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
Query: UMLS:C0026764 (
multiple myeloma
)
36,148
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Three different methods for determination of CD34+ cells in G-CSF-mobilized peripheral blood were compared. The methods were: the Milan/Mulhouse protocol, the ISHAGE guidelines for CD34+ cells enumeration and our own protocol. The procedure we have adopted is essentially a Milan/Mulhouse protocol-derived methodology combined with a multiparametric approach using the PAINT-A-GATE software analysis program. The samples were collected from 70 patients affected by acute leukemia, non-Hodgkin's lymphoma, Hodgkin's lymphoma,
myeloma
and breast cancer who were scheduled to receive autologous PBSC transplantation. PBSC collection was performed following mobilization with subcutaneous G-CSF at 5-10 microg/kg/day. A minimum target of 2 x 10(6)/kg CD34+ cells was considered an acceptable harvest to ensure a safe transplant. On average, three aphereses per patient were performed and a total of 204 apheresis samples were analyzed. Regression analysis of the percentage and absolute number of CD34+ cells, as calculated with each method, achieved an excellent correlation in spite of methodological differences. In fact, both CD34+dim and CD34+CD45- events were included in our gating strategy. In the setting of a triple staining associating
CD34
, CD38 and CD45, we identified a variable fraction of CD34+CD38+CD45- cells which would be otherwise undetected due to its CD45 negativity. To this end, we used a new technology referred to as laser-scanning cytometry (LSC) which allowed the isolation and morphological identification of CD34+CD45- cells. By comparing CD34+CD45+ and CD34+CD45- cells, we found that they share a common morphology, thus confirming the hypothesis that the latter are to be considered for CD34+ cell calculation. The median number of CD34+ cells/kg, as calculated by the three methods, was: 4.79 x 10(6)/kg (range 1-570) for the Milan/Mulhouse protocol, 3.9 x 10(6)/kg (range 0.8-498) for the ISHAGE one, and 5.17 x 10(6)/kg (range 2-599) for our protocol. The median time to ANC and PLT engraftment was 11 (range 9-24) and 20 (range 10-70) days, respectively. Our protocol achieved the best correlation between CD34+ cells/kg and time to ANC/PLT recovery according to the Spearman's rank test (r = -40 and P < 0. 015 for ANC, r= -46 and P = 0.005 for PLT). We conclude that (1) CD45 does not appear the ideal partner of HPCA-2 for determination of hematopoietic progenitors in mobilized peripheral blood; and (2) for clinical application, a single staining with 8G12 appears simple, reliable and feasible when rigorous procedures for sample preparation and acquisition are followed and an adequate software for multiparametric analysis is available.
...
PMID:Enumeration of CD34+ hematopoietic progenitor cells for clinical transplantation: comparison of three different methods. 1055 63
Adenoviral vectors can efficiently infect
myeloma
cell lines, but transduction of fresh
myeloma
cells performed at low multiplicity of infections (MOIs) showed only partial efficacy. The modified adenoviral vector AdZ.F(pK7), through binding of polylysines to heparan sulfate-containing receptors, could increase virus adsorption and gene transfer efficiency in
myeloma
cells, which express heparan sulfate-containing receptors. Thus, we investigated the ability of AdZ.F(pK7) vector to achieve efficient gene transfer in primary cultured fresh
myeloma
cells. Transduction of 16 primary cultured
myeloma
samples showed that gene transfer was much more efficient with AdZ.F(pK7) than with control AdZ.F. Both addition of soluble heparin and cell treatment with heparinase I dramatically inhibited gene transfer in
myeloma
cells by AdZ.F(pK7) but had no effect with AdZ.F, while addition of recombinant fiber protein inhibited AdZ.F but not AdZ.F(pK7), confirming that AdZ.F(pK7) gene transfer in
myeloma
cells is mediated by the targeting of heparan sulfates. AdZ.F(pK7) transduction of bone marrow cells showed that
myeloma
cells and hematopoietic progenitor AC133-,
CD34
-, and CD33-positive cells were efficiently transduced at an MOI of 100, but that only
myeloma
cells were significantly transduced at an MOI of 12. Thus, AdZ.F(pK7) vector seems to be well suited for immunological approaches of gene therapy or bone marrow-purging applications in
multiple myeloma
.
...
PMID:Transduction of bone marrow cells by the AdZ.F(pK7) modified adenovirus demonstrates preferential gene transfer in myeloma cells. 1056 99
The peripheral blood (PB) mononuclear cells in patients with
multiple myeloma
(MM) have been reported to include
CD34
-expressing cells that are clonally related to the
myeloma
cells. To determine whether there were elevated levels of
CD34
mRNA or whether CD34+ cells in the PB include
myeloma
-related cells, we developed a quantitative real-time and a competitive
CD34
RT-PCR assay working on single flow-sorted cells.
