Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fourteen patients with high-risk T-lineage acute lymphoblastic leukemia (ALL) in complete remission underwent autologous bone marrow transplantation (BMT) in an attempt to eradicate their residual disease burden. A combined immunochemotherapy protocol using a cocktail of two immunotoxins directed against CD5/Tp67 and CD7/Tp41 T-lineage differentiation antigens in combination with the in vitro active cyclophosphamide congener 4-hydroperoxy-cyclophosphamide (4-HC) was used to purge autografts. Despite high dose pretransplant radiochemotherapy and effective purging of autografts, 9 of 14 patients relapsed at a median of 2.5 months (range, 1.2 to 16.8 months) post BMT. Two patients remain alive and disease free at 26 and 28 months post BMT. We used a novel quantitative minimal residual disease (MRD) detection assay, which combines fluorescence activated multiparameter flow cytometry and cell sorting with leukemic progenitor cell (LPC) assays, to analyze remission bone marrow (BM) samples from T-lineage ALL patients for the presence of residual LPCs. Notably, high numbers of residual LPC detected in remission BM before BMT constituted a poor prognostic indicator, providing the first evidence for the biologic significance and clinical value of in vitro T-lineage ALL LPC assays. The median value for the residual leukemia burden before BMT, was approximately 8.6 x 10(3) LPC/10(8) mononuclear cells (MNC) (approximately 0.0086% LPC). Patients with a residual leukemia burden less than this median value appeared to have a better outlook for remaining free of relapse after autologous BMT than patients with a greater leukemia burden (53 +/- 25% v 14 +/- 13%, P = .006, Mantel-Cox). By comparison, the log kill efficacy of purging, the remaining numbers of LPC in purged autografts, or the estimated numbers of reinfused LPC, did not correlate with the probability of disease-free survival (DFS). These results indicate that the primary reason for the recurrence of leukemia was inefficient pretransplant radiochemotherapy rather than inefficient purging of autografts.
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PMID:Autologous bone marrow transplantation in high-risk remission T-lineage acute lymphoblastic leukemia using immunotoxins plus 4-hydroperoxycyclophosphamide for marrow purging. 222 22

Considerable confusion exists regarding the definition of acute mixed-lineage leukemia. We have proposed a list of strict criteria, limiting the term acute mixed-lineage leukemia to those patients whose blast cells co-express lymphoid and myeloid characteristics. This system includes cytochemical, immunologic, molecular, and cytogenetic characteristics that are strongly associated with either lymphoid or myeloid lineages. As more information becomes available, the criteria for mixed-lineage leukemia will undoubtedly change. Identification of patients with mixed-lineage leukemia and metachronous leukemia (lineage switch) is important for determining the prognostic implications of these findings. Care must be taken in identifying cases of metachronous leukemia because of the increased incidence of second malignancies following aggressive therapy. Evidence of a recurrence of the original clone must be obtained before metachronous leukemia can be diagnosed. As with mixed-lineage and metachronous leukemias, the potential clinical and prognostic implications of lymphoid leukemias with antigenic asynchrony should be identified. The asynchronous antigen expression in leukemic lymphoblasts may provide a means for detecting minimal residual disease. Detection of minimal residual leukemia is possible because these blasts differ from the predominant population of normal lymphoid cells in their expression of cell surface markers. Study of the mechanisms that lead to these unusual leukemias may result in better understanding of the processes that underlie both normal hematopoietic differentiation and leukemogenesis. An understanding of these leukemias may also permit identification of cases that are destined to fail current therapies so that more intensive or selective therapy can be instituted for such children. Curing the 30% of children with ALL that relapse despite our best efforts should be one of the top priorities for pediatric oncologists.
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PMID:Mixed-lineage leukemia and asynchronous antigen expression. 222 96

The effectiveness of adoptive immunotherapy in eliminating minimal residual disease in tumour-bearing mice after bone marrow transplantation was tested. This model mimics the human clinical condition when autologous bone marrow was purged ex vivo of leukaemia with mafosfamide or was not purged, and stored in liquid nitrogen before transplantation. Animals with minimal residual disease were prepared with marrow-ablative but leukaemia-noncurative doses of cyclophosphamide (CY) and total body irradiation followed by bone marrow transplantation. The next day after transplantation the recipients were injected with splenocytes immunized against the leukaemia cells (Imm-SPL) or monoclonal antibody (mAb). All the control mice died from leukaemia relapse, but 51% of purged bone marrow recipients, which received Imm-SPL, were cured. In similar conditions mAb did not exert a therapeutic effect. Imm-SPL were not able to eradicate minimal residual disease in the recipients of nonpurged bone marrow. Thus, in an animal model, we demonstrated that purging of bone marrow before grafting seems to be indispensable for successful adoptive immunotherapy of minimal residual disease (MRD) after autologous bone marrow transplantation.
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PMID:Successful adoptive immunotherapy of minimal residual disease after chemoradiotherapy and transplantation of bone marrow purged of leukaemia with mafosfamide. 228 1

