UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Usefulness of DNA analysis in diagnosis of hematopoietic malignancy was discussed. Examination on the presence of rearrangement in immunoglobulin (Ig) and T cell receptor (TCR) was the first DNA analysis used for clinical diagnosis of lymphoid malignancy to determine the cell-lineage and clonality of proliferating lymphoid cells. One point mutation in ras oncogene has also been used to detect residual leukemic cells as well as diagnosis of the early relapse of leukemia, although not all leukemic cells have this mutation. Presence of BCR-abl fused gene is a genetic marker for Ph1 chromosome. Analysis of BCR-abl gene has made it possible to diagnose the Ph1 ALL and masked Ph1 CML. Development of PCR technique markedly increased the possibility for the use of DNA analysis in clinical medicine. In addition to Ph1 chromosome, various chromosomal abnormalities resulted in a reciprocal translocation between Ig or TCR gene and other genes in various lymphoid malignancies, such as Burkitt lymphoma and follicular lymphoma. These translocations can be analyzed by Southern hybridization and used for clinical diagnosis.
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PMID:[DNA diagnosis of human cancers: lymphoid malignancies and leukemia]. 198

The Philadelphia chromosome (Ph) is the cytogenetic hallmark of chronic myeloid leukemia (CML) and as such has been used to confirm the diagnosis of CML based on morphological and clinical criteria. We have investigated 12 patients who were considered to have clinical and morphological features of CML and who did not have detectable abnormalities of chromosomes 9q34 or 22q11. In six of the 12 patients, rearrangement within the 5.8 kb major breakpoint region (M-bcr) and amplification of CML specific M-bcr-ABL cDNA sequences by the polymerase chain reaction (PCR) was demonstrated. Six other CML patients did not have rearrangement of the M-bcr gene or amplification of BCR-ABL by PCR. These patients had atypical CML. They were significantly older, most had less than 10% immature granulocytic cells (metamyelocytes, myelocytes and promyelocytes) and had various degrees of marrow fibrosis. Three of these six patients died of blastic transformation at 4, 15 and 54 months from diagnosis.
Leukemia 1991 Mar
PMID:Molecular diagnosis of Philadelphia negative CML using the polymerase chain reaction and DNA analysis: clinical features and course of M-bcr negative and M-bcr positive CML. 201 77

The Philadelphia translocation in chronic myelogenous leukemia (CML) results in the production of a 210 kD BCR-ABL protein. In contrast, in 50% of Philadelphia-positive acute leukemias, the translocation results in the production of a 190 kD BCR-ABL protein. To investigate the hypothesis that the production of P190 may be associated with the progression from chronic phase to blast crisis in CML, we used polymerase chain reaction to analyze blood from 37 patients with accelerated phase/blast crisis CML for the transcripts coding for the P210BCR-ABL and P190BCR-ABL. The mRNA encoding for P210 was detected in all patients. In three patients, mRNA encoding both P210 and P190 was present. In two of these three patients, samples were available from the time of initial diagnosis. Analysis of these samples did not reveal any transcripts for P190. We conclude that in some patients the appearance of P190BCR-ABL may correlate with transformation to a more aggressive, terminal phase of CML.
Leukemia 1991 Mar
PMID:Appearance of acute leukemia-associated P190BCR-ABL in chronic myelogenous leukemia may correlate with disease progression. 201 78

