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 negative impact of donor marrow T lymphocyte depletion on relapse of chronic myeloid leukaemia (CML) following bone marrow transplantation strongly suggests that the leukaemia is particularly susceptible to immune regulation. The immune response to CML may be mediated by major histocompatibility (MHC) locus unrestricted natural killer and lymphokine activated killer cells, or by MHC-restricted CD4 and CD8 lymphocytes. Interaction with the leukaemia is both by direct cell-contact cytotoxicity, and indirectly via cytokines and growth factors. T4 and T8 lymphocytes recognize a spectrum of minor histocompatibility antigens on the leukaemia cell which may be non-specific, leading to graft-versus-leukaemia and graft-versus-host reactions, or present only on myeloid cells leading to a tissue restricted response. The possibility that the P210 protein derived from the BCR/ABL fusion gene on chromosome 22 leads to the presentation via MHC molecules of leukaemia-specific peptide antigens is currently under investigation. Developments in understanding the immune response to CML open up the possibility of developing leukaemia-specific immunotherapy strategies.
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PMID:Immune responses to chronic myeloid leukaemia. 161 13

Two forms of activated BCR/ABL proteins, P210 and P185, that differ in BCR-derived sequences, are associated with Philadelphia chromosome-positive leukemias. One of these diseases is chronic myelogenous leukemia, an indolent disease arising in hematopoietic stem cells that is almost always associated with the P210 form of BCR/ABL. Acute lymphocytic leukemia, a more aggressive malignancy, can be associated with both forms of BCR/ABL. While it is virtually certain that BCR/ABL plays a central role in both of these diseases, the features that determine the association of a particular form with a given disease have not been elucidated. We have used the bone marrow reconstitution leukemogenesis model to test the hypothesis that BCR sequences influence the ability of activated ABL to transform different types of hematopoietic cells. Our studies reveal that both P185 and P210 induce a similar spectrum of hematological diseases, including granulocytic, myelomonocytic, and lymphocytic leukemias. Despite the similarity of the disease patterns, animals given P185-infected marrow developed a more aggressive disease after a shorter latent period than those given P210-infected marrow. These data demonstrate that the structure of the BCR/ABL oncoprotein does not affect the type of disease induced by each form of the oncogene but does control the potency of the oncogenic signal.
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PMID:Differences in oncogenic potency but not target cell specificity distinguish the two forms of the BCR/ABL oncogene. 187 48

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.
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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

CML has provided a model for the genetic basis of human neoplasia. Since 1960 with the discovery of the Ph chromosome, study of this disease has provided a conceptual basis for viewing cancer as a clonal disorder occurring at the stem cell level and associated with intrinsic genetic defects which contribute to abnormal growth regulation. Although several oncogenes have been identified through the study of tumor-producing retroviruses in animals, discovery of the BCR/ABL translocation, the altered 8.5 kb BCR/ABL transcript, and the hybrid BCR/ABL P210 protein with enhanced tyrosine kinase activity has provided one of the first examples of a human neoplasm in which structural alterations in a normal cellular gene might lead to malignant transformation. However, it is likely that P210 is necessary but not sufficient for the full spectrum of malignant behavior observed in this disease. Investigation of the molecular events that are associated with the additional cytogenetic abnormalities of blast phase will most likely reveal alterations of other important growth regulatory genes which contribute to the multistep nature of malignant transformation in CML.
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PMID:Chronic myelogenous leukemia as a model for the genetic basis of cancer. 218 95

A new and rare type of Bcr/Abl junction between exon C3 of the 3' portion of the Bcr gene and Abl exon 2 has been identified in the leukemic cells of two Ph1-positive chronic myelogenous leukemia patients in chronic phase. This is the fourth type of Bcr/Abl junction so far identified in Ph1-positive hematologic malignancies and is a consequence of an unusual breakpoint position on chromosome 22 that falls approximately 20 kb downstream of the major breakpoint cluster region (bcr) of the Bcr gene. The new hybrid mRNA is 540 base pairs (bp) longer than that expressed by the K562 cell line and could codify for a Bcr/Abl protein carrying 180 additional aminoacids with respect to the larger P210 protein so far identified. The hematologic phenotype expressed by the two patients carrying this unusual type of Bcr/Abl rearrangement does not significantly differ from that commonly seen in chronic myelogenous leukemia.
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PMID:New type of Bcr/Abl junction in Philadelphia chromosome-positive chronic myelogenous leukemia. 222 29

