UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The patient, an 18-year-old male, was admitted on May 17, 1988, because of high-grade fever, neuralgia and generalized lymphadenopathy. Bone marrow examination revealed a large number of small nests with myeloid blastic cells negative for both peroxidase and TdT activity. Ph1 chromosome and bcr rearranged fragment were positive. On a diagnosis of CML in the accelerated phase, treatment was started with standard BHAC-DMP and vincristine. However, fever still persisted and hematological improvement could not be obtained. From September 20, 1988, mithramycin was given at 25 micrograms/kg every three days. No fever was noted and the NAP score decreased. However, fever reappeared despite the continuing treatment. Combination use of vincristine (1.0 mg/week) and mithramycin (25 micrograms/kg/week) was then begun, and the fever immediately disappeared. After mithramycin administration, a transient marked increase of neutrophils appeared in the peripheral blood, suggesting the induction of differentiation. After then, a complete remission was obtained. A transient disappearance of Ph1 chromosome by the chemotherapy was noticed. He has remained in the chronic phase of CML for one year. In conclusion, combination use of vincristine and mithramycin may be useful in the treatment of the myeloid blast crisis.
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PMID:[Successful treatment of CML in accelerated phase with mithramycin]. 214 52

Rearrangements of immunoglobulin and T cell receptor (TCR) genes have been demonstrated in malignant lymphoid tumors of B and T cell origin. In Philadelphia chromosome-positive chronic myeloid leukemia and acute lymphocytic leukemia cells the bcr and c-abl genes are reorganized and transcripts composed of both genes are expressed. We analyzed the organization of bcr, immunoglobulin and TCR genes in malignant lymphomas. Our data show that in all B cell lymphomas analyzed the JH genes and in some cases also the J kappa genes were rearranged. In a Burkitt lymphoma and in a Kil lymphoma distinct rearranged TCR gamma fragments were detected, in a second Burkitt lymphoma two rearranged TCR beta gene fragments occurred together with a rearranged JH gene fragment. In two T cell lymphomas rearranged TCR beta genes were observed; one of these lymphomas also carried rearranged TCR gamma and JH genes. In Hodgkin's disease in 3 out of 7 cases rearranged immunoglobulin genes were detected. In 1 case, which was diagnosed as a follicular hyperplasia, rearranged JH and TCR gamma fragments appeared. In none of the analyzed lymphomas could bcr rearrangements be observed.
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PMID:Analysis of immunoglobulin, T cell receptor and bcr rearrangements in human malignant lymphoma and Hodgkin's disease. 216 Jun 31

We studied the cells from three selected patients with Ph-chromosome-negative chronic myeloid leukemia (CML) by Southern blotting, polymerase chain reaction, and in situ hybridization of informative probes to metaphase chromosomes. All three patients had rearrangement of M-BCR sequences in the BCR gene and expression of one or other of the mRNA species characteristic of Ph-positive CML. Leukemic metaphases studied after trypsin-Giemsa banding were indistinguishable from normal. The ABL probe localized both to chromosome 9 and 22 in each case. A probe containing 3' M-BCR sequences localized only to chromosome 22, and not to chromosome 9 as would be expected in Ph-positive CML. Two new probes that recognize different polymorphic regions distal to the ABL gene on chromosome 9 in normal subjects localized exclusively to chromosome 9 in two patients and to both chromosomes 9 and 22 in one patient. These results show that Ph-negative CML with BCR rearrangement is associated with insertion of a variable quantity of chromosome 9 derived material into chromosome 22q11; there is no evidence for reciprocal translocation of material from chromosome 22 to chromosome 9.
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PMID:Interstitial insertion of varying amounts of ABL-containing genetic material into chromosome 22 in Ph-negative CML. 216 19

