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)

Reinfusion of mobilized peripheral blood stem cells (PBSC) after high dose chemotherapy accelerates hematopoietic recovery. Because of the relatively low content of hematopoietic progenitors in the peripheral blood even after mobilization, multiple leukapheresis procedures are necessary to reach the required target number of CD34 cells to ensure prompt engraftment post-transplantation. Our previous studies have shown that the highest proportions of hematopoietic progenitors cells (CD34) are collected during the first three days of apheresis, whereas peak levels of myeloma cells are observed during subsequent days. Therefore, large volume leukapheresis (LVL), defined as processing of greater than 3 blood volumes or a total of at least 15 liters, was explored in 23 myeloma patients, undergoing 91 procedures; 14 patients were mobilized with high dose cyclophosphamide (6g/m2) and hematopoietic growth factors and 9 with G-CSF only. CD34 yields were measured separately for the first and last two hours of collection. We observed no decrease in CD34 cells/kg during the last two hours of collection and when the LVL collections were compared to historical matched controls, mobilized with the same regimen, the median quantity of CD34 cells/kg/liter collected remained equivalent during all days of apheresis. When compared to G-CSF only, mobilization with high dose cyclophosphamide appeared to result in superior hematopoietic stem cell collections. Interestingly, the G-CSF group experienced a progressive decrease in platelets during consecutive days of LVL, while the opposite was seen in the cyclophosphamide group. LVL procedures were not associated with a higher complication rate than standard volume apheresis. We conclude that LVL procedures allow collection of more CD34 cell per session while not jeopardizing progenitor cell collections during subsequent sessions. Since more CD34 cells are collected, fewer days are required to attain the optimal target of progenitor cells. This should result in PBSC grafts with less tumor contamination.
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PMID:Collection of more hematopoietic progenitor cells with large volume leukapheresis in patients with multiple myeloma. 961 79

A great amount of scientific information, accumulated over recent years on the biology of Multiple Myeloma (MM), has fuelled speculation about the origin of malignant plasma cells, about a purported critical role played by the bone marrow stroma, and further still, on cytokine interactions and in particular that of IL-6 and its relationship with the immune system. Among the growth factors secreted by stroma cells, IL-6 is a potent stimulator of myeloma cells in vitro but does not induce a malignant phenotype in normal plasma cells. Many efforts have been produced to identify the stem cell in MM and probably memory B lymphocytes are the best candidates. The demonstration of a Graft vs Myeloma effect in the allogeneic setting strongly supports the immunotherapy in MM. Recent data also suggest that a virus (Kaposi-associated herpes virus, HHV-8) may be significantly associated with the development of MM. In parallel, progress has been achieved in the treatment of this incurable disease with well defined prognostic factors, more efficient supportive care and its corollary, improved quality of life and dose-intensified chemo-radiotherapy followed by autologous hematopoietic stem cell support. Improving the quality of grafts with the selection of CD34 positive cells is another approach aimed at reducing plasma cell contamination without impairing haematological recovery. An EBMT randomized study assessing the role of CD34 selection has been initiated by our group Increasingly efficient first-line therapy, better quality autografts and improved post-remission treatment with, for example, anti-idiopathic vaccination are the most promising future directions.
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PMID:Recent progress in the biology of multiple myeloma and future directions in the treatment. 961 47

Mobilized peripheral blood stem cells (PBSC) are an attractive vehicle for cancer gene therapy. However these stem cells may have a reduced proliferative capacity due to previous cytotoxic chemotherapy treatment of the patient. In addition, primitive hematopoietic stem cells (HSC) from mobilized peripheral blood are almost exclusively quiescent, which makes it hard to induce proliferation in vitro and thus to improve stable transduction of introduced genes into a sufficiently large number of primitive stem cells. In this study CD34-selected mobilized PBSC from lymphoma and myeloma patients were used as target cells for retroviral-mediated gene transfer using a clinically relevant cell- and serum-free supernatant transduction protocol. We have investigated various parameters that may contribute to an improvement of the poor transduction efficiency of the primitive HSC, including prestimulation time, the use of the carboxy-terminal fibronectin fragment CH-296, as well as stromal cell line conditioned media. Retroviral supernatant transduction in combination with CH-296 increased significantly the gene transfer efficiency as compared to supernatant alone and made the use of polycations redundant. Gene transfer of primitive HSC (cobblestone area forming cell (CAFC) week 6) was specifically improved when this procedure was preceded by a 5-day pre-culture period as compared to a 2-day transduction procedure. However, irrespective of the numerical recovery, the CAFC week 6 after retroviral transduction produced less long-term culture colony-forming cells, suggesting a loss of individual stem cell quality. The addition of stroma-conditioned media during the pre-culture period did not affect the individual CAFC quality or transduction efficiency, but increased greatly the recovery of the total number of transduced and untransduced HSC leading to larger grafts containing higher numbers of transduced stem cells.
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PMID:Stroma-conditioned medium and sufficient prestimulation improve fibronectin fragment-mediated retroviral gene transfer into human primitive mobilized peripheral blood stem cells through effects on their recovery and transduction efficiency. 963 25

