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 advent of new therapeutic approaches to multiple myeloma made necessary the introduction of novel methods for detection of minimal residual disease. Among others approaches residual disease can be detected by the immunofluorescence using flow cytometry. We have examined the co-expression of CD19, CD38, CD45, CD54, CD56, and CD138 molecules in cells of peripheral blood and bone marrow aspirates in patients with multiple myeloma by 3-color flow cytometry. For the detection and characterization of multiple myeloma cells, combinations of following antibodies were used: anti-CD19 FITC, anti-CD38 FITC, anti-CD38 PE, anti-CD54 FITC, anti-CD56 PE-Cy5, anti-CD45 PE, anti-CD45 PE-Cy5 (Immunotech) and anti CD138 PE (Serotec). The samples were analyzed using EPICS XL (Coulter) flow cytometer, and the analysis was based on at least 10,000 events. Samples from 17 patients were analyzed. The percentage of multiple myeloma cells ranged between 0.3% and 54.2% in bone marrow aspirates and between 0.0 and 11.8% in periferal blood. The expression of CD138, CD38, CD54 and CD56 molecules was found in 100%, 100%, 85% and 68% of examined cases, respectively. In our opinion, multiple myeloma cells are best characterized by following combinations of antibodies: CD38 FITC/CD138 PE/CD45 PE-Cy5, CD54 FITC/CD138 PE/CD56 PE-Cy5 or CD54 FITC/CD38 PE/CD 56 PE-Cy5. The identification of a malignant clone is the first and the most important step in the characterization of the disease, determination of its prognosis and the detection of residual disease after treatment. Three-color flow cytometry represents a method which can meet these goals.
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PMID:[Detection of multiple myeloma cells using multicolor immunofluorescence and flow cytometry]. 1095 45

Multiple myeloma (MM) is a hematologic malignancy of human plasma cells, and myeloma cells can be classified into several subpopulations according to phenotypic differences, such as CD38 MPC-1- CD49e- immature, CD38 MPC-1+ CD49e- intermediate and CD38 MPC-1+ CD49e+ mature myeloma cells. The expression of the CD45 molecule on myeloma cells is quite variable, and the physiological consequence of CD45 on myeloma cells is still unknown. Recently, we have found that a few MPC-1- immature myeloma cells express CD45 antigens while most myeloma cells do not express the CD45. MPC-1- CD45+ CD49e- but not MPC-1- CD45- CD49e- immature cells contain proliferating cells in response to interleukin-6 (IL-6). IL-6 can also induce expression of CD45 on the MPC-1- CD45- subpopulation of immature myeloma cells. In addition, myeloma cell lines responding to IL-6 express CD45, whereas cell lines proliferating independent of IL-6 do not express CD45. In the U266 cell line, IL-6 leads to the induction of CD45 expression and cell proliferation, indicating that IL-6-induced effects are closely linked to CD45 expression. Thus, there is a heterogeneity in human myeloma cells, and among these subpopulations immature myeloma cells expressing the CD45 molecules appear to proliferate in response to IL-6. In this review we propose the involvement of CD45 in MM pathogenesis, and the possible implications of CD45 as both a phenotypic marker and a functional molecule is discussed.
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PMID:Proliferation of immature myeloma cells by interleukin-6 is associated with CD45 expression in human multiple myeloma. 1097 83