Leukemic cells from a patient with Ph-negative chronic myeloid leukemia (CML) had a normal karyotype. M-BCR was rearranged and chromosome in situ hybridization showed an ABL insertion between 5' and 3' M-BCR on an apparently normal chromosome 22. The association of 5' BCR and 3' ABL at the 5' junction of the chromosome 9 insert was typical of that found for the BCR-ABL fusion gene in other patients with the standard t(9;22) and CML. With an M-bcr-3' probe, we cloned and characterized a 3' junction fragment. Field inversion gel electrophoresis and chromosome in situ hybridization studies using a probe isolated from genomic DNA 5' of the junction showed that 3' M-BCR was joined to a region of chromosome 9q34 rich in repetitive sequences and lying some distance 3' of ABL. The chromosome 9 insert was at least 329 kilobases long and included 3' ABL and a larger portion of chromosome 9q34. Our results allowed us to exclude transposon- or retroviral-mediated insertion of ABL into chromosome 22. Instead, we favored a two-translocation model in which a second translocation reconstituted a standard t(9;22)(q34;q11) but left the chromosome 9 insert, including 3' ABL, in chromosome 22.
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PMID:Ph-negative chronic myeloid leukemia: molecular analysis of ABL insertion into M-BCR on chromosome 22. 217 2

A clinical and molecular study was performed on 10 patients with the presumptive diagnosis of primary thrombocythaemia (PTH). In all cases conspicuous megakaryocytic proliferation in bone marrow smears was detected in the absence of the Philadelphia chromosome (Ph1), elevated red blood cell mass and evidence for a reactive cause of the thrombocytosis. We analyzed whether rearrangements of the bcr gene occurred in untreated patients. Bcr rearrangements were detected in the bone marrow cells but not in peripheral blood bells of one patient, indicating that this case might be related at the molecular level with Philadelphia chromosome negative CML, in which bcr rearrangements could be demonstrated.
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PMID:Analysis of bcr rearrangements in primary (essential) thrombocythaemia. 218 Dec 4

Bone marrow transplantation is the only treatment that can result in long-term disease-free survival and possible cure in a significant number of patients with CML. Several prognostic features influence relapse and survival following allogeneic BMT for CML. The most important factor is treatment of patients during chronic phase. The timing of BMT in chronic phase CML remains controversial, because the Seattle findings that BMT done within a shorter interval from diagnosis to transplant was associated with improved survival has not been confirmed by the IBMTR. No factor can predict in the individual patient the timing of transformation, even in patients with low-risk chronic phase CML, but we believe that allogeneic BMT should be offered as soon as possible for newly diagnosed patients who have histocompatible siblings. More widespread application of BMT in CML is possible because of effective methods for preventing GVHD, the major cause of morbidity after allogeneic BMT. However, in vitro techniques for the depletion of donor marrow T cells have resulted in higher graft failure and relapse rates. More precise understanding of the immune mechanisms involved may permit more selective depletion techniques which not only abrogate GVHD but also permit sustained engraftment and preserve GVL effect. This may extend application of BMT for patients with mismatched related or histocompatible unrelated donors. It is of interest that cytogenetic relapse after BMT is not invariably followed by hematologic relapse. It is likely that the use of polymerase chain reaction techniques which detect the bcr-abl rearrangement at a very low level will identify the persistence of the malignant clone after allogeneic BMT in even more patients. At present, the significance of such findings is unclear, but further study of the kinetics of disappearance of the CML clone post-BMT may increase our understanding of the immune mechanisms involved in suppression of the malignant clone and determine whether in fact CML can be cured using BMT approaches.
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PMID:The evolving role of bone marrow transplantation in the treatment of chronic myelogenous leukemia. 218 97

After some comments on the topology of chromatids, restructuring of the interphase nucleus is conjectured to depend upon the nuclear vesicle apparatus. These vesicles change the intrinsic shape of chromatids to fit the different topology of the interphase nuclear spheroid. Reciprocal translocations between selected chromatids result whenever the nucleus of malignant cells organizes de novo certain exceptional or emergency differentiation paths. However, the almost unavoidable chimeric genes resulting from these translocations may be less ominous than hitherto suspected. This seems to be the case for chronic myelogenous leukemia, where the bcr-abl chimeric gene lessens the aggressiveness of the primary clone when functioning in the context of myelomonocitic differentiation. Finally, our model estimates the statistical incidences of the bcr-abl chimera. These estimates are found to agree with clinical data better than evaluations from the random mutation theory.
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PMID:On the topology of normal chromatids and on their translocations in myelogenous leukemia. 219 64

