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)

A patient with CML showed monoblastic crisis which started with extramedullary tumor formation in a rib before medullary involvement. She was diagnosed as having CML in 1984 at the age of 57. In February 1990, she was admitted to Furukawa City Hospital because of extramedullary blastic crisis beginning at the right 5th rib. At that time, the bone marrow revealed 4.6% blasts. On March 5, after one course of chemotherapy, she was transferred to our hospital for radiotherapy. Hematological findings were WBC 10,100/microliter with 10% blasts, Hb 10.9 g/dl, platelet 3.7 x 10(4)/microliters. Bone marrow aspiration was unsuccessful. The blasts in the peripheral blood were negative for peroxidase and chloroacetate esterase; but positive for naphtylbutyrate esterase. The leukemic cells were positive for CD13, CD33, and had phagocytic activity. Chromosomal analysis revealed 46XX with Ph1 chromosome and some additional anomalies. Southern blot analysis of tumor cells shows BCR rearrangement. These findings suggest that the blasts were immature monocytic cells, and we conclude that this is a rare case of extramedullary monoblastic crisis of CML.
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PMID:[A case of monoblastic crisis of CML beginning with extramedullary tumor formation in a rib]. 143 21

Advances in molecular genetics in the past decade enabled us to analyze the cause of mendelian disorders at molecular level and a variety of mutations, not only in point mutations and deletion in exons but also in those occurred in regulatory elements or in RNA processing have been precisely identified. Such a variety of mutations may constitute variable clinical manifestations even in the simple mendelian disorders. On the other hand, pathogenesis of common diseases is much complicated and remains greatly to be elucidated. However, if we could use the strategies applied in the past few years for mendelian disorders, it seems to be not difficult to approach them. It is recommended to categorize a certain disease into subgroups for distinguishing their heterogenous phenotypes by clinical, biochemical and other properties. Owing to the success in making a subgroup (FAB classification), many subtype-specific translocations were found in leukemia, and then, rearrangement of relevant genes is also being shown. The best example is seen in chronic myelocytic leukemia. Since rearrangement of ABL and BCR was shown and both genes were cloned, detection of minimal residual diseases after intensive treatment became possible at 10(-6) level using RT-PCR technique. Recently developed interphase cytogenetics using FISH has visualized Ph1 translocation in metaphase cells and also in round nuclei, suggesting a potential use in monitoring the effect of certain drugs during treatment. Furthermore, very selective targeting therapy is being devised using antisense DNA.
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PMID:[Present status of gene diagnosis in cancer]. 144 79

Chronic myeloid leukaemia (CML) is a generic term that include five apparently distinct entities. The best known form, the classical Ph-positive subtype, accounts for about 90% of all cases of CML. The morphology of its presentation blood film is highly characteristic but is also seen in about half of the remaining 10% of cases, which are Ph-negative. This classical morphological subtype, whether Ph-positive or Ph-negative I describe as 'chronic granulocytic leukaemia' to refer to the exuberant granulocytic proliferation which is its hallmark. This term is often used indiscriminately and interchangeably with 'chronic myeloid leukaemia' and similar terms, just as 'chronic lymphocytic leukaemia' was, until recently, used to cover the chronic lymphoid leukaemias in general, but is now used in a specific sense. Chronic granulocytic leukaemia (CGL), whether Ph-positive or Ph-negative, is almost always BCR-rearranged and associated with the production of a unique 210-kd protein with enhanced tyrosine kinase activity. Most of the remaining cases of Ph-negative CML are examples of either chronic myelomonocytic leukaemia (CMML), a subtype almost as homogeneous as CGL, and characterized in its presentation blood film by the presence of monocytes and neutrophils but few immature granulocytes, or atypical CML (aCML), distinct from and less homogeneous than either CGL or CMML, in which some cases also share features with CGL while others share some with CMML. CMML and aCML do not show BCR rearrangement and are not associated with the production of p210kd. CGL, CMML, and aCML, though characterized on morphological features differ in their clinical features and behaviour, response to treatment and survival.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Haematological differences between chronic granulocytic leukaemia, atypical chronic myeloid leukaemia, and chronic myelomonocytic leukaemia. 149 35

