell-cycle control by overcoming the suppressor effect of retinoblastoma protein (Rb) and p27Kip1. Detection of cyclin D1 may be used as a highly specific marker of MCL because it is expressed in virtually all of these tumors, but in only a few reported cases of aggressive variants of chronic lymphocytic leukemia/small lymphocytic lymphoma (CLL/SLL) and a small percentage of cases of multiple myeloma. Aggressive variants have additional genetic alterations, including inactivation of p53 and p16INK4a tumor-suppressor genes. Clinically, MCL presents in elderly males with advanced disease and frequent extranodal involvement, particularly with involvement of bone marrow, gastrointestinal tract, and spleen. The clinical evolution is relatively aggressive, with poor response to conventional therapeutic regimens and a median survival duration of 3 to 4 years. Further studies are needed to define better new therapeutic strategies for the management of these patients.
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PMID:Mantle-cell lymphoma. 1031 80

Cytogenetic analysis of small lymphocytes disorders is hindered by the low mitotic activity of the malignant cells. The use of fluorescence in situ hybridization (FISH) allows the detection of chromosomal amplifications, deletions, or translocations at a single-cell level in dividing and resting cells. The use of FISH in combination with other molecular techniques has defined the deletion in band 13q14 as the most common abnormality in chronic lymphocytic leukemia, followed by del (11)(q22-23), trisomy 12, del (17)(p13), and del (6)(q21). The del 13q14 is also found in 70% of mantle-cell lymphomas (MCLs) and in non-Hodgkin's lymphoma (NHL), acute lymphoblastic leukemia (ALL), and multiple myeloma (MM) patients. These findings point to the existence of yet unidentified tumor-suppressor gene(s) at the 13q14 locus, the loss/inactivation of which leads to B-cell neoplasia. Del (17(p13) (involving the p53 tumor-suppressor gene) and del (11)(q22-23) (involving the ataxia-telangiectasia gene [ATM]) seem to be independent prognostic factors for poor survival in chronic lymphocytic leukemia (CLL) patients. In MCL, the t(11;14) involving the bcl-1 gene is found, but data from a bcl-1 transgenic animal model suggest that hyperexpression of bcl-1 is not sufficient for lymphomatogenesis. Similar data are observed in bcl-2 transgenic animals, a finding showing that the bcl-2 hyperexpression observed in t(14;18)-positive follicular lymphoma cells is not sufficient to confer a malignant phenotype. The contribution of other chromosomal abnormalities other than bcl-1 and bcl-2 rearrangements in the pathogenesis of MCL and follicular-cell lymphomas has to be determined.
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PMID:Genetics of small lymphocyte disorders. 1031 86

The p73 gene, a member of the p53 family, is a new candidate tumor suppressor gene. To investigate the possibility of genetic alteration of p73 in leukemia and lymphoma, we examined 55 cell lines and 39 patient samples together with 17 nonhematopoietic cancer cell lines. Gene expression of p73 was detected by reverse transcriptase-polymerase chain reaction (RT-PCR) in cell lines (5 of 7 pre B/B-acute lymphoblastic leukemia [ALL], 13 of 21 T-ALL/lymphoblastic lymphomas [LBL], 9 of 10 B-non-Hodgkin's lymphomas [B-NHL], 8 of 9 acute myelogenous leukemias [AML], 2 of 2 T-NHL, 3 of 3 multiple myeloma), and in patient samples (16 of 23 pre B-ALL, 5 of 8 T-ALL/LBL, 5 of 8 B-NHL). PCR-single-strand conformation polymorphism (SSCP) of cDNAs showed no mutation in 43 p73-expressing cell lines within the regions that corresponded to the 5 mutational hotspots of the p53 gene. Neither homologous deletion nor rearrangement of the p73 gene were found by Southern blot analysis in any of the cell lines that lack expression of p73. In contrast to prior published data, analysis of a polymorphic site showed that the p73 gene was expressed biallelically in cell lines and normal peripheral blood. Notably, the p73-negative cell lines were hypermethylated at a CpG island in the 5' untranslated region of the p73 mRNA, and treatment of these cell lines with 5-azacytidine (5-AC), a demethylation reagent, induced p73 expression. Taken together, we found that a sizable proportion (32%) of ALL/B-NHL cell lines and primary tumors had negligible or limited expression of the p73 gene associated with hypermethylation of the gene. These findings suggest that silencing of the p73 gene by hypermethylation may contribute to development and/or progression of lymphoid neoplasms.
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PMID:Loss of p73 gene expression in leukemias/lymphomas due to hypermethylation. 1041 5