Myeloma
-specific cells were detected with allele-specific oligonucleotides (ASO) IgH PCR. PBSC products and mononuclear cell fractions in blood from normal donors, untreated and treated
myeloma
patients were analysed. When measured by flow cytometry, the numbers of CD34+/CD19+ cells were consistently < 0.1% of the mononuclear cells. In addition, no significant difference was found in the levels of
CD34
mRNA between normal subjects and untreated MM patients (P = 0.935). In the treated group of MM patients the
CD34
mRNA levels were significantly reduced (P = 0.052) because of the stem cell toxicity of melphalan. Further, no cells clonally related to the MM clone were found within the
CD34
compartment, defined by a sort-gate that included all cells expressing
CD34
mRNA, as no cells outside the used
CD34
sort-gate had a detectable level of
CD34
mRNA. We conclude that in
myeloma
patients, the
myeloma
clone is not found within the
CD34
compartment.
...
PMID:Circulating clonal cells in multiple myeloma do not express CD34 mRNA, as measured by single-cell and real-time RT-PCR assays. 1060 90
Human herpesvirus 8 (HHV-8), also known as Kaposi's sarcoma-associated herpesvirus (KSHV), has recently been identified within the bone marrow dendritic cells of
multiple myeloma
(MM) patients. This virus contains homologues to human cytokines such as IL-6 that could potentially stimulate
myeloma
cell growth and contribute to disease pathogenesis. Since mobilization chemotherapy may increase circulating dendritic cell numbers, we searched for HHV-8 in peripheral blood mononuclear cells (PBMCs) before and after mobilization chemotherapy given to MM patients. Furthermore, we determined if autograft purging using the CEPRATE SC device would reduce the percentage of HHV-8 infected stem cell products. Only two of the 39 PBMC samples collected prior to mobilization chemotherapy contained PCR detectable virus, yet nine of 37 PBMCs collected on the first day of leukapheresis had detectable HHV-8 (P = 0.016). HHV-8 was more frequently identified in autograft products before vs after Ceprate SC selection (40% vs 15%, P = 0.016). Although the role HHV-8 plays in
myeloma
pathogenesis remains unclear, these results imply that mobilization chemotherapy increases the numbers of circulating HHV-8-infected dendritic cells within the peripheral blood. In addition,
CD34
selection of autograft products in MM patients may reduce the reintroduction of virally infected cells following high-dose chemotherapy. Bone Marrow Transplantation (2000) 25, 153-160.
...
PMID:Human herpesvirus 8 (KSHV) contamination of peripheral blood and autograft products from multiple myeloma patients. 1067 73
DNA aneuploidy characterizes a proportion of malignant bone marrow (BM)-localized plasma cells in
multiple myeloma
(MM). This analysis shows that for most MM patients, circulating clonotypic B cells in MM are also hyperdiploid. Although all normal B cells and some malignant B cells are diploid, hyperdiploidy is likely to be exclusive to those that are malignant. Hyperdiploid MM B cells express
CD34
and have clonotypic IgH transcripts, confirming them as part of the malignant clone. For MM, 92% (70/76) of patients had a DNA hyperdiploid subset [5-30% of peripheral blood mononuclear cells (PBMCs)] of CD19+ B cells. All CD19+ PBMCs in MM expressed CD19 and IgH variable diversity joining (VDJ) transcripts, confirming them as B cells. DNA aneuploid cells were undetectable in T or B lymphocytes from normal blood, spleen or thymus, or in blood from patients with B chronic lymphocytic leukemia. In MM, untreated patients had the highest DNA index (1.12). DNA hyperdiploid PBMCs were most frequent among untreated patients and were significantly reduced after chemotherapy. Diploid B cells were significantly more frequent after chemotherapy than at diagnosis. Of the hyperdiploid PBMCs, 81 +/- 3% expressed
CD34
and CD19. In contrast to circulating CD34+ B cells,
CD34
- B cells in MM are diploid. In MM, unlike hyperdiploid PBMC B cells, hyperdiploid BM plasma cells lack both
CD34
and CD19, suggesting that loss of
CD34
correlates with differentiation and BM anchoring. In situ reverse transcription-PCR of the CD34+ (hyperdiploid) and
CD34
- (diploid) PBMC B-cell subsets was performed using patient-specific primers to amplify clonotypic IgH VDJ transcripts. Confirming previous work, CD34+ hyperdiploid MM PBMCs were clonotypic (86 +/- 5%). In contrast,
CD34
- diploid MM PBMCs had few monoclonal cells (4.8 +/- 2%). The lack of hyperdiploidy, together with the relative absence of cells having clonotypic transcripts, suggests these polyclonal
CD34
- B cells are normal. After culture in colchicine to arrest mitosis, hyperdiploid B cells were reduced and MM B cells accumulated in a diploid G2-M, suggesting that hyperdiploid in MM may represent a transient S-phase arrest rather than an aneuploid G0 phase. The DNA hyperdiploidy of CD34+ clonotypic B cells suggests these cells may be clinically important constituents of the
myeloma
clone and that they may play a direct role in the spread of
myeloma
.