In 1989, 65%-75% of previously untreated adults with ALL or AML may be expected to enter complete remission. Approximately 40% of these completely responding patients, whether they are treated with intensive chemotherapy, intensive chemotherapy followed by autologous bone marrow transplantation, or allogeneic bone marrow transplantation, remain disease-free after 3 years of follow-up. As such, the likelihood for cure for adults with acute leukemia is approximately 25%-30%. At the present time, no new chemotherapeutic agents of significant importance are on the horizon. Furthermore, it seems doubtful that the mere juggling of drug doses will have any measurable effect on treatment outcome. The use of hematopoietic growth factors, either to allow added tolerance of intensive therapy or to synchronize leukemic cells kinetically, is now under study. Perhaps the most promising area of present investigations deals with immune manipulation. The administration of immunotoxins (a drug or a cell poison chemically linked to a leukemia-related monoclonal antibody) has been associated with promising results in eradicating minimal residual disease in animal model systems. Similarly, attempts at harnessing the graft-versus-leukemia effect without the eligibility restrictions and toxicities associated with the allograft procedure, through the use of lymphokines as enhancers of natural killer cell activity, have also proven to be effective in pre-clinical trials. With the availability of hematopoietic growth factors, immunotoxins, and lymphokines, clinical research in acute leukemia in the future will no longer focus on cytotoxic drugs alone but rather on how the addition of biological agents can prolong the duration of complete remission and increase the potential for cure.
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PMID:Acute leukemias in adults: an overview of recent strategies. 231 10

Early relapse and minimal residual disease during clinical remission was examined in two patients having acute T-cell leukemia/lymphoma with the t(10;14)(q24;q11) chromosomal translocation. Molecular probes which can detect T-cell receptor alpha/delta clonal rearrangements and a TCL-3 probe which can detect the clonal rearrangement due to the chromosomal translocation failed to detect the leukemic clones during clinical remission by Southern filter hybridization. However, application of the polymerase chain reaction technology in amplification of the t(10;14)(q24;q11) chromosomal juncture during clinical remission permitted us to increase the detection level of neoplastic cells up to 1 leukemic cell/125,000 normal cells using 1 microgram of DNA. Amplified junction fragments were detected in both patients. In one case, during the period of clinical remission no amplified fragments were detected.
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PMID:Detection of minimal residual disease in leukemic patients with the t(10;14)(q24;q11) chromosomal translocation. 238 34

The present experiments were designed to investigate whether it might be possible to combine their therapeutic benefits of autologous BMT and allogeneic BMT following administration of T-lymphocyte depleted marrow allografts with additional immunotherapy following BMT. The tumor model used for investigating graft vs leukemia (GVL) effects was the murine B-cell leukemia (BCL1), a spontaneous, nonimmunogenic, highly lethal leukemia of BALB/c origin. Immunotherapy with high dose recombinant human interleukin-2 (IL2) (10(5) Cetus units x 3/day intraperitoneally (IP) for 5 days) produced significant anti-tumor effects in BCL1-bearing mice. BALB/c mice inoculated with 10(3) BCL1 leukemia cells received were treated on day -1 with cyclophosphamide 100 mg/kg and transplanted with normal syngenic BM cells on day 0. High-dose IL2 (100,000 Cetus Units x 3/day IP x 5 consecutive days) was initiated on day +1, +7, or +21 following BMT. Optimal time for administration of IL2 was noted at 3 weeks post-BMT with 90% of the mice surviving with no evidence of disease greater than 1 year. An experimental model designed to study GVL effects in a state of minimal residual disease following T-cell depleted allogeneic BMT indicated that mice receiving low dose of BCL1 challenge (10(4] were successfully treated by either IL2 (2 x 10(4) Cetus units x 2/day IP x 3 days), allogeneic spleen cells (10(6) on day +1, 10(7) on day +5 and 5 x 10(7) on day +9) alone and certainly following a combination of both.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:IL-2 activated cell-mediated immunotherapy: control of minimal residual disease in malignant disorders by allogeneic lymphocytes and IL-2. 239 Jun 44

The possibilities for studying minimal residual disease (MRD) in human acute myelocytic leukemia (AML) are limited. Animal models are, therefore, indispensable for gaining insight into the characteristics of leukemia growth during the MRD phase. Studies were done to compare AML to acute myelocytic leukemia in the Brown Norway rat (BNML). The BNML model exhibited a high degree of similarity to human AML with regard to its general growth characteristics, its cell kinetic parameters, its biophysical parameters and its response to chemotherapy. This implied that studies of the BNML model have predictive value for clinical application. In the BNML model a number of independent methods are available to quantify the number of leukemic cells, i.e., indirectly by means of various bioassays or directly by using monoclonal antibody labeling and flow cytometry. Studies of the BNML model in relation to the understanding of various aspects of MRD in leukemia are discussed in this concise review. Insight has been obtained with regard to the kinetics of MRD; the efficacy of certain treatment modalities, e.g., cytostatic drug treatment with or without total body irradiation to eradicate MRD; the efficacy of various methods for eliminating residual leukemic cells from autologous marrow grafts; the emergence of drug resistance during MRD; and the progression of residual disease during the remission phase ultimately leading to a relapse and the implications of these observations for staging leukemia patients during the phase of MRD.
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PMID:Minimal residual disease in leukemia: studies in an animal model for acute myelocytic leukemia (BNML). 240 82

