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Integration of amplified BCR/ABL fusion genes into the short arm of chromosome 17 as a novel mechanism of disease progression in chronic myeloid leukemia

GENES, CHROMOSOMES AND CANCER, Issue 1 2001
Simone Metzke-Heidemann
We describe the cases of two patients with Philadelphia chromosome,positive chronic myeloid leukemia (CML), in whom the extramedullary blastic phase developed during disease progression. The similar clinical presentations of these patients was accompanied by gain of identical secondary chromosome abnormalities, that is, monosomies 9, 14, and 22, and by a clustered amplification of the BCR/ABL fusion gene. The additional copies of the BCR/ABL fusion gene were integrated into the short arm of structurally abnormal chromosomes 17 in both patients. The conformity of these genetic features in two patients with a rare disease manifestation leads us to the assumption that either the clustered amplification of the BCR/ABL fusion gene or the integration of this cluster into the short arm of chromosome 17 or both are associated with extramedullar disease progression in CML. Furthermore, the insertion of amplified BCR/ABL fusion genes into structurally abnormal chromosomes provides a novel mechanism of disease progression in BCR/ABL -positive CML. © 2001 Wiley-Liss, Inc. [source]

BCR/ABL p210, p190 and p230 fusion genes in 250 Mexican patients with chronic myeloid leukaemia (CML)

INTERNATIONAL JOURNAL OF LABORATORY HEMATOLOGY, Issue 3 2002
R.M. Arana-Trejo
There are two major forms of the BCR/ABL fusion gene, involving ABL exon 2, but including different exons of BCR gene. The transcripts b2a2 or b3a2 code for a p210 protein. Another fusion gene leads to the expression of an e1a2 transcript, which codes for a p190 protein. Another, less common fusion gene is c3a2[e19a2], which encodes a p230 protein. The incidence of one or the other rearrangement in chronic myeloid leukaemia (CML) patients varies in different reported series. This study was designed to determine the frequency of coexpresion of the p210, p190 and p230 transcripts in 250 Mexican patients with CML. We performed nested and multiplex reverse transcriptase polymerase chain reaction (RT-PCR) on bone marrow samples from adult patients and found that all cases were positive for some type of BCR/ABL rearrangement. In 226 (90.4%) patients it was p210, while the remaining 9.6% showed coexpression or one of the transcripts of p190/p210/p230. In 7% of patients with p210 expression there are both isoforms (b3a2/b2a2), presumably the result of alternative splicing. The rate of coexpression of the p190/p210 transcripts was 5%, which is much lower than in other reports. This may be due to the technical factors. These patients had high platelet counts, marked splenomegaly and chromosomal abnormalities in addition to Ph,. Other types of coexpression seen were p210/p230 and p190/p210/p230, in patients with high-risk clinical factors. Our study confirms the occurrence of coexpression of different BCR/ABL transcripts, although the rate (9.6%) was much lower than has been reported in other populations. This may reflect either the sensitivity of the detection techniques used or the possibility of genetic differences between the populations studied. Coexpression may be due to alternative splicing or to phenotypic variation, with clinical courses different from classical CML. [source]

Changes associated with the development of resistance to imatinib (STI571) in two leukemia cell lines expressing p210 Bcr/Abl protein,

CANCER, Issue 7 2004
Barbara Scappini M.D.
Abstract BACKGROUND Although various mechanisms have been recognized as being associated with the development of resistance to imatinib mesylate in vitro and in clinical situations, their relative significance and contributions remain poorly understood, as is the sequence of events leading to the selection of the resistant phenotype. Experimental in vitro systems involving well defined cell lines and conditions can be used to some advantage to answer specific questions and to develop in vitro models of imatinib resistance that would reflect its potential heterogeneity. METHODS Two cell lines, KBM5 and KBM7, which expressed p210 Bcr/Abl and which differed in their inherent sensitivity to imatinib, the number of copies of the BCR/ABL fusion gene, and the activation of apoptotic pathways, were grown in vitro in the presence of increasing concentrations of imatinib. The resistant cells were analyzed for cell cycle progression, apoptotic response after exposure to imatinib, expression of Bcr/Abl, tyrosine kinase activity, and the presence of mutations within the adenosine triphosphate (ATP) coding domain of BCR/ABL. At various levels of resistance, the cells were transferred into drug-free media, and the stability of the resistant phenotype was determined in the absence of the drug. RESULTS In KBM7 cells, the development of resistance was characterized by loss of apoptotic response to the drug, amplification of BCR/ABL, increased levels of expression of p210 Bcr/Abl, and decreased inhibition of Bcr/Abl tyrosine kinase (TK) activity by imatinib. No mutations within the ATP-binding domain of Bcr/Abl were identified, and resistance remained stable in the absence of the drug. In KBM5 cells, which previously were found to be characterized by the acquisition of a single C-T mutation at ABL nucleotide 944 (T315I) at high levels of resistance, this same mutation was detected at an intermediate level, but not at a low level, of resistance. The response of KBM5 cells to imatinib was characterized by a low level of apoptotic response, a marginal increase in BCR/ABL copy number, a modest increase in p210 expression, and a highly imatinib-resistant Bcr/Abl TK. Partial reversal of resistance was observed in highly resistant KBM5-STI571R1.0 cells, which continued to display the C-T mutation. In KBM5 cells with an intermediate level of resistance, the T315I mutation was no longer detectable upon their reversal to the sensitive phenotype. CONCLUSIONS BCR/ABL amplification with subsequent overexpression of Bcr/Abl protein, loss of apoptotic response, or point mutation of the ATP-binding site of BCR/ABL was associated alternatively with the acquisition of the resistant phenotype, supporting the notion that multiple mechanisms are involved in the induction of resistance to imatinib. The initial number of BCR/ABL copies itself was not related directly to the degree of resistance. The reversibility of the resistance may be complete, partial, or irreversible, depending on the mechanism(s) involved and the degree of resistance. Both cell lines serve as models for further elucidation of various aspects of imatinib-resistance mechanisms. Cancer 2004;100:1459,71. © 2004 American Cancer Society. [source]

Integration of amplified BCR/ABL fusion genes into the short arm of chromosome 17 as a novel mechanism of disease progression in chronic myeloid leukemia