An altered c-abl gene product (P210bcr-abl) possessing associated tyrosine protein kinase activity was recently been reported in several blast chronic myelogenous leukemia (CML) cell lines. We have examined different morphological types of leukocytes directly obtained from patients at the blast crisis stage of CML for expression of P210bcr-abl tyrosine protein kinase activity. Phosphorylation of P210bcr-abl in an immune complex kinase assay using an anti-v-abl peptide serum was observed in blast cells from four Philadelphia chromosome (Ph1)-positive CML patients in blast crisis. P210bcr-abl protein kinase activity was detected regardless of whether the blast cells were of myeloid, lymphoid, or undifferentiated morphology. P210bcr-abl protein kinase activity was not detected in immune complexes either from leukocytes of four Ph1-negative CML patients in blast crisis, of five acute myelogenous leukemia patients, or in the promyelocytic cell line HL-60. Mature myeloid cells are associated with an inhibitory factor for not only P210bcr-abl protein kinase activity, but also protein kinases in general. Therefore, analyses of Ph1-positive benign phase CML myeloid cells, the majority of which are well differentiated, could not be successfully performed. The inhibition of P210bcr-abl protein kinase activity is not a specific property of mature cells from CML patients since granulocytes from a normal volunteer also demonstrated a similar effect. However, extracts of Ph1-positive cultured B-lymphocytes from a patient in benign phase demonstrated active P210bcr-abl protein indicating that the P210bcr-abl protein is expressed in an enzymatically active form in the earlier phases of CML. In addition to the previously reported P210 and P190 abl-related proteins, a novel Mr 53,000 protein was found to undergo phosphorylation at serine and tyrosine in immune complex kinase assays of two blast crisis CML cell lines (K562 and EM2) and in samples from blast crisis patients in which P210bcr-abl was detected. Peptide mapping by the Cleveland technique suggested that Mr 53,000 protein is unrelated to P210bcr-abl. Immune complex kinase assays of K562 cells with an anti-src serum (GD-11) yielded active c-src kinase and a Mr 50,000 phosphorylated protein, both of which were resistant to alkaline hydrolysis. Peptide mapping suggested that Mr 53,000 protein is related to Mr 50,000 protein which is precipitated with P210bcr-abl as an Mr 300,000 protein complex.
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PMID:Analysis of P210bcr-abl tyrosine protein kinase activity in various subtypes of Philadelphia chromosome-positive cells from chronic myelogenous leukemia patients. 243 23

The v-abl oncogene of the Abelson murine leukemia virus (A-MuLV) is known to efficiently transform NIH/3T3 fibroblasts in vitro and to cause an acute lymphosarcoma in susceptible murine hosts. The role of its relative, the bcr/abl gene product, in the etiology of human chronic myelogenous leukemia (CML) remains speculative. To assess the transforming properties of the bcr/abl gene product, complementary DNA clones encoding the CML-specific P210 bcr/abl protein were expressed in NIH/3T3 fibroblasts. In contrast to the v-abl oncogene product P160, the P210 bcr/abl gene product did not transform NIH/3T3 cells. Cell lines were isolated that expressed high levels of the P210 bcr/abl protein but were morphologically normal. During the course of these experiments, a transforming recombinant of bcr/abl was isolated which fuses gag determinants derived from helper virus to the NH2-terminus of the bcr/abl protein. This suggests that a property of viral gag sequences, probably myristylation-dependent membrane localization, must be provided to bcr/abl for it to transform fibroblasts.
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PMID:The CML-specific P210 bcr/abl protein, unlike v-abl, does not transform NIH/3T3 fibroblasts. 244 Jan 7

Chronic myeloid leukemia (CML) is characterized by the presence of a 210-kD protein (P210bcr-abl) in the cytoplasm of leukemic cells, generated by the reciprocal translocation between chromosome 9 and chromosome 22. Due to this translocation, the abl oncogene is coupled to the bcr gene, forming a new determinant in this protein encoded by the bcr-abl joining region. In the joining region itself, either the bcr exon 2 is coupled to the abl exon 2 (b2-a2), or the bcr exon 3 is coupled to the abl exon 2 (b3-a2). Thus, these joining regions form by definition new tumor-specific determinants in the respective chimeric P210-bcr-abl molecules. This paper addresses the question as to whether these tumor-specific joining regions are exposed on the P210bcr-abl molecule in such a way that antibodies can be generated to detect these sites. To test this possibility a polyclonal antiserum, termed BP-1, was raised against a synthetic peptide representative for the b2-a2 joining region. The reactivity of BP-1 was analyzed in an ELISA system on various synthetic peptides. Peptide inhibition studies showed the presence of antibodies to different parts of the b2-a2 peptide in the polyvalent antiserum. The reactivity of BP-1 was then tested with native P210bcr-abl molecules in various CML cell lines (K562, LAMA-84, and BV173) using a protein kinase assay. In this context, the bcr-abl junctions were first analyzed at the DNA and RNA level. The present study indicates that BP-1 specifically recognizes the b2-a2 junction in native P210bcr-abl. Furthermore, BP-1 clearly discriminates between b2-a2 P210bcr-abl and b3-a2 P210bcr-abl. We conclude that the tumor-specific b2-a2 joining region is antigenically exposed on the native P210bcr-abl molecule.
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PMID:Antibody recognition of the tumor-specific bcr-abl joining region in chronic myeloid leukemia. 246 13

The great majority of patients with chronic myeloid leukaemia (CML) have a Philadelphia (Ph) chromosome which has proved at molecular level to be associated with the production of chimeric BCR-ABL gene which in turn is expressed as a fusion protein (P210) with tyrosine kinase activity. An equivalent but somewhat smaller chimeric gene and fusion protein (P190) is found in some cases of Ph-positive acute leukaemia. Though the consistency of these abnormal findings in patients with Ph-positive leukaemia is strong evidence for their pathogenetic role, there are still many unanswered questions.
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PMID:Recent advances in molecular biology of chronic myeloid leukaemia: is the pathogenetic puzzle approaching solution? 249 82

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