Terminal deoxynucleotidyl transferase (TdT) is a useful marker for normal lymphocyte precursors and acute lymphoblastic leukemia (ALL). Our previous studies, however, have shown that for monitoring minimal residual disease in the circulation, assay for TdT alone is not sufficiently specific to distinguish leukemia cells from the background of rare normal blood TdT+ cells. In an attempt to increase specificity for leukemic cells, we have used double and triple immunophenotypic analysis to characterize normal circulating and bone marrow TdT+ cells. Overall, normal TdT+ cells were about 1000-fold more frequent in the marrow than in the blood. More than 75% of TdT+ cells in both the blood and marrow expressed the CD34, CD22, and HLA-DR antigens. However, circulating TdT+ cells infrequently expressed CD19 (4.5%) and CD9 (2.3%), compared with their marrow counterparts (74% and 47%, respectively). The brightly staining CD10+ phenotype, frequently associated with ALL blasts, was significantly less common among normal blood (5.7%) than marrow (31%) TdT+ cells. Although T-lineage markers were rarely expressed on TdT+ cells in either site, CD7+ cells were far more prevalent within the circulating TdT+ subset (4%) than among the marrow population (less than 0.2%). The results suggest a selective release of lineage-uncommitted and/or thymus-destined TdT+ cells from the marrow into the circulation. Moreover, since CD19, CD9, and high-density CD10 are frequently found on ALL blasts, staining for these markers on TdT+ cells in the circulation should improve the specificity of assay for residual common ALL cells. Likewise, assay for CD5+ and possibly CD7+ TdT+ cells in either marrow or blood should provide a very sensitive method of detection of T-ALL blasts.
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PMID:Phenotypic heterogeneity of TDT+ cells in the blood and bone marrow: implications for surveillance of residual leukemia. 233 29

In order to improve the level of sensitivity and specificity of detection of bone marrow minimal residual disease in the acute lymphoid leukemias, we have performed amplification by the polymerase chain reaction of T cell receptor gamma chain gene rearrangements. Cloning and sequencing of amplified leukemic DNA allowed the construction of a clone-specific anti-junctional oligonucleotide to be used for subsequent detection of minimal infiltration by this clone. Using such an oligonucleotide, it was possible to distinguish clonal DNA from polyclonal T lymphocytes and to detect infiltration by this clone at 10(-6) dilution into germline DNA. We therefore describe a generally applicable method for the detection of minimal residual disease in both T-ALL and the majority of B lineage ALLs.
Leukemia 1989 Feb
PMID:In vitro amplification of T cell gamma gene rearrangements: a new tool for the assessment of minimal residual disease in acute lymphoblastic leukemias. 253 29

DNA probes to both the joining region (JH) of the immunoglobulin heavy chain gene (IgH) and to the beta chain of the T-cell antigen receptor complex (TCR) have been used as tumour-specific markers to monitor the rearrangements of the IgH chain gene and the TCR beta gene in the blast cells of children presenting with acute lymphoblastic leukaemia (ALL) of B or T cell origin. Blast cells from 68 children with early B cell ALL and eight with T-ALL were examined at presentation, at day 28 after commencement of therapy and at varying times thereafter. An additional 43 patients (42 with B cell ALL, one with T-ALL) were studied both at presentation, at completion of their 2-year treatment course and 3 months later. Twelve patients, drawn from both these groups, were studied at relapse as were a further eight patients in whom an extramedullary relapse had occurred. Persistence of clonally-derived cells as a predictor of early relapse was seen in the day 28 bone marrows of 11/76 newly-diagnosed children (nine early B and two T-ALL) followed by rapid, overt relapse in four of the early B ALL cases. No minimal residual disease (MRD) was detected in bone marrows from any of the 43 patients completing their 2-year treatment course, but six of these subsequently relapsed at varying time periods thereafter. Identical patterns of rearrangement at both presentation and relapse were seen in most cases. Oligoclonality, or multiple IgH chain gene rearrangements was seen in the blast cells of 15% of patients with early B cell ALL. No correlation between oligoclonality, high white count, unfavourable phenotype or abnormal karyotype could, however, be ascertained.
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PMID:The use of DNA probes to monitor minimal residual disease in childhood acute lymphoblastic leukaemia. 255 52


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