More than 95% of patients with chronic myelogenous leukemia (CML) contain an abnormal chromosome termed the Philadelphia chromosome (Ph1). Ph1 and the resulting BCR-ABL fused genes are markers for this type of leukemia. The product of the fused BCR-ABL genes is a protein of about 2000 amino acids termed P210 BCR-ABL. Although the BCR-ABL protein can be routinely detected in blood cells from blast crisis CML patients by assaying for its activated tyrosine kinase activity, detection of P210 BCR-ABL in early stage CML patients (chronic phase) has not yet been possible (S. A. Maxwell et al., Cancer Res., 47: 1731, 1987). A procedure involving Western blotting with an anti-ABL monoclonal antibody was developed that allows detection of P210 BCR-ABL and P145 ABL in cells from chronic phase and blast crisis CML patients, but as expected only P145 ABL was found in normal white blood cells. Most chronic phase patients also contained one to two ABL proteins with a molecular weight of about 190,000. Interestingly, the ratio of BCR-ABL to ABL proteins increased in four blast crisis patients compared to 18 chronic phase patients. Also, one chronic phase patient analyzed on three separate occasions lacked P210 BCR-ABL and exhibited only the Mr 190,000 form. This assay should also be useful in other leukemias that express altered forms of the ABL protein.
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PMID:Detection of BCR-ABL proteins in blood cells of benign phase chronic myelogenous leukemia patients. 203 43

In 1960, Nowell and Hungerford found, for the first time, a minute chromosome at the metaphase in chronic myelocytic leukemia (CML) cells, which was called Philadelphia chromosome (Ph1 chromosome) later. Ph1 chromosome was considered to be specific for the disease and was frequently used as an important marker for the definite diagnosis. However, in mid-1970s, some cases with acute lymphocytic leukemia (ALL) were also found to have Ph1 chromosome in the leukemic cells. Therefore, Ph1 chromosome seemed to be non-specific for the diagnosis of CML. In 1980s, molecular-biology techniques were applied in the fields of leukemia research. As a result, clear differences were demonstrated between the two diseases (CML and ALL with Ph1 chromosome, respectively) at the molecular level using oncogene concept. In this review, molecular-genetic constructions of ABL, BCR and BCR-ABL hybrid genes in CML, as well as m-BCR-ABL hybrid gene in Ph1 positive ALL are focused in detail. Relationship between these molecular-genetic changes with the clinical features and the mechanism of cell growth in these cells with BCR-ABL or m-BCR-ABL hybrid genes are also discussed.
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PMID:[Molecular construction of Philadelphia chromosome and its relation to the clinical features]. 205 68

Cytogenetic and molecular aspects of Ph-positive leukemia are described in comparison with those of Ph-positive CML. Chromosomal characteristics of Ph+AL are; 1) mixture of a normal karyotype at diagnosis, 2) frequent combination with +Ph, +21, +6, +8, or -7, 3) recovery of a normal karyotype at remission. Additional chromosome changes at myeloid blast crisis (BC) of CML are characterized by +Ph, i(17q), +8, or +19. Meanwhile, lymphoid BC exhibits +Ph, +21, but not i(17q) or +19. There seems no cytogenetic difference between Ph+AL and lymphoid BC of CML, but i(17q) may be specific for CML BC. Eight patients with Ph+AL were studied with pulsed-field gel electrophoresis (PFGE) to examine the break site within ABL and BCR genes. One case had a M-BCR rearrangement and the remainder a rearrangement upstream of M-BCR. Minor-BCR rearrangement occurs seldom in CML but is detected in approximately a half of the reported cases of Ph+AL. ABL was rearranged within 1st or 2nd intron in all 8 cases. ABL breakpoints appear randomly distributed between exons 1b and 2 in both Ph+AL and CML.
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PMID:[Cytogenetic and molecular aspects of Ph-positive leukemia]. 206 72

Molecular analysis and blast colony assay were performed on patients with Philadelphia chromosome-positive acute leukemia (Ph+ AL). All patients were diagnosed as ALL- L2 and 3 were My+ ALL. Nine of the 12 cases had rearranged immunoglobulin heavy chain, and 4 had rearranged TCR beta. TCR gamma rearrangement was noted in 3 patients, and TCR delta involvement was also noted in 6 patients. Clonal culture analysis revealed that leukemia cells of M-BCR rearranged Ph+ AL cases had a potential to proliferate by myelopoietic CSFs and ILs, however, M-BCR nonrearranged Ph+ AL did not. These results indicate biological and immunogenotypic heterogeneity of Ph+ AL.
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PMID:[Immunogenotypic and clonal culture studies in Philadelphia chromosome-positive acute leukemia]. 206 75