...
PMID:In multiple myeloma, circulating hyperdiploid B cells have clonotypic immunoglobulin heavy chain rearrangements and may mediate spread of disease. 1069 May 43
Recently, a number of devices have been developed for the positive selection of
CD34
(+) peripheral blood progenitor cells (PBPC) for clinical use in autologous or allogeneic transplantation. The rationale for
CD34
(+) selection is based on clinical studies showing a two- to five-log reduction of contaminating tumor cells in patients with breast cancer,
multiple myeloma
and low-grade lymphoma. In addition, a three- to five-log reduction of T cells can be obtained by
CD34
(+) selection in both autologous grafts for patients with autoimmune disease resistant to conventional therapy and allogeneic grafts to reduce the incidence and severity of acute graft-versus-host disease. Transplantation of positively selected autologous
CD34
(+) PBPC results in a rapid and stable neutrophil and platelet engraftment in patients who received an infused dose of at least 2.0 x 10(6)
CD34
(+) cells/kg. Results from randomized trials suggest that time to engraftment is not different compared to unmanipulated PBPC autografts. However, close monitoring for infectious complications (e.g., cytomegalovirus disease) is required. Allogeneic
CD34
(+) PBPC have also been successfully transplanted and, using novel technologies, megadoses of purified
CD34
(+) PBPC can be obtained and used to overcome histocompatibility differences betweeen allogeneic donor and patient resulting in stable engraftment, even in a haploidentical setting. Additional randomized phase III trials are required to determine whether tumor cell purging or lymphocyte depletion by
CD34
(+) cell selection will have a significant impact on progression-free and overall survival in both autologous and allogeneic transplantation.
...
PMID:Clinical applications of CD34(+) peripheral blood progenitor cells (PBPC). 1074 80
Multiple myeloma
(MM) is characterized by a clonal proliferation of malignant plasma cells in the bone marrow secreting a monoclonal immunoglobulin (paraprotein) with specific antigenic determinants, the idiotype (Id), which can be regarded as a tumour-associated antigen (TAA). In order to analyse the impact of a dendritic cell (DC)-based vaccine, 11 patients with advanced MM were treated with
CD34
stem cell-derived dendritic cells that were pulsed with Id peptides. Subsequently, the patients received three boost immunizations every other week with a combination of Id and granulocyte-macrophage colony-stimulating factor (GM-CSF) (nine patients) or with Id peptide-pulsed dendritic cells again (two patients). The treatment was well tolerated with no side-effects. The present clinical study was a proof of concept analysis of dendritic cell-based vaccines in MM. The capacity of the dendritic cells to activate idiotype-specific T cells was verified by in vitro stimulation experiments before the vaccination therapy. Immunological effects of the Id vaccination were analysed by monitoring changes in anti-idiotype antibody titres and idiotype-specific T-cell activity. After vaccination, three out of 10 analysed patients showed increased anti-idiotype antibody serum titres, indicating the induction of an idiotype-specific humoral immune response. The idiotype-specific T-cell response analysed by ELISpot was increased in four out of 10 analysed patients after vaccination, and one patient had a decreased plasma cell infiltration in the bone marrow. In conclusion, five out of 11 patients showed a biological response after vaccination. Thus, our data indicate that immunotherapy with Id-pulsed DCs in MM patients is feasible and safe. DC generated from CD34+ progenitor cells can serve as a natural adjuvant for the induction of clinically relevant humoral and cellular idiotype-specific immune responses in patients suffering from advanced MM.
...