Recently a high incidence of interstitial deletion of the P53 locus has been reported in multiple myeloma (MM) patients. Considering the importance of such an event, we analysed 79 patients with advanced-stage disease using fluorescence in situ hybridization (FISH). Strikingly, we found only 7/79 patients with a P53 deletion. In order to rule out any differences in probe selection, we reanalysed all the patients with the same probe as that used in a previous study, and confirmed the low incidence of P53 deletion (7/79, 9%). The only explanation is a difference in hybridization efficiency. Since hybridization is far less efficient on malignant plasma cells than on other bone marrow cells we suggest that this poor hybridization efficiency may lead to a false P53 deletion.
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PMID:P53 deletion is not a frequent event in multiple myeloma. 1079 2

Expression of the lung resistance protein (LRP) is associated with resistance to various anticancer drugs including melphalan and, therefore, may affect the clinical outcome in multiple myeloma (MM). To determine the clinical significance of LRP, we have compared LRP expression in bone marrow plasma cells with clinical parameters including response to chemotherapy and survival of previously untreated patients with MM (n = 72). LRP expression immunocytochemically assessed by means of the LRP-56 monoclonal antibody was positive (> or =10% staining plasma cells) in 44 (61%) samples. There was no correlation between LRP expression and age, sex, type of the paraprotein, serum creatinine, stage, beta2-microglobulin, serum lactate dehydrogenase, or C-reactive protein. However, LRP expression was more frequently observed in patients with a p53 deletion than in those without such a deletion (P = 0.01). The overall response rate for all of the patients evaluable for response to induction chemotherapy (n = 58) was 67%. The response rate was 87% for patients without LRP expression but only 54% for patients with LRP expression (P = 0.01). Kaplan-Meier analysis revealed that patients with LRP expression had a shorter overall survival (median, 33 months) than those without LRP expression (median not reached; P = 0.04). These data show that LRP expression is an important marker for clinical drug resistance and predicts a poor outcome in MM.
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PMID:Expression of the lung resistance protein predicts poor outcome in patients with multiple myeloma. 1049 14

Recent advances in the biology of multiple myeloma cell growth and survival have suggested new avenues for treatment and potential cure of this disease. Adhesion molecules on the myeloma cell surface mediate their localization in the bone marrow via binding to extracellular matrix proteins and stromal cells. Stromal cell to tumor cell contact and the secretion of transforming growth factor by tumor cells triggers interleukin-6 secretion from stromal cells and paracrine tumor cell growth. CD40 activation of myeloma cells changes their cell surface phenotype, triggers autocrine interleukin-6 secretion, and can regulate myeloma cell cycle in a p53-dependent fashion. Interleukin-6 is both a growth and survival factor for myeloma cells, and delineation of the signaling cascades mediating its effects permits the development of novel therapies either to interrupt growth or trigger apoptosis. New immune therapies offer the opportunity to treat minimal residual disease after stem cell transplantation, thereby improving outcome. Selected donor lymphocyte infusions after allografting and infusion of activated autologous T cells following autografting are examples of adoptive immunotherapy. Myeloma cell to dendritic cell fusions have been used in a vaccination strategy both to prevent and treat myeloma in an animal model, providing the rationale for similar clinical trials in humans. For the first time, a variety of novel treatment strategies derived from advances in understanding the disease pathogenesis offer the potential to achieve long-term disease-free survival in patients with multiple myeloma.
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PMID:Advances in the biology of multiple myeloma: therapeutic applications. 1052 90

Recently, p73, a protein with structural and functional similarities to p53, an extensively studied tumor suppressor gene, has been cloned. After being mapped to the chromosomal region 1p35-1p36, it has been postulated to act as a tumor suppressor gene, too, as this region is altered in several human malignancies. Deletions of the short arm of chromosome 1 have frequently been described in multiple myeloma (MM) whereas structural abnormalities of the 17p13 region including p53 are rare events in this disease. Since it has been proposed that especially neoplasias lacking p53 alterations might show a loss of heterozygosity at 1p35-1p36, we studied the frequency of p53 and p73 deletions in bone marrow mononuclear cells of 68 patients with MM, two patients with monoclonal gammopathy of undetermined significance and four patients with plasma cell leukemia. Dual-color fluorescence in situ hybridization (FISH) for p53 and p73 was performed using commercially available DNA probes for 17p13.3 and the microsatellite marker D1Z2, respectively. Centromeric DNA probes served to distinguish gene deletions from whole chromosome losses. In contrast to recently published FISH results, we only detected heterozygous p53 deletions in eight out of the 74 patients, three of them showing a monosomy 17. Heterozygous deletions of the D1Z2 region at 1p36 were found in six cases with one patient having a monosomy 1. Neither homozygous deletions of either chromosomal region nor nullisomies 1 or 17 could be detected. These results argue against a major role of p73 deletions in MM. As MM patients with 1p structural abnormalities have a significantly poorer survival rate than those with normal karyotypes, the role of other putative tumor suppressor genes located at the chromosomal region 1p36 in the pathogenesis of MM has to be determined.
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PMID:Analysis of p73 and p53 gene deletions in multiple myeloma. 1060 35


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