Cytological and clinical characteristics of 25 patients with adult Ph1-positive acute leukemia were investigated. They were 2 cases with acute myelogenous leukemia (AML) and 23 cases with acute lymphoblastic leukemia (ALL). The prognosis of the patients with ALL, whose leukemia cells were positive for monoclonal antibodies against CD13 and/or CD33, was poorer than that of the patients with typical ALL. Additional chromosomal abnormalities were frequently detected on chromosome No. 2, 7, 8, 9 and 14. Both two patients with AML showed the additional chromosomal abnormalities on chromosome No. 8. Major- and minor-BCR rearrangements were analyzed in 14 patients with Ph1-positive acute leukemia. Neither major- or minor-BCR rearrangement was detected in one patients. Four patients showed major-BCR rearrangement and 9 patients showed minor-BCR rearrangement. By the chemotherapy including vincristine and prednisolone, 20 patients out of 25 got into complete remission. Nineteen patients, however, relapsed thereafter. Survival curves drawn by the method of Kaplan and Meier showed that 50 percent of the patients died within one year after diagnosis and that the prognosis of the patients with Ph1-positive acute leukemia was similar to that of the patients with chronic myelogenous leukemia in lymphoid blast crisis and worse than that of the all patients with ALL.
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PMID:[Cytological and clinical characteristics of the patients with adult Ph1-positive acute leukemia]. 206 77

The CML-specific Philadelphia (Ph1) chromosome is relatively common cytogenetic abnormality of ALL, which has been shown 20% of adult ALL and 5% of child ALL. We analysed here the 12 patients of Ph1-positive ALL, aged 35 to 69-years old, who were experienced in our hospital for latest eight years. In comparison with Ph1-negative ALL, these 12 patients were elder and showed high peripheral and bone marrow leukemic cell counts. Of these, seven patients had 100% Ph1 abnormality in the bone marrow and another five patients showed mosaic marrow patterns of Ph1 and normal chromosomes. Remissioned eight cases had no more Ph1 abnormalities in their bone marrows. Our Ph1-positive ALL revealed B-cell lineage leukemia, since their surface phenotype were Ia+ and CD10+ and they have rearranged immunoglobulin JH genes. Four out of these nine patients had such gene rearrangement in the 5.8kb bcr (major BCR: M-BCR) as CML's patient had. Eight out of twelve Ph1-positive ALL patients (66.7%) achieved complete remission, but the prognosis was so bad since they had shorter remission duration (median 6.7 mos) and survival months (median 11.9 mos) than those of Ph1-negatives.
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PMID:[Philadelphia chromosome-positive adult acute lymphocytic leukemia]. 206 78

The characteristic genetic exchange in chronic myeloid leukemia (CML) is the fusion of the ABL proto-oncogene and a specific part of the BCR or phl gene. Detection of this exchange by cytogenetic or Southern blot analysis is highly diagnostic for CML. The latter approach has not previously been used to quantify the relative proportions of leukemic and non-leukemic cells. We have assessed the feasibility of estimating the relative proportion of leukemic cells present in a sample by densitometric analysis of autoradiographs of Southern blots. In dilution experiments of CML cells with normal cells, a linear relationship could be demonstrated between the relative intensity of the autoradiograph band corresponding bcr rearrangement and the proportion of leukemic cells present. This relationship was found to be largely independent of autoradiograph exposure time. Six patients receiving various therapies have been evaluated for as long as 4.5 years by repeated densitometric and cytogenetic analysis. In general, a declining proportion of Philadelphia (Ph) chromosome positive cells was paralleled by decreasing intensity of the autoradiograph band representing bcr rearrangement. Densitometric changes were often seen prior to the detection of Ph negative cells. This analysis appears to provide a sensitive method for monitoring patients with CML.
Leukemia 1991 Jul
PMID:Densitometric analysis of Southern blot autoradiographs and its application to monitoring patients with chronic myeloid leukemia. 207 39

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