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)

Unlike allogeneic bone marrow transplantation (BMT), autologous BMT is not accompanied by immune-mediated graft-versus-leukemia (GVL) effects; hence, the relapse rate observed after autologous BMT in malignant hematologic disorders is higher than that observed after allogeneic BMT. Autologous BMT represents a much safer medical procedure available for many patients in need in situations where allogeneic BMT is not feasible or risky. The present experiments were designed to investigate whether it might be possible to combine the therapeutic benefits of autologous BMT with additional immunotherapy after BMT. The tumor model used for investigating GVL effects was the murine B-cell leukemia (BCL1), a spontaneous, nonimmunogenic, highly lethal leukemia of BALB/c origin. BALB/c mice inoculated with 10(3) BCL1 leukemia cells were treated on day-1 with cyclophosphamide 100 mg/kg and transplanted with normal syngeneic BM cells on day 0. High-dose recombinant interleukin-2 (rIL-2) (100,000 Cetus units x 3/day intraperitoneally x 5 consecutive days) was initiated on day +1, +7, or +21 after BMT. Kinetics of lymphocyte reconstitution after syngeneic BMT indicated a steep increase in the absolute number of peripheral blood lymphocytes on days 17 through 24. All experimental groups were observed for relapse. Mice receiving no rIL-2 therapy relapsed and died within 50 days after BMT, whereas mice receiving rIL-2 showed long-term disease-free survival. Optimal time for administration of rIL-2 was noted at 3 weeks post-BMT, with 90% of the mice surviving with no evidence of disease for more than 1 year. Similarly, when 10(4) BCL1 cells were given 1 day after syngeneic BMT to simulate minimal residual disease after syngeneic BMT, rIL-2 therapy administered at 14 days post-BMT seemed effective in prolonging disease-free survival in contrast to the same regimen given at 1 day after BMT. Our data suggest that immunotherapy with rIL-2 should be further investigated as a new immunotherapeutic tool for decreasing the relapse rate after BMT for hematologic malignancies.
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PMID:Use of recombinant human interleukin-2 in conjunction with syngeneic bone marrow transplantation in mice as a model for control of minimal residual disease in malignant hematologic disorders. 187 88

Recently, detection of the minimal residual disease (MRD) has become possible by polymerase chain reaction (PCR) using leukemia specific DNA or mRNA sequences originated from t(9; 22), t(1; 19) and t(14; 18) translocations, T cell receptor or immunoglobulin CDRIII. This method made possible to detect one leukemic cell out of 10(4)-10(5) cells, and the presence of MDR became clear during complete remission after chemotherapy or bone marrow transplantation. This suggests the usefulness of this method in the treatment of leukemia.
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PMID:[Minimal residual disease in leukemia]. 188 77

The analysis of the configuration of the immunoglobulin (Ig) and T-cell receptor (TCR) gene regions has been of great relevance in defining conclusively the nature of several lymphoproliferative disorders in man. Furthermore, this technological tool has also helped to dissect between a monoclonal and polyclonal pattern of proliferation. The major results obtained, the potential use of molecular studies for the detection of minimal residual disease and the relevance of these techniques in the understanding of the processes of leukemogenesis and lymphomagenesis are discussed.
Leukemia 1991
PMID:Immunoglobulin and T-cell receptor gene analysis in lymphoproliferative disorders. 189 Aug 61