The Philadelphia chromosome (Ph1) was the first genetic change to be associated consistently with leukemia, and it is one of the best understood on the molecular level. Because of this, it is an excellent model to investigate the application of molecular techniques to the clinical setting. These techniques are reviewed as are their clinical use in chronic myelogenous leukemia (CML), acute lymphoblastic leukemia (ALL), and transplantation. The Ph1 is caused by the fusion of two genes on chromosomes 9 and 22, resulting in the BCR-ABL fusion gene. This new gene is believed to be the cause of these Ph1-positive leukemias. The ability to detect the BCR-ABL fusion gene evolved from cytogenetic detection to Southern blot analysis, and now includes sophisticated techniques such as polymerase chain reaction (PCR) methods and pulsed-field gels. Diagnosis of the BCR-ABL fusion gene by Southern blot detection of bcr genetic rearrangements is the prototype of molecular cancer diagnosis. The sensitivity and clinical uses of this test are reviewed, especially its application to monitoring the response to treatment. PCR methods enable the researcher to detect 1 CML cell in a population of 10(5) cells. Clinical experience with PCR, especially in transplantation medicine, is providing a better understanding of the meaning of the terms "remission" and "cure." Newer techniques using fluorescent in situ hybridization have considerable potential for BCR-ABL detection, but no clinical experience has been gained with these techniques currently. The diagnosis of the BCR-ABL fusion gene in ALL has important clinical implications because it is the most common molecular genetic change in adult ALL and is associated with short remissions and poor outcome in all age groups. Diagnosis of the BCR-ABL fusion in ALL is difficult because the molecular findings are more heterogeneous than they are in CML. The methods available and their accuracy and sensitivity are compared. A review of their clinical impact is included.
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PMID:The role of molecular techniques in the clinical management of leukemia. Lessons from the Philadelphia chromosome. 151 23

Ph1-positive leukemias consist of acute leukemia (Ph1 AL) and CML. Cytogenetically, Ph1 AL is often associated with +6, -7, +8, +21, or +Ph1. CML is predominantly accompanied by +Ph1, +8, i (17q), +19 in myeloid crisis and +Ph1, +8, +21 in lymphoid crisis. Thus, i(17q) seems specific for myeloid crisis of CML. Ph1 constricts ABL/BCR within M-BCR in CML and in one half of the adult Ph1 AL. BCR breaks upstream to M-BCR in the other half of adult AL and in most of childhood AL. However, the breakpoint does not affect clinical and hematological features in AL. Consequently, there seems to be two types of Ph1 leukemia; one is AL representing m-BCR rearrangement and the other is CML and Ph1 AL showing M-BCR rearrangement.
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PMID:[Ph1-positive leukemia: cytogenetic outline and prognosis]. 151 45

Eight cases with Ph1 positive acute leukemia (7 of acute lymphocytic leukemia: ALL, and one of acute myelocytic leukemia: AML) were studied molecular biologically to identify location of breakpoints on BCR gene in each patient. Six of the 8 patients (5 of ALL and 1 of AML) had rearrangements at bcr (M-BCR) region. Their locations of the breakpoint in M-BCR were similar to those of 59 chronic myelocytic leukemia patients. One of the remaining two patients had gene rearrangements at m-BCR-1 region in BCR intron 1, and the last patient did not have gene rearrangements at any site of m-BCR-1 and IgL C lambda region. Two cases had gene deletion at either 3' or 5' side of the bcr. A patient with bcr rearrangement was also analyzed by PCR method with reverse transcriptase (RT-PCR) and had simultaneous expressions of bcr3-abl and bcr2-abl chimeric mRNAs. These results indicate that Ph1 positive acute leukemia have heterogeneous characteristics in terms of the molecular biology. The molecular analysis will help for classifying the leukemic types and for elucidating the pathogenesis in Ph1 positive acute leukemia.
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PMID:[Analysis of breakpoints on BCR gene in acute leukemia patients with Ph1 chromosome]. 154 9

