Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.1.1.69 (BMT)
 2,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The treatment effect of immunoselected allogeneic CD34+ blood cells was evaluated in two patients with poor graft function following BMT without evidence for immune-mediated rejection. Patient A had no signs of hematopoietic recovery up to day +34 post-BMT and patient B had normal leukocyte counts only with G-CSF support and remained platelet transfusion-dependent for > 200 days post-BMT. PBPC from the HLA-identical sibling BM donors were mobilized with G-CSF (2 x 5 micrograms/kg sc daily) for 5 days. Aphereses were performed on days 4 and 5 of G-CSF administration. CD34+ cells were separated from the pooled PBPC concentrates by immunoadsorption with the anti-CD34 moAb 12.8 in a biotin-avidin system. Patient A received 0.4 x 10(6) CD34+ and 4.3 x 10(5) CD3+ cells/kg body weight and patient B 3.4 x 10(6) CD34+ and 1.4 x 10(5) CD3+ cells/kg body weight. The trilineage repopulation of BM and the rapid improvement of peripheral blood parameters correlated with CD34+ cell infusion. Patients' blood and BM cell analyses proved the donor origin. Patient A died from CMV pneumonitis and multiorgan failure 27 days after CD34+ cell infusion (day +61 post-BMT). Patient B is still stable and in remission 260 days after CD34+ cell infusion (day +478 post-BMT). Neither patient suffered further exacerbation of GVHD). Thus, immunoselected allogeneic CD34+ blood cells might be appropriate for treatment of post-BMT graft failure.
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PMID:Treatment of poor marrow graft function with allogeneic CD34+ cells immunoselected from G-CSF-mobilized peripheral blood progenitor cells of the marrow donor. 753 62

We describe a 42-year-old man with ANLL-M4 in relapse after allogeneic BMT, in whom a new CR was obtained by conventional chemotherapy followed by the infusion of his female donor PBSC. At the time of BMT he was in CR. Six months later a full hematological relapse occurred an a three drug 5-day regimen was started. Two days after the end of chemotherapy he received donor PBSC collected by two leukaphereses after mobilization with G-CSF, given subcutaneously at 5 micrograms/kg/day for 7 days. The mononuclear PBSC were 4.2 x 10(8)/kg; the CD34 positive cells were 8.2 x 10(6)/kg and the CFU-GM were 14 x 10(4)/kg. Two days after PBSC infusion the patient received G-CSF at a dose of 5 micrograms/kg/day. Hemopoietic recovery occurred promptly on day + 13 and Y-FISH revealed 14% of Y-spot positive cells in the marrow. On day +20 hematological and cytogenetic remission was documented. The percentage of recipient cells decreased from day +36 onwards following the occurrence of a grade II GVHD, from which the patient recovered 1 week later with oral cyclosporin A and intravenous high-dose steroids. At present (day +200 from relapse) the patient is still in CR with 3% of Y-spot positive cells.
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PMID:Intensive chemotherapy followed by donor PBSC in ANLL relapsed after allogeneic BMT. 765 95

Serial blood and marrow specimens from eight adult recipients of sex-mismatched transplants (BMT) for chronic myeloid leukemia (CML, n = 3), Ewing sarcoma (n = 1), acute myeloid leukemia (AML) in second remission (n = 1), acute lymphatic leukemia (ALL, n = 1) and multiple myeloma (n = 2) were analyzed by the simultaneous immunophenotypic CD3, CD4, CD8, CD20, CD34, CD10 and genotypic analysis (for X and Y chromosomes). This combined technique of moAb/APAAP staining for cell surface and cytoplasmic antigens and fluorescence in situ hybridization (FISH) for the detection of sex chromosomes allowed the qualitative and quantitative evaluation of mixed chimerism and/or relapse. Using the same slides for moAb/APAAP and FISH allowed the simultaneous identification of the cell lineage, the lymphocyte subpopulation and the genotype (XX or YX) in every blood or BM specimen analyzed. A mixed chimerism in the T cell (CD4, CD8+: median 26% host cells, range 5-44%) and in the myelomonocytic cell population (CD14+ median 16% host cells, range 5-50%) was observed at day +7 after BMT. By days +14 to +18 this mixed chimerism was reduced to 18% host T cells (range 5-50%) and 7% host myelomonocytic cells (range 0-20%). Beyond days +21 to +28 a stable donor chimerism for T cells, myelomonocytic cells and granulocytes was observed in seven of eight patients. Still 0.5-1% host cells of different lineages were detectable in five from the eight patients at later time points (> day + 100). In three patients with CML these cells were CD13 or CD13, CD34 positive and in one was CD4, CD8 positive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Detection of mixed chimerism and leukemic relapse after allogeneic bone marrow transplantation in subpopulations of leucocytes by fluorescent in situ hybridization in combination with the simultaneous immunophenotypic analysis of interphase cells. 774 54