Sixty precursor B-cell acute lymphoblastic leukemia (ALL) patients were analyzed for the configuration of their immunoglobulin (Ig) genes. Rearrangements and/or deletions of the Ig heavy chain (IgH), Ig kappa chain (Ig kappa), and Ig lambda chain (Ig lambda) genes were detected in 98, 48, and 23% of cases, respectively. Although these percentages suggest the presence of a hierarchical order in IgH and Ig light chain (IgL) gene rearrangements during B-cell differentiation, no correlation was found between the immunophenotype of the precursor B-ALL and the arrangement patterns of their IgH and IgL genes. Multiple rearranged IgH gene bands, generally differing in density, were found in 27 (45%) of the precursor B-ALL in various restriction enzyme digests. Cytogenetic data were used to determine whether the presence of more than two rearranged IgH gene bands was caused by hyperdiploidy of chromosome 14 or other chromosome 14 aberrations. The combined cytogenetic and IgH gene data allowed the precursor B-ALL to be divided into three groups: a monoclonal group (n = 36; 60%), a biclonal group (n = 16; 27%), and an oligoclonal group (n = 8; 13%). In five biclonal ALL biclonality at the Ig kappa gene level was also found. Such subclone formation was not detected at the Ig lambda gene level. As the detection limit of the Southern blot technique is 2-5%, it might well be that small subclones remained undetected, implying that the frequency of subclone formation at the IgH gene level in precursor B-ALL is probably higher than 40%. It has been suggested that precursor B-ALL with multiple IgH gene rearrangements have a higher tendency to relapse. Although higher relapse rates were found in the oligoclonal group (53%) and in the combined bi-oligoclonal group (33%) compared with the monoclonal group (20%), the log rank trend test showed no significance. The occurrence of multiple subclones in precursor B-ALL as found by IgH gene analyses will severely hamper the detection of minimal residual disease using the polymerase chain reaction (PCR) mediated amplification of 'tumor-specific' IgH gene junctional regions, because it cannot be predicted which detectable (or undetectable) subclone will cause minimal residual disease and/or relapse. Therefore it can be expected that the PCR technique will frequently produce false negative results during the follow-up of precursor B-ALL.
Leukemia 1991 Aug
PMID:Multiple rearranged immunoglobulin genes in childhood acute lymphoblastic leukemia of precursor B-cell origin. 190 9

The first consistent karyotypic abnormality found to be associated with neoplastic disease was the Philadelphia (Ph) chromosome (Nowell & Hungerford, 1960). Furthermore, the best-studied example of translocation-mediated gene activation occurs in leukaemia patients bearing this abnormality (reviewed by Kurzrock et al, 1988). In these individuals, the Ph translocation (t(9;22)(q34;q11)) results in transposition of the ABL proto-oncogene from chromosome 9q34 to 22q11, where it is fused with part of the BCR gene. It is now known that as a result of the Ph translocation, p160BCR and p145ABL (the normal BCR and ABL gene products) are replaced by p210BCR-ABL. This aberrant protein constitutes the molecular fingerprint of CML. The enhanced tyrosine phosphokinase enzymatic activity (a property possessed by some growth factor receptors and transformation-inducing oncogenes) of p210BCR-ABL implicates a direct role for this molecule in the pathogenesis of CML. Because the Ph translocation is present in the early chronic phase, the union of the BCR and ABL genes is probably involved in the initiation of the leukaemic process. The secondary molecular forces driving progression of CML to blast crisis are however unknown, and may differ from patient to patient. Approximately 10% of CML patients lack a Ph chromosome. One-half of these individuals have bcr rearrangement and express p210BCR-ABL. Ph+ and Ph- bcr+ (p210+) CML are identical and should be treated the same. Molecular follow-up of diploid bcr+ CML patients is essential for detection of persistent malignancy after therapy. The presence of a specific marker--the BCR-ABL message--permits the development of new diagnostic approaches for CML. For instance, detection of a BCR-ABL message with the use of the highly sensitive polymerase chain reaction, a technique capable of detecting up to one leukaemia cell amongst one million normal cells, yields important information about minimal residual disease. Finally, the use of therapy directed against the BCR-ABL product may be a worthwhile strategy which deserves investigation, and may prompt a new era of tumour-specific treatment.
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PMID:The molecular pathology of chronic myelogenous leukaemia. 193 6