A fatal case of EBV-associated lymphoproliferative disorder arising after a CD34-selected autologous peripheral blood stem cell transplant is reported in a patient with multiple myeloma in first plateau phase. It is suggested that this is likely to be a consequence of the accessory cell depletion associated with the CD34+ cell purification and it is recommended that a source of autologous T cells is stored before transplantation to be used if a severe opportunistic infection or EBV lymphoma arises post-transplantation.
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PMID:A case of EBV-associated lymphoproliferative disease following high-dose therapy and CD34-purified autologous peripheral blood progenitor cell transplantation. 972 Jul 50

A 46-year-old female presented with acute myeloid leukemia during complete remission of multiple myeloma after extensive treatment with alkylating agents. Leukemic blasts expressed CD34, platelet esterase and gp IIIa. RT-PCR analyses of peripheral blood cells detected a p190 type BCR-ABL rearrangement and high levels of MDR1. The patient expired during neutropenia shortly after induction chemotherapy. Autopsy revealed persistent blasts in the bone marrow, spleen and liver. 'Secondary' acute myeloid leukemia with megakaryoblastic features and p190-type BCR-ABL rearrangement has not previously been reported. The possibility that the combination of a BCR-ABL rearrangement with overexpression of MDR1 may have contributed to the treatment-refractory course is discussed.
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PMID:Drug resistance of secondary acute myeloid leukemia with megakaryoblastic features and p190 BCR-ABL rearrangement. 978 5

Multiple myeloma (MM) typically afflicts elderly patients with a median age of 65 years. However, while recently shown to provide superior outcome to standard treatment, high-dose therapy (HDT) has usually been limited to patients up to 65 years. Among 550 patients with MM and a minimum follow-up of 18 months, 49 aged >/=65 years were identified (median age, 67; range, 65 to 76 years). Their outcome was compared with 49 younger pair mates (median, 52; range, 37 to 64 years) selected among the remaining 501 younger patients (<65 years) matched for five previously recognized critical prognostic factors (cytogenetics, beta2-microglobulin, C-reactive protein, albumin, creatinine). Nearly one half had been treated for more than 1 year with standard therapy and about one third had refractory MM. All patients received high-dose melphalan-based therapy; 76% of the younger and 65% of the older group completed a second transplant (P =.3). Sufficient peripheral blood stem cells to support two HDT cycles (CD34 > 5 x 10(6)/kg) were available in 83% of younger and 73% of older patients (P =.2). After HDT, hematopoietic recovery to critical levels of granulocytes (>500/microL) and of platelets (>50,000/microL) proceeded at comparable rates among younger and older subjects with both first and second HDT. The frequency of extramedullary toxicities was comparable. Treatment-related mortality with the first HDT cycle was 2% in younger and 8% among older subjects, whereas no mortality was encountered with the second transplant procedure. Comparing younger/older subjects, median durations of event-free and overall survival were 2.8/1.5 years (P =.2) and 4.8/3.3 years (P =.4). Multivariate analysis showed pretransplant cytogenetics and beta2-microglobulin levels as critical prognostic features for both event-free and overall survival, whereas age was insignificant for both endpoints (P =.2/.8). Thus, age is not a biologically adverse parameter for patients with MM receiving high-dose melphalan-based therapy with peripheral blood stem cell support and, hence, should not constitute an exclusion criterion for participation in what appears to be superior therapy for symptomatic MM.
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PMID:Age is not a prognostic variable with autotransplants for multiple myeloma. 986 45

Monoclonal antibodies (MoAbs) that selectively identify Muc-1 core protein (MoAbs DF3-P, VU-4H5) determinants were used to identify the Muc-1 glycoform present on 7 multiple myeloma (MM) cell lines, 5 MM patient plasma cells, 12 MM patient B cells, as well as 32 non-MM cell lines and normal hematopoietic cells. Flow cytometry studies demonstrated that all MM cell lines, MM patient plasma cells, and MM patient B cells expressed Muc-1 core protein epitopes. Circulating B cells from 4 normal donors also expressed Muc-1 core protein. In contrast, Muc-1 core protein was absent on 28 of 32 non-MM neoplastic cell lines, 17 of which expressed Muc-1. Splenic and tonsillar B cells, CD34(+) stem cells, resting T cells, and bone marrow plasma cells obtained from normal donors both lacked Muc-1 glycoforms. We next studied the effects of estrogen, progesterone, and glucocorticoid receptor agonists and antagonists on Muc-1 expression, because consensus sequences for the response elements of these steroids are present on the Muc-1 gene promoter. These studies showed that dexamethasone (Dex) induced Muc-1 expression on MM cell lines, as determined by both flow cytometry and Western blot analyses. Dex also induced upregulation of Muc-1 on prostate and ovarian cancer cell lines. Time and dose-response studies demonstrated that Dex induced maximal cell surface Muc-1 expression by 24 hours at concentrations of 10(-8) mol/L. Dex induced Muc-1 upregulation could be blocked with a 10-fold excess of the glucocorticoid receptor antagonist RU486, confirming that Dex was acting via the glucocorticoid receptor. No changes in Muc-1 expression were observed on MM cells treated with estrogen and progesterone receptor agonists and antagonists or with RU486. These studies provide the framework for targeting Muc-1 core protein in vaccination and serotherapy trials in MM. In addition, the finding that Muc-1 expression on MM cells can be augmented by Dex at pharmacologically achievable levels suggests their potential utility in enhancing treatments targeting Muc-1 in MM.
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PMID:Muc-1 core protein is expressed on multiple myeloma cells and is induced by dexamethasone. 994 72

