Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Available evidence suggests a double-pathway two-staged genetic alteration in the pathogenesis of Chronic Myeloid Leukaemia (CML). The regular Ph' defect results in BCR-ABL gene chimaerism on the one hand and suppressed synthesis of the protein responsible for Zn absorption on the other. The resulting Zn deficiency leads, through its metalloenzymes, to a low NAP activity and depressed DNA & RNA polymerase activities: the latter necessitates an adaptive mechanism to sustain cell division despite low zinc. This adaptation is in the form of another gene alteration; a point mutation in the BCR-ABL chimaeric gene, now an oncogene, whose onco-proteins are zinc-independent and stimulate cell division more efficiently (though abnormally also) than the polymerases while defying the usual mechanisms regulating DNA synthesis and cell division. Thus it seems possible that assisted transcellular zinc transport could prevent development of CML in Ph'-positive individuals and the enhanced (abnormal) cellular proliferation might be specifically inhibited.
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PMID:Possible significance of Ph, zinc and BCR-ABL chimaerism in the pathogenesis of chronic myeloid leukaemia. 766 34

It has previously been shown that a cluster of HpaII sites with the potential to be methylated exist around exon b3 of the M-bcr region involved in the formation of the Philadelphia chromosome in chronic myeloid leukemia (CML). The degree of hypermethylation of these sites can be directly correlated with the percentage of immature cells, whilst progressive hypomethylation occurs during the maturation of the granulocyte lineage. We have examined samples obtained from CML patients at diagnosis, during chronic phase, and blast crisis to examine the degree of methylation of this region in the non-rearranged BCR gene and the rearranged BCR-ABL gene. A low degree of methylation of the non-rearranged gene, similar to that observed in normal individuals, was observed in diagnosis and chronic phase samples. Increased methylation was observed during blast crisis indicative of the presence of immature cells in the samples. In contrast, a significantly lower degree of methylation was observed in the rearranged BCR-ABL gene at the onset of blast crisis. Division of the samples into those patients who had lost exon b3 during the formation of the BCR/ABL gene and those that had retained exon b3 produced differing patterns of methylation during disease progression. The former group, who also expressed a b2-a2 mRNA, showed an increase in methylation of the non-rearranged BCR gene prior to and during blast crisis, with a inverse decrease in the methylation of the BCR/ABL gene. Those patients who had retained exon b3, and expressed a b3-a2 mRNA, showed no change in the extent of methylation of the BCR/ABL gene but did exhibit an increase in methylation of the BCR gene during blast crisis. The consequence of the differing degree of methylation during disease progression could affect, to some extent, the specificity of protein binding or RNA expression.
Leukemia 1993 May
PMID:Methylation of the major breakpoint cluster region (M-bcr) in Philadelphia-positive CML. 768 49

We describe a patient with a t(7;11)(p15;p15) acute myeloid leukemia who was subsequently found to harbor the Philadelphia (Ph) translocation, in addition to the t(7;11), at the second relapse. A BCR/ABL transcript was detected at the second relapse by reverse transcription-polymerase chain reaction assay; the leukemic cells had a BCR/ABL fusion gene involving the minor breakpoint cluster region (minor-BCR; situated in intron 1 of the BCR gene). Although the Ph translocation is commonly detected in de novo acute leukemia and chronic myeloid leukemia as the primary leukemia-specific chromosomal translocation, our case suggests that this cytogenetic change might occur as an additional chromosomal change in neoplastic cells. Moreover, minor-BCR/ABL rearrangements may also occur as a late appearance of Ph translocation.
Leukemia 1995 Apr
PMID:Late appearance of a Philadelphia translocation with minor-BCR/ABL transcript in a t(7;11)(p15;p15) acute myeloid leukemia. 772 98

Genomic imprinting has recently been associated with the reciprocal t(9;22) chromosome translocation of chronic myeloid leukaemia (CML). This translocation gives rise to a 22q-, or Philadelphia (Ph), chromosome and a derivative 9q+. Based on heterochromatin polymorphisms, it was reported that the former is of maternal and the latter of paternal origin in every case of CML. This parental bias led to the hypothesis that the genes disrupted by the translocation, BCR and ABL, were themselves imprinted, and that in CML the BCR-ABL gene was formed by BCR sequences of maternal and ABL sequences of paternal origin. We have identified a BstNl restriction fragment length polymorphism in the ABL coding sequence which enabled us to investigate directly the expression and inheritance of the two ABL alleles in heterozygous CML patients. Amplification of the specific BCR-ABL and normal ABL mRNA messages by reverse transcriptase-polymerase chain reaction in these patients showed that the ABL moiety of the BCR-ABL gene has an even chance of being the paternal or the maternal copy. We conclude therefore that there is no parental bias in the origin of the translocated ABL gene and no evidence for genomic imprinting of ABL in CML.
Leukemia 1995 Apr
PMID:Balanced parental contribution to the ABL component of the BCR-ABL gene in chronic myeloid leukemia. 772 12