Multiple myeloma (MM) is an incurable disease; therefore, there is a need for new modalities of treatment for this disease. We designed a study to test the sensitivity of MM cell lines, freshly isolated myeloma cells, and CD34(+) hematopoietic progenitor cells to adenovirus-mediated delivery of wild-type p53 (Ad-p53). Replication-deficient Ad-p53, previously used in phase I-II clinical trial for treatment of patients with solid tumors, was used in this study. Myeloma cells from seven MM cell lines with mutated or w.t. p53 and varying expression of bcl-2 were used. Fresh myeloma cells (CD38(bright)CD45(-)) and fresh CD34(+) hematopoietic stem cells and CD34(-) cells were purified by flow sorting of apheresis collections of MM patients undergoing high-dose chemotherapy and stem cell rescue. The effect of Ad-p53 on colony-forming unit granulocyte-macrophage (CFU-GM) and burst-forming unit erythroid (BFU-E) colony formation in methylcellulose was tested on purified CD34(+) and CD34(-) cells to evaluate bone marrow toxicity. Myeloma cells from cell lines, or freshly isolated myeloma cells, were sensitive to Ad-p53 only if they had mutated p53 and had low expression of bcl-2. CD34(+) cells were resistant to Ad-p53-mediated apoptosis, and CFU-GM and BFU-E colony formation was not affected by treatment with Ad-p53.Ad-p53 is a potent inducer of apoptosis in MM cell lines and in freshly isolated myeloma cells expressing low levels of bcl-2. Ad-p53 is not overtly cytotoxic to normal hematopoietic stem cells or normal lymphocytes; therefore, it could be considered for a phase I clinical trial of MM patients with mutated p53.
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PMID:Adenovirus-mediated delivery of p53 results in substantial apoptosis to myeloma cells and is not cytotoxic to flow-sorted CD34(+) hematopoietic progenitor cells and normal lymphocytes. 1114 57

Multiple myeloma, a plasma cell malignancy, is predominantly localized in the bone marrow. These tumoral cells display a heterogeneous expression of CD45. It is, however, unclear which subpopulation is responsible for the homing and outgrowth of the myeloma cells. In this work, we investigated the in vivo homing, proliferation, and differentiation of both CD45+ and CD45- cells in two murine myeloma models.5T2MM and 5T33MM in vivo lines of murine multiple myeloma were used. CD45 and IGF-I receptor expression was analyzed by FACS. Proliferative capacity was assessed by in vivo bromodeoxyuridine incorporation. 5TMM cells were separated into CD45+ and CD45- fractions by MACS. Initial homing was investigated in vivo by tracing of radioactively labeled cells. Myeloma cells were detected by FACS and histology. Osteolytic lesions were analyzed by radiography. Both CD45+ and CD45- 5TMM cells were able to home to the bone marrow, although the migration of the latter subset was lower, which was related to a low IGF-I receptor expression. Recipients of both fractions developed myeloma as evidenced by the presence of serum paraprotein, osteolytic lesions, and bone marrow infiltration by myeloma cells. The tumor load in the recipients of CD45- cells was higher than the CD45+ cells, which could be explained by a lower proliferation rate of the latter population. While the separated cells before injection had a homogenous expression of CD45, cells isolated from the bone marrow of these terminally diseased mice had a heterogeneous expression pattern, indicating an in vivo differentiation pattern of CD45- to CD45+ cells and vice versa. We conclude that both CD45+ and CD45- 5TMM subpopulations contain clonogenic myeloma cells with bone marrow homing and proliferative capacity.
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PMID:In vivo homing and differentiation characteristics of mature (CD45-) and immature (CD45+) 5T multiple myeloma cells. 1116 8

Plasmacytomas are localized neoplastic proliferations of monoclonal plasma cells. When multifocal, the process is referred to as multiple myeloma. These lesions exhibit a pattern of antigen expression and cytomorphology that usually leads to a ready diagnosis. However, potentially troublesome variations in immunophenotype occur. We describe a case of a plasmacytoma from a patient who presented with sudden onset of pain and a lytic lesion of the left proximal humerus. Hematoxylin and eosin-stained sections showed a lymphoproliferative lesion composed of large lymphoid cells, some with plasmacytoid and immunoblastic features. The lesion also showed significant mitotic activity. Immunohistochemical staining was positive for CD45 (LCA), CD56 (N-CAM), CD43 (MT1), and cytokeratin CAM5.2. There was also clonal staining for lambda light chains. In addition, flow cytometric analysis showed positivity for myeloid markers such as CD13, CD33, CD38, and CD138. Significant negative markers include CD20 (L26), CD45RO (UCHL-1), and CD79alpha. The unusual phenotypic features of this plasmacytoma illustrate potential diagnostic pitfalls. It is important to fully study such lesions to correctly classify them, because this has significant impact on prognosis and management.
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PMID:Plasmacytoma with aberrant expression of myeloid markers, T-cell markers, and cytokeratin. 1137 26

