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)

The tyrosine kinase activity of BCR-ABL fusion proteins plays an important role in the pathogenesis of leukemia that is for the Philadelphia chromosome (Ph1). Because nuclear c-ABL is regulated during the cell cycle through a specific interaction with the retinoblastoma protein (pRB), the possible interaction of BCR-ABL with pRB in Ph1-positive cell lines was investigated. P145 c-ABL as well as P190 and P210 BCR-ABL proteins interacted with pRB. Furthermore, c-ABL and BCR-ABL associated with both phosphorylated and nonphosphorylated forms of pRB. These findings suggest that BCR-ABL interferes with pRB function and thereby regulates cell growth.
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PMID:Interaction of BCR-ABL with the retinoblastoma protein in Philadelphia chromosome-positive cell lines. 907 15

We found a marked variation in BCL-2 oncoprotein expression levels of primary leukemic cells from 338 children with newly diagnosed acute lymphoblastic leukemia (ALL). None of the high-risk features predictive of poor treatment outcome in childhood ALL, such as older age, high white blood cell (WBC) count, organomegaly, T-lineage immunophenotype, ability of leukemic cells to cause overt leukemia in severe combined immunodeficient (SCID) mice, presence of MLL-AF4, and BCR-ABL fusion transcripts were associated with high levels of BCL-2 expression. Overall, high BCL-2 levels were not associated with slow early response, failure to achieve complete remission, or poor event-free survival. High BCL-2 levels in primary leukemic cells predicted slow early response only in T-lineage ALL patients, which comprised approximately 15% of the total patient population. Even for this small subset of patients, the level of BCL-2 expression did not have a significant impact on the short-term event-free survival.
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PMID:Cellular expression of antiapoptotic BCL-2 oncoprotein in newly diagnosed childhood acute lymphoblastic leukemia: a Children's Cancer Group Study. 916 Jun 83

Although Chronic Myeloid Leukaemia (CML) can be treated successfully with allogeneic bone marrow transplantation (BMT), leukaemia relapse remains a significant clinical problem. Molecular monitoring of the post transplant marrow can be useful in predicting relapse particularly in CML patients where the Philadelphia chromosome or its molecular counterpart, the BCR-ABL fusion messenger RNA can be used as a leukaemia specific marker of minimal residual disease (MRD). We have investigated chimaerism (using polymerase chain reaction of short tandem repeat sequences (STR-PCR)) and MRD status (using reverse transcriptase PCR of the BCR-ABL fusion mRNA) in a serial fashion in 18 patients who were in clinical and haematological remission post allogeneic BMT for chronic phase CML. Eleven patients exhibited complete donor chimaerism with no evidence of minimal residual disease. Five patients had transient or low level stable MC. Late MC and MRD was observed in two patients who relapsed > 6 years after T cell depleted BMT for CML. Thus STR-PCR is an appropriate screening test in the post transplant setting for CML patients, but those patients exhibiting mixed haemopoietic chimaerism should also be monitored using a leukaemia specific sensitive molecular assay.
Leukemia 1997 Apr
PMID:Donor chimaerism is a strong indicator of disease free survival following bone marrow transplantation for chronic myeloid leukaemia. 920 41

Advances in the molecular characterization of leukemic cells have greatly improved the precision of diagnosis and treatment assignment as well as the monitoring of residual disease in both acute lymphoblastic leukemia and acute myeloid leukemia. Currently, specific genetic rearrangements can be identified in as many as 50% of children with either acute lymphoblastic leukemia or acute myeloid leukemia. The genes p16 (or MTS1) and TEL/AML1 are now respectively recognized as the most common tumor suppressor and fusion genes in childhood acute lymphoblastic leukemia. Increasingly, contemporary protocols for the acute leukemias are relying on genetic information to guide treatment decisions. Examples include the use of allogeneic hematopoietic stem cell transplantation for acute lymphoblastic leukemia with the BCR-ABL fusion gene or MLL rearrangement, and for acute myeloid leukemia with monosomy 7; antimetabolite-based therapy for acute lymphoblastic leukemia cases with hyperdiploidy of more than 50 chromosomes (DNA index > or = 1.16); and retinoic acid and anthracycline-containing regimens for the acute promyelocytic acute myeloid leukemia subtype with PML-RARA fusion. Other efforts are being made to reduce the long-term sequelae of treatment. Indeed, extended intrathecal therapy and intensive systemic chemotherapy will, in all likelihood, replace cranial irradiation as subclinical central nervous system therapy for patients with intermediate-risk acute lymphoblastic leukemia, and perhaps even for those with high-risk acute lymphoblastic leukemia. The challenge now is to identify specific treatments for other genetically defined subtypes of leukemia. This goal will be realized only through protocol-based studies employing uniform criteria for defining risk status.
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PMID:Acute leukemia in children. 937 85