Allogenic peripheral blood stem cells (PBSC) were used for graft failure after BMT in two patients. These PBSC were mobilized by G-CSF in the same donors, harvested and given without reconditioning to the patients. In one patient, PBSC with a very high T cell number were given unprocessed, in the other patient, CD34+ cells were positively enriched due to a 2-antigen difference. None of the patients had hyperacute GVHD. Trilineage engraftment was seen after 13 days. Acute GVHD grade II to III developed on days +31 in patient 1 and +16 in patient 2, involving predominantly gut and liver, but sparing the skin. Thus, allogeneic PBSCT for graft failure did not cause hyperacute GVHD even with very high T cell numbers in patient 1, and graft failure with CD34 selected PBSC was successfully reversed even with a low number of T cells in patient 2.
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PMID:Allogenic peripheral blood stem cell (PBSC) transplantation in two patients with graft failure. 875 Feb 79

Whether or not peripheral stem cells have an unlimited capacity for self renewal is debated. However, everyday haematopoietic requirements are met by progenitors; and it seems that few "real' stem cells are needed. Although we may not yet have identified these "true' stem cells, for practical purposes the long term culture-initiating cells (LTC-ICs) are a close approximation. To date, experience in peripheral blood progenitor cell (PBPC) transplantation is largely confined to non-ablative regimens. It is therefore difficult to determine the number of PBPCs needed to effect long-term reconstitution. The number of tumour cells present among mobilised PBPCs can be reduced using the CD34 affinity column and by positive purging methods. The ex vivo expansion of CD34 cells also has the effect of diluting tumour cell concentration. In clinical use, PBPC transplantation has a proven role in support of high dose chemotherapy in certain haematological and oncological malignancies but the concept of dose intensification is not universally accepted. With the exception of leukaemia, lymphoma, myeloma or relapsed testicular cancer and possibly some subgroups of breast cancer; high dose chemotherapy does not demonstrate a survival benefit. For patients with CML, autografting with Ph- cells appears to become a useful alternative to allogeneic BMT. Allogeneic PBPC transplantation may have potential, though work is preliminary. Cord blood transplantation between matched siblings is viable, but it is not yet clear whether this source will increase the donor pool for adults needing allogeneic transplantation. For gene therapy using haematopoietic cells to be effective, a greatly increased rate of transduction will be needed. Meeting in Paris in September 1995, a European School of Oncology Task Force considered a number of important questions relating to peripheral blood progenitor cell (PBPC) physiology and transplantation. This review is a brief account of their conclusions.
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PMID:Peripheral blood progenitor cell transplantation: where do we stand? Chairman's Summary of the European School of Oncology Task Force meeting Peripheral Blood progenitor cell's held September 29-30, 1995. 880 40