The nature of the proliferating fraction in myeloma is still not known and understanding the characteristics of this fraction is central to the development of effective novel therapies. However, myeloma plasma cells typically show a very low rate of proliferation and this complicates accurate analysis. Although the level of CD45 and/or VLA-5 has been reported to identify proliferating 'precursor' plasma cells, there are discrepancies between these studies. We have therefore used a rigorous sequential gating strategy to simultaneously analyse cycle status and immunophenotype with respect to CD45, VLA-5 and a range of other integrin molecules. In 11 presentation myeloma patients, the proliferative fraction was distributed evenly between CD45+ and CD45- cells, however, cycling plasma cells were consistently VLA-5-. There was close correlation between the expression of VLA-5 and a range of other integrin molecules (CD11a, CD11c, CD103), as well as the immunoglobulin-associated molecules CD79a/b (Spearman, n = 10, P < 0.0001). In short-term culture, cells that were initially VLA-5-showed increasing VLA-5 expression with time. However, simultaneous analysis of the DNA-binding dye 7-amino-actinomycin D demonstrated that this was not as a result of differentiation, as VLA-5+ plasma cells were all non-viable. This was confirmed in freshly explanted plasma cells from nine patients. Discrete stages of plasma cell differentiation could not be distinguished by the level of CD45 or VLA-5 expression. The results indicate that there is a single stage of plasma cell differentiation, with the phenotype CD38+CD138+VLA-5-. These findings support the hypothesis that neoplastic bone marrow plasma cells represent an independent, self-replenishing population.
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PMID:In multiple myeloma, only a single stage of neoplastic plasma cell differentiation can be identified by VLA-5 and CD45 expression. 1191 67

It has been reported that interferons (IFNs) may have antitumor activity in multiple myeloma (MM). The mechanism for their effect on MM, however, remains elusive. This study shows that IFN-alpha and -beta, but not -gamma, induce apoptosis characterized by Annexin V positivity, nuclear fragmentation and condensation, and loss of clonogenicity in 3 MM cell lines (U266, RPMI-8266, and NCI-H929), and in plasma cells from 10 patients with MM. Apo2 ligand (Apo2L, also TRAIL) induction was one of the earliest events following IFN administration in U266 cells. Treatment of these cells with TRAIL, but not with Fas agonistic antibodies, induces apoptosis. Cell death induced by IFNs and Apo2L in U266 cells was partially blocked by a dominant-negative Apo2L receptor, DR5, demonstrating the functional significance of Apo2L induction. This study shows that IFNs activate caspases and the mitochondrial-dependent apoptotic pathway, possibly mediated by Apo2L production. Thus, IFN-alpha and -beta induce cytochrome c release from mitochondria starting at 12 hours, with an amplified release seen at 48 hours. Moreover, Bid cleavage precedes the initial cytochrome c release, whereas the late, amplified cytochrome c release coincides with changes in levels of Bcl-2, Bcl-X(L), and reduction of mitochondrial membrane potential. These results link the Apo2L induction and modulation of Bcl-2 family proteins to mitochondrial dysfunction. Furthermore, IFNs and Apo2L induce cell death of CD38(+)/CD45(-/dim) plasma cells, without significant effect on nonplasma blood cells, in a caspase and Bcl-2 cleavage-dependent manner. These results warrant further clinical studies with IFNs and Apo2L in MM.
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PMID:Apo2L/TRAIL and Bcl-2-related proteins regulate type I interferon-induced apoptosis in multiple myeloma. 1156 6