Human chronic myelogenous leukemia (CML) is characterized by a translocation between chromosomes 9 and 22 that results in a BCR-ABL fusion gene coding for chimeric proteins. The junctional region of the BCR-ABLb3a2 molecule represents a potential leukemia-specific antigen which could be recognized by cytotoxic T lymphocytes (CTL). In fact, we identified a junctional nonapeptide (SSKALQRPV) which binds to HLA-A2.1 molecules. This peptide, as well as those binding to HLA-A3, -A11, and -B8 molecules (previously identified by others), elicits primary CTL responses in vitro from PBLs of both healthy donors and CML patients. Such CTL recognize HLA-matched, BCR-ABL-positive leukemic cells, implying efficient natural processing and presentation of these junctional peptides. Specific CTL were found at high frequency in 5 of 21 CML patients, suggesting that these epitopes are, to some extent, immunogenic in vivo during the course of the disease. These peptides could be useful for the development of specific immunotherapy in CML patients.
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PMID:Cytotoxic T cell response against the chimeric p210 BCR-ABL protein in patients with chronic myelogenous leukemia. 959 85

Cytogenetic, interphase fluorescent in situ hybridization (FISH) and RT-PCR methods were used to study minimal residual disease in peripheral blood stem cells collected for autografting in three chronic myeloid leukemia (CML) patients in sustained complete cytogenetic remission after treatment with interferon alpha (IFNalpha). Karyotypic analysis failed to reveal Ph-positive metaphases. FISH detected 9-16% nuclei with a BCR-ABL fusion gene, contrasting with RT-PCR, performed in two cases, which was negative in one case and weakly positive in the other. RT-PCR was also subsequently weakly positive in the third patient. This discrepancy suggests that the BCR-ABL genomic rearrangement persists unexpressed in quiescent cells. These preliminary results, which need to be confirmed in larger series, suggest that monitoring residual disease in CML should be performed both at DNA and RNA levels. Moreover, autografting following IFNalpha therapy should be considered with caution because of the persistence of the BCR-ABL genomic rearrangement in a sizeable proportion of the cells.
Leukemia 1998 Jul
PMID:Does BCR-ABL genomic rearrangement persist in CML patients in complete remission after interferon alpha therapy? 966 93

Clonal del(22q) chromosome aberrations were coincidentally observed in highly exposed reactor personnel of the Chernobyl power plant accident in the course of retrospective biological dosimetry. These aberrant chromosomes were detected in PHA-stimulated cultures from peripheral blood after FPG staining and revealed a morphology similar to a Philadelphia chromosome. A rearrangement of the BCR gene on 22q11 could be confirmed in unstimulated peripheral blood by RFLP analysis from three of four del(22q) carrying cases. FISH analysis of the del(22q) carrying cases with BCR- and ABL-specific DNA probes additionally exhibited a BCR-ABL fusion in 5.2 to 9% of cells in unstimulated blood. Breakpoints within the BCR gene could be located either in the M-bcr or the m-bcr region and thus, a specific breakpoint region could not be detected in these four patients. Since typical clinical leukemic symptoms associated with the translocation (9;22)(q24;q11) could not be observed in these highly irradiated subjects (1.1 to 5.8 Gy), the role of this particular aberration in the development of a radiation-induced leukemia remains obscure.
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PMID:Molecular genetic characterization of the Philadelphia chromosome detected in reactor personnel highly exposed to radiation from the Chernobyl accident. 966 99

The number of genetic lesions necessary to generate leukemia in humans is unknown, but it is possible that certain specific abnormalities, eg, fusion genes, known to be associated with acute and chronic leukemia are produced relatively frequently in human cells but require other events to occur before the leukemia becomes manifest. We investigated this possibility by studying peripheral blood leukocytes from normal individuals and various hematopoietic cell lines for the presence and expression of the p210 and the p190 types of the BCR-ABL gene associated with chronic myeloid leukemia (CML) and acute lymphoblastic leukemia. We used two-step reverse transcriptase-polymerase chain reaction (RT-PCR) assays in which batches of 10(8) cells per sample were tested in 40 replicate reactions. We estimate that this assay is 1.5 logs more sensitive than the two-step RT-PCR assays that we use routinely to assess minimal residual disease. BCR-ABL fusion gene transcripts of various configurations were found in circulating leukocytes from 12 of the 16 healthy adults analyzed. Transcripts with an e1a2 junction (p190 BCR-ABL) were present in 11 and p210-type transcripts with b2a2 and/or b3a2 junctions were detected in 4 individuals. The same RT-PCR assays in non-CML cell lines showed the presence of classical or aberrant p210-type mRNA in 3 of 7 lines and of p190-type transcripts in all 7 lines of hematopoietic origin (HL60, KG1, U937, Kasumi, Jurkat, JVM13, and JVM25), whereas the NIH3T3 murine fibroblast line was reproducibly negative for these fusion genes. These findings confirm and extend previous reports on the detection of leukemia-associated genes in normal leukocytes and suggest that certain fusion genes are generated relatively frequently in hematopoietic cells, but only infrequently do the cells acquire the additional changes necessary to produce leukemia in humans. Although there is only a small probability that such innocent BCR-ABL-carrying leukocytes are detected by conventional RT-PCR assays, they may be the source of some sporadically positive tests in leukemia patients in long-term remission.
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PMID:The presence of typical and atypical BCR-ABL fusion genes in leukocytes of normal individuals: biologic significance and implications for the assessment of minimal residual disease. 978 74