BMT is the only curative therapy for CML, a uniformly lethal malignant disorder of the hematopoietic stem cell. Younger patient age and transplant in CP are associated with better outcome. Transplant within 1 year of diagnosis may provide a greater chance of survival than transplant at a longer interval from diagnosis. T-cell depletion of donor BM significantly reduces the incidence of acute and chronic GVHD, but is associated with an increased risk of graft failure and a marked increase in rate of relapse. Early results suggest that HLA-matched or partially HLA-mismatched unrelated donors may be used successfully in cases in which a suitably matched related donor is not available. Autologous transplantation of BM or PB stem cells can result in successful engraftment and possibly prolonged survival in some patients with CML. Following allogeneic BMT, some patients relapse cytogenetically without progressing to hematologic relapse. The use of PCR methodology to amplify bcr-abl transcripts has revealed persistence of the malignant clone in a substantial number of patients who are in hematologic and cytogenetic remission. The clinical significance and biologic mechanism(s) of this form of molecular relapse remain to be defined.
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PMID:Treatment of chronic myelogenous leukemia with bone marrow transplantation. 219 13

Philadelphia (Ph')-positive acute lymphoblastic leukemia (ALL) is highly associated with two forms of chimeric bcr-abl proteins: P190bcr-abl and P210bcr-abl. Whereas P210bcr-abl also occurs in chronic myeloid leukemia, P190bcr-abl is uniquely expressed in Ph'-positive ALL. As a consequence, P190bcr-abl is preeminently a tumor-specific marker in leukemic cells of ALL patients. Because P190bcr-abl is composed of the normal bcr and abl proteins, the major part of the P190bcr-abl molecule comprises nontumor-specific determinants. The joining region between bcr and abl, newly generated during the Ph' translocation, is exclusively a tumor-specific epitope on the P190bcr-abl molecule. Therefore, only antibodies against the bcr-abl joining region will detect the tumor-specificity of P190bcr-abl. In this study a polyclonal antiserum, termed BP-ALL, was raised against a synthetic peptide corresponding to the bcr-abl junction in P190bcr-abl. The reactivity of BP-ALL with native P190bcr-abl derived from a Ph'-positive ALL cell line (TOM-1) was tested using immunoprecipitation analysis. BP-ALL reacted highly specifically with P190bcr-abl but not with P210bcr-abl isolated from chronic myeloid leukemia cell lines. Peptide inhibition studies further confirmed the fine specificity of BP-ALL. Our data indicate that the tumor-specific bcr-abl junction domain is exposed in an antigenic fashion on the P190bcr-abl molecule.
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PMID:Immunologic characterization of the tumor-specific bcr-abl junction in Philadelphia chromosome-positive acute lymphoblastic leukemia. 219 87

Southern and Northern blot hybridization studies and the polymerase chain reaction (PCR) have been used to analyze the bcr-abl gene complex in chronic myelogenous leukemia (CML). Because fresh or cryopreserved cells may not always be available for molecular analyses, we investigated the possibility of using routinely prepared glass slide smears of blood or bone marrow as our source of cellular material. Cellular RNA was prepared directly from the blood or bone marrow smears using a modified RNA extraction procedure. cDNA was synthesized from RNA and amplified with PCR using bcr and abl-specific primers. Using this procedure, the bcr-abl fusion gene was detected by PCR in 21 of 21 patients with CML. Three patients who had undergone allogenic bone marrow transplantation (BMT) for CML were also studied by PCR. bcr-abl was identified transiently in one patient, persisted in one patient after BMT for 2 years until relapse occurred, and was absent in one patient to 18 months after BMT. We have shown that PCR can detect the bcr-abl gene of CML using material from glass-slide smears. This technique may be useful as a general approach in evaluating archival hematologic specimens for the expression of critical gene products.
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PMID:Detection of Philadelphia chromosome-positive cells from glass slide smears using the polymerase chain reaction. 219 14

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