BCR-ABL antisense oligodeoxynucleotides (ODN) have provided evidence of antileukemia effect when tested in vitro against Philadelphia-positive (Ph-pos) cells and in vivo when injected into leukemic mice. On the basis of the results obtained in vitro at diagnosis, eight patients with chronic myelogenous leukemia (CML) were selected and submitted to autologous bone marrow transplantation (ABMT) with bone marrow (BM) cells purged in vitro with junction-specific (J-sp) BCR-ABL antisense ODN at the time of transformation in accelerated phase or during second chronic phase. Mononuclear BM cells were treated in vitro for 24 or 72 hours with 150 micro/mL of antisense ODN yielding a median recovery of 47.6% mononuclear cells, 48.8% CD34(+) cells, and 20.3% clonogenic cells. After a conditioning regimen including busulphan and etoposide, the reinfused treated cells allowed engraftment and hematologic reconstitution in all patients. Evaluation of the antileukemic effect by standard cytogenetic analysis and fluorescence in situ hybridization showed a complete karyotypic response in two cases and a minimal or no response in the other six. The patient autografted in second chronic phase died in blast crisis 7 months after ABMT; of the seven patients autografted in transformation, three developed blast crisis 21 to 39 months after reinfusion, one died from unrelated BMT complications 30 months after ABMT, and three are in persistent second chronic phase 14 to 26 months after autograft. The low toxicity of the protocol and the hemopoietic reconstitution observed in all patients make this approach feasible; the marked karyotypic response observed in some patients and the duration of the second chronic phase show that ODN-mediated BM purging and autograft is a promising treatment for this high-risk group of CML.
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PMID:BCR-ABL antisense oligodeoxynucleotide in vitro purging and autologous bone marrow transplantation for patients with chronic myelogenous leukemia in advanced phase. 955 70

Retrospectively, a cohort of 43 hematological patients receiving an allogeneic T cell-depleted (TCD)-PBSCT between 1994 and 1997, was compared to a cohort of 435 patients, who received an allogeneic TCD-BMT between 1990 and 1996. Both cohorts were comparable with respect to diagnosis, risk status, age and sex. PB grafts contained four to five times more hematopoietic progenitor cells and T cells as compared to BM grafts. T cell depletion was performed by either elutriation, CD34 selection, E-rosetting, or Campath serotherapy. Conditioning was cyclophosphamide/TBI in the majority of patients of both cohorts. All patients received cyclosporin A as GVHD prophylaxis until day 90 post-transplant. Engraftment was significantly faster in the PBPCT cohort with a median time to neutrophil recovery (>0.5 x 10(9)/l) of 16 vs 21 days in the BMT cohort (P = 0.0009). Platelet recovery to 50 x 10(9)/l was 16 vs 34 days for the PB and BM cohort respectively (P < 0.0001). A median percentage of 76% of BMT patients recovered to 50 within 100 days post-BMT vs 91% of patients receiving a PB graft. The incidence of acute GVHD grades II, III and IV was similar in both cohorts. In contrast, the probability of developing chronic GVHD was 21% in the BM cohort vs 37% in the PB cohort. Relapse incidence was reduced in the PB cohort (9 vs 29%), while treatment-related mortality was not different for both cohorts. These favorable results require confirmation by a prospective randomized trial, which is currently being performed by several European centers.
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PMID:A retrospective Dutch study comparing T cell-depleted allogeneic blood stem cell transplantation vs T cell-depleted allogeneic bone marrow transplantation. 971 99