The hallmark of chronic myelogenous leukaemia (CML) is the presence of the Philadelphia chromosome and its resultant fusion message, BCR-ABL, and fusion protein, p210. Patients with CML in blast crisis, or with Philadelphia positive acute lymphoblastic leukaemia (ALL), can have a smaller BCR-ABL fusion transcript possessing only the first exon of BCR fused to ABL. This smaller transcript encodes a 190 kD protein which is more strongly transforming than the p210 protein derived from the larger CML-associated transcript. We performed RT-PCR on samples from CML patients in chronic phase to determine the frequency and mechanism of p190 and p210 co-expression and to see if this correlated with clinical indices. We examined the peripheral blood or marrow of 67 patients with CML and found that 35 of them expressed both transcripts whereas the remainder expressed the p210-encoding transcript exclusively. Additional PCR products of an intermediate size were also frequently detected and have been isolated and sequenced. Data from two of these products indicate that they are the result of alternative splicing and include variable combinations of BCR exons. We believe that the expression of the p190-encoding transcript in the chronic phase of CML is also due to alternative splicing. A comparison of patients co-expressing the p190- and p210-encoding transcripts with those patients who expressed only the p210-encoding transcript detected significantly higher white blood cell (WBC) counts and blast cell counts at time of testing as well as significantly higher white blood cell counts at diagnosis.
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PMID:Expression of p210 and p190 BCR-ABL due to alternative splicing in chronic myelogenous leukaemia. 985 21

The Philadelphia (Ph) chromosome, the main product of the (9;22)(q34;q11) translocation, is the cytogenetic hallmark of chronic myeloid leukemia (CML), a clonal myeloproliferative disorder of the hematopoietic stem cell; the Ph chromosome is also found in a sizeable portion of acute lymphoblastic leukemia (ALL) patients and in a small number of acute myeloid leukemia (AML) cases. At the molecular level, the t(9;22) leads to the fusion of the BCR gene (on chromosome 22) to the ABL gene (translocated from chromosome 9); this fusion gene BCR-ABL with its elevated tyrosine kinase activity must to be central to the pathogenesis of these disorders. Three different breakpoint cluster regions are discerned within the BCR gene on chromosome 22: M-bcr, m-bcr, and mu-bcr. Ph + leukemia cell lines are important tools in this research area. More than 20 ALL-and more than 40 CML-derived Ph + leukemia cell lines have been described. Furthermore, three Ph + B-lymphoblastoid cell lines, established from patients with Ph + ALL or CML, are available. Molecular analysis has documented BCR-ABL fusion genes in three apparently Ph chromosome-negative cell lines, all three derived from CML. Nearly all Ph + ALL cell lines have the m-bcr e1-a2 fusion gene (only two ALL cell lines have a b3-a2 fusion) whereas all CML cell lines, but one carry the M-bcr b2-a2, b3-a2 or both hybrids. The mu-bcr e19-a2 has been detected in one CML cell line. Four cell lines display a three-way translocation involving chromosomes 9, 22 and a third chromosome. Additional Ph chromosomes (up to five) have been found in four Ph + ALL cell lines and in 18 CML cell lines; though in some cell lines the extra Ph chromosome(s) might be caused by the polyploidy (tri- and tetraploidy) of the cells. Another modus to acquire additional copies of the BCR-ABL fusion gene is the formation of tandem repeats of the BCR-ABL hybrid as seen in CML cell line K-562. Both mechanisms, selective multiplication of the der(22) chromosome and tandem replication of the fusion gene BCR-ABL, presumably lead to enhanced levels of the fusion protein and its tyrosine kinase activity (genetic dosage effect). The availability of a panel of Ph + cell lines as highly informative leukemia models offers the unique opportunity to analyze the pathobiology of these malignancies and the role of the Ph chromosome in leukemogenesis.
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PMID:Leukemia cell lines: in vitro models for the study of Philadelphia chromosome-positive leukemia. 1007 Oct 72


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