We describe a novel flow cytometric approach using a two-step acquisition technique to determine the cytoplasmic immunoglobulin light chains (LC) expression. Samples were prepared by a lysed-whole-blood technique and incubated with CD38-PE (phycoerythrin) and CD45-FITC (fluorescein isothiocyanate). The cells were fixed and acquired on an FACSCalibur flow cytometer (first acquisition). The cells were then permeabilized, incubated with either kappa-FITC or lambda-FITC and reacquired (second acquisition). Analysis of the data was performed by gating on the differing intensities of CD38 and evaluating them for the presence of a shifting FITC-positive population from the first acquisition to the second acquisition. The FITC fluorescence intensity of the second acquisition was equal to the sum of surface CD45 expression obtained during the first acquisition and the cytoplasmic LC expression obtained during the second acquisition. Thus, the shifting (increase) of FITC fluorescence intensity during the second acquisition is specifically due to the cytoplasmic expression of either the kappa or lambda LC. We studied 15 multiple myeloma (MM) patients and 10 controls (samples from patients without plasma cell dyscrasias). None of the controls showed evidence of any clonal populations. Thirteen of 15 MM patients exhibited clonal plasma cells (CD38 bright), ranging from 0.01% to 34% of total events collected. In addition, we identified another minute clonal population of lymphocytes (CD38 dim, CD45 bright, low forward and side scatter) in 12 of 13 MM patients with clonal plasma cells. This population, ranging from 0.01% to 0.6% of total events collected, had the same LC restriction as the clonal plasma cells. Patients with a ratio of minor clonal population to clonal plasma cells less than 0.07 tended to remain in partial or complete remission than those with a ratio > or =0.07 (4/5 versus 1/4, P <.1, chi(2)). We conclude that this method is highly sensitive and permits us to identify the minute clonal population of lymphocytes in MM patients. Our preliminary observations with a small cohort of patients imply that this minute clonal population may have important prognostic significance. The prognostic significance should be confirmed by further studies.
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PMID:A novel multiparametric approach for analysis of cytoplasmic immunoglobulin light chains by flow cytometry. 1159 72

A start was made on explorations into hybridoma technologies at the N. N. Blokhin Russian Cancer Research Center in the late 1970s. ICO series monoclonal antibodies (MAb) against different human differentiation leukocyte antigens have been designed in a short period of time. MAb to antigens CD25, CD8, CDw50, CD5, CD4, CD7, CD3, CD71, CD34, CD45, CD38, CD11b, CD16, and CD95 have gained worldwide recognition at International HDLA Workshop Conferences. Today, the collection of hybridomas at the Center includes more than 200 samples. MAb are used for immunophenotypic assays of blood and bone marrow cells, for classification of lymphomas and leukemias, for assessment of human immunity for immunophenotypic diagnosis of minimal residual tumor in multiple myeloma. New prognostic markers in various nosological entities and MAb biological activity are under study. MAb have been used to develop ELISA diagnostic kits. They are employed as vectors for immunotoxin design, for immunomagnetic separation, many MAb-based drugs have been designed. A start has been made on the promising development of a new line of biopharmacy, namely design of new immunoliposomal dosage forms of doxorubicin and betulinic acids.
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PMID:[Monoclonal antibodies in oncology]. 1167 47

Specific intracellular signals mediated by interleukin-6 (IL-6) receptor complexes, such as signal transducer and activator of transcription 3 (STAT 3) and extracellular signal-regulated kinase (ERK) 1/2, are considered to be responsible for inducing a variety of cellular responses. In multiple myeloma, IL-6 only enhanced the proliferation of CD45+ tumor cells that harbored the IL-6-independent activation of src family kinases even though STAT3 and ERK1/2 could be activated in response to IL-6 in both CD45+ and CD45(minus sign) cells. Furthermore, the IL-6-induced proliferation of CD45+ U266 myeloma cells was significantly suppressed by Lyn-specific antisense oligodeoxynucleotides or a selective src kinase inhibitor. These results indicate that the activation of both STAT3 and ERK1/2 is not enough for IL-6-induced proliferation of myeloma cell lines that require src family kinase activation independent of IL-6 stimulation. Thus, the activation of the src family kinases associated with CD45 expression is a prerequisite for the proliferation of myeloma cell lines by IL-6. We propose a mechanism for IL-6-induced cell proliferation that is strictly dependent upon the cellular context in myelomas.
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PMID:Requirements of src family kinase activity associated with CD45 for myeloma cell proliferation by interleukin-6. 1187 94


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