Marrow transplantation from unrelated donors has been linked with an increased risk of graft-versus-host disease (GVHD). In an attempt to lower the risk of acute GVHD we used CD34 marrow cell selection for T cell depletion. Since T cell depletion has been linked to an increased risk of relapse and an increased risk of marrow failure, we used PCR amplification of minisatellite sequences to investigate donor cell engraftment and RT-PCR amplification of recurrent chromosomal translocations to investigate the residual disease post-transplant. Twenty-three patients who underwent BMT after positive selection of the CD34-positive cell population were studied. Results were then compared with those of 37 patients who underwent transplantation with unmanipulated marrow graft. Among the 23 patients who received CD34+ selected cell grafts, seven (30%) had evidence of full donor engraftment, 14 had evidence of residual recipient cells (61%), one had a non-take, and one autologous bone marrow recovery. Analysis of the chimaerism status post-transplant in 36 patients who received unmanipulated marrow grafts showed that 31 patients (86%) had evidence of full donor engraftment. The difference in the incidence of mixed chimaerism profile between patients who received unmanipulated marrow graft and those receiving CD34+ selected cell grafts was statistically significant (P< 0.01). Nine patients who received CD34+ selected cell grafts could be analysed for the presence of minimal residual disease post-transplant (one with t(9;22) acute lymphoblastic leukaemia and eight with CML). In the patient transplanted for a Ph-positive acute leukaemia, and in two out of the eight patients with CML, the search fora fusion transcript was consistently negative after transplantation. Among the six patients with evidence of residual disease, three patients also had a mixed chimaerism profile and were given donor lymphocyte infusions. Minimal residual disease study was performed post-transplant in 16 patients who received unmanipulated marrow grafts. In 10 of 14 patients with CML, and in two patients with acute leukaemia the search for a fusion transcript was consistently negative after transplantation. The difference in the incidence of minimal residual disease between patients who received an unmanipulated marrow graft and those receiving CD34+ selected cell grafts was not statistically significantly significant, but numbers of patients included in this analysis are still few. In conclusion, our study highlights the strong influence of graft manipulation on the incidence of mixed chimaerism after transplantation from an unrelated donor.
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PMID:Influence of CD34 cell selection on the incidence of mixed chimaerism and minimal residual disease after allogeneic unrelated donor transplantation. 973 94

Following bone marrow stem cell transplantation allo-responses against haemopoietic progenitor cells (HPC), causing graft rejection and graft-versus-leukaemia effects, can be induced by donor T cells recognizing peptides derived from polymorphic endogenous proteins present in HPC. Since CD33 and CD34 are both expressed on HPC, we looked for genetic polymorphisms that might be the source of minor histocompatibility antigens (mHA) on such cells. Bone marrow from 14 donors and their HLA-identical recipients undergoing BMT for haematological malignancies were studied. Using non-radioactive single-strand conformation polymorphism analysis (cold SSCP) of complementary DNA encoding CD33 and CD34, three DNA polymorphisms, two in CD33 and one in CD34 were found and sequenced. Two were in non-coding regions, but in CD33, ATA or ATG at codon 183 resulted in an Ile or Met in the protein sequence. Nonapeptides derived from both alleles were predicted to bind to HLA A68.1. Thus two alleles of CD33 protein exist that could be mHA. With an alternate allele frequency of < 10%, allo-responses against CD33 would be uncommon after marrow transplantation. However, donors homozygous for this allele could be used to generate cytotoxic T cells against the frequent CD33 allele, for adoptive therapy of leukaemia.
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PMID:Polymorphism in CD33 and CD34 genes: a source of minor histocompatibility antigens on haemopoietic progenitor cells? 975 70

We conducted a double retroviral vector (RV) gene marking trial to test for the possible contribution to relapse of follicular non-Hodgkin's lymphoma (FNHL) cells present in bone marrow (BM) and peripheral blood (PB) grafts used for hematopoietic reconstitution of patients undergoing myelaoblative chemotherapy and autologous transplant. CD34 positive selection using the CellPro Ceprate CD34 column was performed on PB mononuclear cells obtained after cyclophosphamide/G-CSF mobilization. CD34 positive cells were exposed for 4-6 hours to the LNL6 or G1 Na RV in the absence of growth factors or stromal monolayers. One week later, BM mononuclear cells were similarly processed. Patients then received total body irradiation (TBI), cyclophosphamide, and etoposide followed by infusion of both PB and BM CD34 positive cells. Semiquantitative Southern blot analysis of DNA t(14;18) amplification products showed approximately a three log reduction in t(14;18) positive cells after CD34 positive selection. The first patient showed evidence of engraftment with RV positive BM and PB cells for 9 months. He relapsed one year after transplant. At relapse, one year after transplant, he had lost evidence of RV positive cells in ficolled mononuclear BM and PB cells as well as in CD19 positive cells. The second and third patients showed evidence of engraftment with RV positive cells up to 9 and 6 months post BMT respectively. The second and third patients are still in clinical remission. Our results demonstrate engraftment of RV transduced hematopoietic cells in the PB and BM for up to 9 months.
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PMID:Hematopoietic retroviral gene marking in patients with follicular non-Hodgkin's lymphoma. 1003 25


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