Different aspects related to initiation of chronic myelogenous leukemia by the t(9;22) translocation and progression of the disease were investigated. Computer search indicated that the repeat within BCR exon I has significant sequence homology to the long terminal repeats of three retroviruses, to two transposons and to the Alu family. This raises the possibility that the BCR repeat is involved in the t(9;22) as well as in generation of the BCR-related loci. Possible involvement of the p53 gene in clinical transition to acute phase was studied. In six patients and cell lines where one allele of the gene was deleted, the other allele was inactivated by loss of transcription, point mutation or rearrangement. The majority of patients, however, have both p53 alleles; detailed analysis of the p53 gene in several of them indicated normal transcription and amino acid sequence.
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PMID:Initiation and progression of chronic myelogenous leukemia. 154 34

A patient with Philadelphia (Ph) chromosome-positive chronic myelogenous leukemia (CML) who was treated with alpha-interferon (alpha-IFN) is reported. After the treatment, the number of Ph+ bone marrow (BM) cells decreased gradually and the intensity of the rearranged major breakpoint cluster region (M-BCR) gene became faint; however, a lymphoblastic crisis developed about 1 year later. At the time of the blast crisis, the rearranged M-BCR band was detected, indicating that the blast crisis clone was derived from CML cells. The patient was treated with a combination of vincristine, prednisolone, daunorubicin, and L-asparaginase, and a hematologic remission was obtained. During the remission status, no rearranged M-BCR fragment was detected by conventional Southern analysis. Thus, the hematologic and genetic alteration in this case appeared to be identical to Ph+ acute leukemia with M-BCR rearrangement. The current case therefore indicates that alpha-IFN can reduce the proportion of Ph+ cells, but is unable to prevent blast crisis. Furthermore, the quantitative reduction of the cell population with a Ph chromosome may have some effects in modifying the genetic manifestations and clinical features of Ph+ CML, e.g., the delay in the appearance of the blast crisis.
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PMID:Restoration of cytogenetically normal marrow cells after remission of lymphoblastic crisis in a case of Ph positive CML treated with alpha-interferon. 155 Oct 82

The Philadelphia chromosome (Ph1), detected in virtually all cases of chronic myelogenous leukemia, is formed by a reciprocal translocation between chromosomes 9 and 22 that fuses BCR encoded sequences upstream of exon 2 of c-ABL. This oncogene produces a fusion protein (p210BCR/ABL) in which the ABL tyrosine kinase activity is elevated. This elevated kinase activity is essential for transformation, but the mechanisms involved are unknown. We report here that p21ras GTPase activating protein (rasGAP) or rasGAP-associated proteins p190 and p62 are phosphorylated on tyrosine in Ph1 (+) cell lines. Further, rasGAP coimmunoprecipitates with p210BCR/ABL in these cell lines. These results suggest that rasGAP or associated proteins are potential substrates for p210BCR/ABL kinase and thus directly link p210BCR/ABL with a signal transduction pathway known to be activated by hematopoietic growth factors (p21ras).
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PMID:Tyrosine phosphorylation of rasGAP and associated proteins in chronic myelogenous leukemia cell lines. 157 36

It is generally accepted that patients with chronic myelogenous leukemia in chronic phase under the age of 50 years who have HLA-identical siblings, should be offered bone marrow transplantation within the first year of diagnosis. The projected disease-free survival for these patients is 70% to 80% at 4 years, and most of these will prove to have been cured. Results of bone marrow transplantation for patients with more advanced disease are less promising. For transplant conditioning there is no important difference between cyclophosphamide plus total-body irradiation and busulphan plus cyclophosphamide. Nonenlarged spleens require neither splenectomy nor additional radiotherapy. The use of cyclosporine and methotrexate is currently the optimal approach to graft-versus-host disease prevention. Fewer good results are obtained with "matched" volunteer marrow donors. Use of the polymerase chain reaction to monitor residual BCR-ABL transcripts after bone marrow transplantation may prove useful in identifying patients at increased risk for relapse. Autografting may offer the prospect of prolonged life or even cure for patients without suitable allogeneic donors.
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PMID:Bone marrow transplantation for chronic myelogenous leukemia. 159

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