The apparent nonrandom contribution of the paternally-derived chromosome 9 and the maternally-derived chromosome 22 to the leukemia-specific translocation t(9;22)(q34;q11) obtained by cytogenetic analysis suggested that the two genes affected by this rearrangement, namely ABL and BCR, are imprinted. The results of recent molecular genetic studies have challenged this notion, since it was shown that both the paternal as well as the maternal BCR- and ABL-alleles may be affected by the translocation event and that both genes may be expressed from both alleles. This paper offers possible explanations for the apparent contradictory results obtained through cytogenetic and molecular genetic means. Based on the few available data concerning their allelic methylation pattern, replication behavior and expression status, as well as by referring to similar problems encountered in other genes whose imprinting status had also remained elusive for a long time, I argue that it still remains likely that ABL and BCR are imprinted.
Leukemia 1995 Apr
PMID:Are ABL and BCR imprinted? No definitive answers, but more questions. 772 13

Cytogenetic studies of Ph-positive leukemic patients and their parents have indicated that chromosome 22 involved in the formation of the t(9;22) is of maternal origin, whereas chromosome 9 is preferentially of paternal origin. These data have suggested that the two genes BCR and ABL, which become fused through the translocation, might be imprinted, ie expressed in a parental-specific manner. Recent molecular genetic studies however, have shown that BCR and ABL are expressed on both alleles and that the maternal and paternal ABL genes contribute equally often to the BCR-ABL fusion messenger. The findings make imprinting of these genes unlikely as an explanatory model and necessitate a combined cytogenetic and molecular genetic study.
Leukemia 1995 Apr
PMID:Standpoint on imprinting of BCR and ABL. 772 14

Among the contents of chromosome 9 the author mentions locuses for Friedreich's ataxia (FRDA), familial malignant melanoma (MLM), acute hepatic porphyria caused by deficiency of delta-aminolevulinate dehydrogenase (ALAD) and locus XPAC, the defective alleles of which condition disorders of nucleic acid reparative systems. By transcription and translation of the ABL oncogene attached to gene BCR and belonging to the 22nd chromosome a fusion protein with a high kinase activity is formed which is typical for the pathological clone of haematopoietic cells in chronic leukaemia.
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PMID:[The human genome--chromosome 9]. 775 88

BCR-ABL is a chimeric oncogene generated by translocation of sequences from the c-abl protein-tyrosine kinase gene on chromosome 9 into the BCR gene on chromosome 22. Alternative chimeric proteins, p210BCR-ABL and p190BCR-ABL, are produced that are characteristic of chronic myelogenous leukemia and acute lymphoblastic leukemia, respectively. Their role in the etiology of human leukemia remains to be defined. Transformed murine hematopoietic cells can be used as a model of BCR-ABL function since these cells can be made growth factor independent and tumorigenic by the action of the BCR-ABL oncogene. We show that the BCR-ABL oncogenes prevent apoptotic death in these cells by inducing a Bcl-2 expression pathway. Furthermore, BCR-ABL-expressing cells revert to factor dependence and nontumorigenicity after Bcl-2 expression is suppressed. These results help to explain the ability of BCR-ABL oncogenes to synergize with c-myc in cell transformation.
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PMID:Tumorigenic activity of the BCR-ABL oncogenes is mediated by BCL2. 777 99

A 70-year-old male was admitted because of anemia in September 1989, and primary myelofibrosis was diagnosed based on the presence of leukoerythroblastosis, a normal chromosomal analysis and pathological findings of fibrosis in bone marrow. Although he was anemic, he did not require any treatment for two years. Then his hematological status deteriorated to severe pancytopenia, and the marrow biopsy revealed marked hypoplasia with fatty replacement and scattered fibrosis. He was treated with metenolon without success and frequent transfusion of packed red cell was required. This hypoplastic status continued for seven months. In May 1992 his WBC count increased gradually with monocytosis. The marrow was filled with various stages of monocytes, with almost no fibrosis remaining. The chromosomal analysis was repeated but disclosed no abnormalities, consistent with the negative result of BCR-ABL rearrangement investigated by the RT-PCR method. One month later, when the patient died of multiple cerebral bleeding and infection, the leukocyte count exceed 90,000/microliters. It is known that major causes of death for patients with primary myelofibrosis are infection, bleeding, cardiac trouble and transformation to leukemia. We describe a case of myelofibrosis who developed to chronic myelomonocytic leukemia following severe aplastic phase.
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PMID:[Transformation into chronic myelomonocytic leukemia in a patient with primary myelofibrosis associated with severe hypoplasia: report of an autopsy case]. 778 40

The Philadelphia (Ph) chromosome is detected in leukaemia cells in approximately 20% of adults with acute lymphoblastic leukaemia (ALL). When treated with chemotherapy alone, Ph-positive ALL has a poor prognosis, and patients may benefit from bone marrow transplantation in first remission. Here we report a patient with chromosomally normal bone marrow, in all 60 cells analysed, who was found to have the p210-type BCR-ABL chimaeric transcript by RT/PCR. Fluorescence in situ hybridization was labelled cosmid probes for BCR and ABL showed the presence of BCR-ABL juxtaposition on a normal chromosome 22 in leukaemia cell metaphases. We conclude that molecular and cytogenetic methods should be used in conjunction to detect the BCR-ABL gene rearrangement in ALL.
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PMID:Detection of the BCR-ABL gene by reverse transcription/polymerase chain reaction and fluorescence in situ hybridization in a patient with Philadelphia chromosome negative acute lymphoblastic leukaemia. 778 93


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