High-dose chemotherapy followed by autologous transplantation has been shown to improve response rates and survival in multiple myeloma and other malignancies. However, autografts frequently contain detectable tumor cells. Enrichment for stem cells using anti-CD34 antibodies has been shown to reduce autograft tumor contamination in phase I/II studies. To more definitively assess the safety and efficacy of CD34 selection, a phase III study was completed in 131 multiple myeloma patients randomized to receive an autologous transplant with either CD34-selected or unselected peripheral blood progenitor cells after myeloablative therapy. Tumor contamination in the autografts was assessed by a quantitative polymerase chain reaction detection assay using patient-specific, complementarity-determining region (CDR) Ig gene primers before and after CD34 selection. A median 3.1 log reduction in contaminating tumor cells was achieved in the CD34 selected product using the CEPRATE SC System (CellPro, Inc, Bothell, WA). Successful neutrophil engraftment was achieved in all patients by day 15 and no significant between-arm difference for time to platelet engraftment occurred in patients who received an infused dose of at least 2.0 x 10(6) CD34(+) cells/kg. In conclusion, this phase III trial demonstrates that CD34-selection of peripheral blood progenitor cells significantly reduces tumor cell contamination yet provides safe and rapid hematologic recovery for patients receiving myeloablative therapy.
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PMID:Multicenter phase III trial to evaluate CD34(+) selected versus unselected autologous peripheral blood progenitor cell transplantation in multiple myeloma. 1096 Feb 39

In 30 patients with multiple myeloma who were scheduled for peripheral blood stem-cell transplantation, a quantitative analysis of the stem cells following enrichment by anti-CD34 was carried out. To detect the cells of the specific myeloma clone, polymerase chain reaction (PCR) was performed using unique allele-specific oligo primers for the immunoglobulin heavy chain rearrangement. The clonogenic cells before and after stem-cell enrichment, were quantified by a limiting dilution assay and a highly sensitive semi-nested PCR combined with a real-time quantitative PCR. In order to accomplish a statistically adequate end-point analysis, a large number of PCR analyses (40 per sample) were performed. By this technique the lowest detection limit observed was one myeloma cell per 106 cells. Myeloma cells were detected in 29/30 samples from the CD34-enriched fraction. The CD34 selection procedure resulted in a median 28-fold enrichment of CD34+ haemopoietic precursor cells. The stem-cell selection reduced the median concentration of clonal cells per million total cells by half, with a highly significant linear relationship between the number of myeloma cells before and after stem cell enrichment. The median depletion of clonal cells by the overall procedure was 2.15 log units, corresponding to a reduction of the total quantity of clonal cells reinfused into the patients by at least 99.3%. We conclude that CD34+ cell enrichment led to a reliable tumour cell depletion of the order of 2 log, which may not be sufficient since the total number of tumour cells in the leukapheresis product was 7.2 log (median).
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PMID:Linear reduction of clonal cells in stem cell enriched grafts in transplanted multiple myeloma. 1008 93

Allogeneic transplantation in multiple myeloma can induce complete remission, defined as disappearance of abnormal immunoglobulins in the blood, light chains in the urine and no apparent myeloma cells in the marrow, in about 50 percent of patients. The five-year survival is about 30 percent and important prognostic factors for survival are to be a female, to be in stage I at the time of diagnosis irrespective of the time of transplantation, to have received only one line of treatment before transplantation, to have responsive disease and a low beta 2-microglobulin. Transplant-related mortality is between 40-50 percent, and therefore overall survival is poorer than with autologous transplantation, while long-term survival is similar with both transplant modalities. Although the relapse rate of patients in complete remission is about 50 percent at 5 years, it is still lower than with autologous transplantation. Donor lymphocyte transfusion to patients with persistent abnormal immunoglobulins or relapse may induce regression or new complete remissions. Further studies aim at reducing transplant-related mortality by using peripheral blood stem cells, CD34-selected cells, more aggressive anti-bacterial, anti-fungal and anti-viral treatment and relapse rate will be counteracted by donor lymphocyte transfusions and perhaps post-transplant interferon treatment.
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PMID:Allogeneic bone marrow transplantation in multiple myeloma. 1019 87


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