PMID:Vaccination of multiple myeloma patients with idiotype-pulsed dendritic cells: immunological and clinical aspects. 1079 87
To develop a model of early human adult B lymphopoiesis, we cultured CD34+CD38+CD10+ pro-B cells in contact with AFT024 stroma in X-VIVO10 media with 5% serum. The cytokines FLT3L + SCF + IL7 + IGF1 were added at day 0, IL4 + IL5 + IL6 + IL10 and soluble CD40 ligand at day 14, and Staph. aureus Cowan particles on day 21. Greater than 25-fold expansion of CD34+CD38+CD10+ cells was seen at 2 weeks, the majority being
CD34
-CD19+ pre-B cells. Differentiation to immature IgM+ B cells was seen at 3 weeks and mature IgD+ B cells at 4 weeks, with secretion of IgM into the media. Immature and mature B cells could also be generated from culture of CD34+CD10+CD19- and CD34+CD10+CD19+ cells under similar conditions. In conclusion, we have demonstrated in vitro differentiation of early pro-B cells, and possibly common lymphoid progenitor cells, to mature B cells. Additional stimuli, provided by T helper cells or dendritic cells for example, may be required for the generation of IgG+ B cells or plasma cells. However, our culture system should be a valuable tool to further investigate B cell biology and B cell malignancies such as
multiple myeloma
and lymphoma.
...
PMID:A novel in vitro model of early human adult B lymphopoiesis that allows proliferation of pro-B cells and differentiation to mature B lymphocytes. 1099 8
Anti-angiogenesis therapy with thalidomide has been reported to have marked activity in
multiple myeloma
(MM). As cytogenetics is an independent prognostic factor in MM, we analysed bone marrow (BM) angiogenesis and cytogenetic abnormalities in 34 patients with active MM. BM microvessel density (MVD), as determined by staining with anti-
CD34
, was significantly higher in MM (MVD: 221 +/- 94 per mm2) than in controls (80 +/- 36; P < 0.0001). In patients with the presence of at least one unfavourable cytogenetic abnormality (deletion of 13q14, deletion of 17p13, aberrations of 11q), a significantly increased BM MVD was observed (254 +/- 93 vs. 160 +/- 60 in patients with absence of these abnormalities; P = 0.0035). Further analyses indicated that increased BM MVD was significantly correlated with deletion of 13q14 (259 +/- 96 vs. 188 +/- 80; P = 0. 026), but not with other cytogenetic, clinical and laboratory MM parameters. We conclude that BM neovascularization is particularly high in MM with deletion of 13q14, which provides a rationale for use of anti-angiogenic strategies in the treatment of MM with high-risk cytogenetics.
...
PMID:Multiple myeloma with deletion of chromosome 13q is characterized by increased bone marrow neovascularization. 1099 71
The development of monoclonal antibodies against differentiation antigens on human haematopoietic cells has led to a new concept in stem cell purification: the positive selection. In terms of autologous PBSC transplantation, the immature stem cells are identified by their expression of a specific antigen, the
CD34
. The CD34 antigen is expressed on early lymphohaematopoietic stem cells and progenitor cells, but not on mature blood cells or on tumour cells of several diseases. CD34+ cells are found in low numbers in bone marrow (<2%) and in even lower numbers in steady state blood (<0.01%) but may increase from 1 to 5% after mobilization using chemotherapy and/or growth factors. Several techniques have been set up to enrich PBSC grafts in CD34+ stem cells. The quality of each system is here analysed in terms of
CD34
purity of the selected cell fraction, the
CD34
cell recovery, the tumour cell depletion efficiency and the functional capacity ex vivo and in vivo of the selected cells. The final CD34+ cell purity of the selected fractions is correlated to the concentration of CD34+ cells before selection. The optimal recoveries and the highest purities were generally obtained when the initial
CD34
content was roughly over 1%. Below this figure, the final purity seems to be less predictable. Besides the better tolerance resulting from the reduction in the number of autologous cells, and consequently the total volume of DMSO reinfused to the patient, the selective enrichment of the
CD34
cell population offers a new approach to tumour purging. The procedure by itself results in elimination of about 99% in the total number of initial cells, thus allowing reduction of the overall tumour cell number in the final autograft. However, its major interest is that, in diseases where tumour cells do not express the CD34 antigen, it is theoretically able to completely eliminate the tumour contamination of the graft. Based on previous data showing that lymphoma,
myeloma
, neuroblastoma and breast cancer cells are not CD34+, pilot clinical trials for the separation and transplantation of CD34+ cells selected from PBSC of patients with these diseases have recently been conducted. The efficacy of
CD34
selection in reducing the tumour load of the PBSC of patients with these diseases has been reported. However, the efficacy of purging may greatly differ between individual patients, and complete eradication of contaminating cells from PBSC grafts was not always reached. There is now evidence that purified CD34+ cells are capable of supporting haematopoietic reconstitution in autologous transplantation. However, until now no study has demonstrated clear evidence that the reduction of tumour cells from PBSC of patients by CD34+ cell selection resulted in a lower relapse rate post-transplant, as compared to unselected PBSC infusion.
...
PMID:Positive selection of autologous peripheral blood stem cells. 1100 Sep 84
<< Previous
1
2
3
4
5
6
7
8
9
10
Next >>