Bone marrow samples of 16 patients (two adults and 14 children) with a B lineage acute lymphoblastic leukaemia (ALL), and in whom Ig heavy chain gene rearrangements were detectable at diagnosis using polymerase chain reaction (PCR), were studied during evolution using PCR. The VDJ junctional fragment of the Ig heavy chain rearranged gene was amplified at diagnosis. After length reduction by restriction digestion, the amplified fragment was recovered by chromatography, labelled using a specific hexamer as a primer and directly used as a clonospecific probe. The sensitivity of the PCR ranged from 1:10(4) to 1:10(5) cells, depending on the patient's rearrangement. Residual disease (MRD) was detected in most of the patients achieving a complete remission after induction therapy, regardless of the long-term outcome of treatment. However, in patients remaining in complete remission, the level of MRD showed a tendency to decrease and ultimately become undetectable for variable periods of time, while in patients eventually relapsing there was a trend for MRD to persist at stable levels and even to increase before relapse was clinically evident. We conclude that the use of a simplified methodology for obtaining a clonospecific probe from the Ig heavy chain gene, though less sensitive than the sequencing methodology, is a valuable and readily available tool to monitor MRD in a high proportion of B lineage ALL.
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PMID:Follow-up of residual disease (MRD) in B lineage acute leukaemias using a simplified PCR strategy: evolution of MRD rather than its detection is correlated with clinical outcome. 195 77

Since their introduction in the early seventies, in vitro culture techniques for human acute leukaemia cells have been modified and improved considerably. Primarily, this is the result of the availability of the recombinant haematopoietic growth factors (HGFs). It is now possible to evaluate HGF responses of acute leukaemia cells in colony and DNA synthesis assays under fully defined conditions. In this chapter we summarize the current insights into the growth properties of human acute leukaemia progenitor cells and evaluate the potential significance of the application of in vitro clonogenic assays for refining the diagnosis of acute leukaemia, for detecting minimal residual disease and for monitoring therapy.
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PMID:Practical aspects and diagnostic significance of in vitro manipulation of progenitors in human acute myeloid and lymphoid leukaemia. 195 84

A graft versus leukaemia (GvL) effect makes a significant contribution to the lower risk of relapse seen in patients after BMT compared with patients receiving chemotherapy alone. Both T cell-dependent and T cell-independent effectors of GvL exist, and both may play an important role in the elimination of minimal residual disease after BMT. There is evidence that GvL activity may be separable from GvHD either by identifying T cell clones recognizing specific leukaemia antigens or by using immunomodulatory drugs or cytokines to enhance T cell-independent GvL mechanisms which operate without alloreactivity and therefore without concomitant exacerbation of GvHD. These approaches should improve survival after both autologous and allogeneic BMT.
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PMID:Graft versus leukaemia effects after marrow transplantation in man. 195 89

We used in situ hybridization with a probe for the X chromosome to study interphase cells of bone marrow and peripheral blood specimens from a male patient with acute lymphoblastic leukemia characterized by hyperdiploidy, including trisomy X. In a posttreatment bone marrow specimen, which was interpreted as a regenerating bone marrow morphologically and which demonstrated a normal karyotype cytogenetically, trisomy X was found in 16 of 1,000 interphase cells. This finding indicated the presence of leukemic cells that were undetected by conventional morphologic and cytogenetic techniques (ie, minimal residual disease). Cytogenetic studies of a relapse specimen obtained after a sex-mismatched bone marrow transplant showed only a normal female karyotype in each of 40 metaphase cells, suggesting that the relapse occurred in donor cells. However, interphase analysis demonstrated trisomy X in more than 80% of interphase cells and indicated that the relapse was of the original clone and was not a transformation of donor cells. This case illustrates that interphase analysis can be useful as an adjunct to conventional cytogenetic analysis in the detection of minimal residual disease and in the analysis of interphase cells that are not accessible to routine cytogenetic methods. It also illustrates that previously reported instances of relapse of leukemia in donor cells could have been incorrect if supported by cytogenetic data alone.
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PMID:Interphase cytogenetic analysis detects minimal residual disease in a case of acute lymphoblastic leukemia and resolves the question of origin of relapse after allogeneic bone marrow transplantation. 199 94

With traditional therapy of acute myelogenous leukemia, not more than 20% of patients achieve long-term survival. Efforts at intensifying postinduction chemotherapy have resulted in minor improvements only, but this limited progress has been hampered by increasing toxic-death rates. Eradication of the leukemia burden may be achieved by the introduction of more effective induction regimes and these may be rendered more effective by the application of 'enhancers'. With a lower tumor burden, and with more appropriate timing for supralethal therapy, it may be possible to achieve cure with greater frequency. Measurement of 'minimal residual disease' permits more logical selection of postinduction therapy.
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PMID:Further thoughts on 'cell kill' in acute leukemia. 201 23


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