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Molecular and chromosomal mechanisms of resistance to imatinib (STI571) therapy

Molecular and chromosomal mechanisms of resistance to imatinib (STI571) therapy
Molecular and chromosomal mechanisms of resistance to imatinib (STI571) therapy
Selective inhibition of the BCR-ABL tyrosine kinase by imatinib (STI571, Glivec/Gleevec) is a promising new therapeutic strategy in patients with chronic myelogenous leukemia (CML). Despite significant hematologic and cytogenetic responses, resistance occurs, particularly in patients with advanced disease. We sought to determine the underlying mechanisms. Sixty-six patients with CML in myeloid blast crisis (n = 33), lymphoid blast crisis (n = 2), accelerated phase (n = 16), chronic phase (n = 13), and BCR-ABL-positive acute lymphoblastic leukemia (n = 2) resistant to imatinib were investigated. Median duration of imatinib therapy was 148 days (range 6-882). Patients were evaluated for genomic amplification of BCR-ABL, overexpression of BCR-ABL transcripts, clonal karyotypic evolution, and mutations of the imatinib binding site in the BCR-ABL tyrosine kinase domain. Results were as follows: (1) Median levels of BCR-ABL transcripts, were not significantly changed at the time of resistance but 7/55 patients showed a >10-fold increase in BCR-ABL levels; (2) genomic amplification of BCR-ABL was found in 2/32 patients evaluated by fluorescence in situ hybridization; (3) additional chromosomal aberrations were observed in 19/36 patients; (4) point mutations of the ABL tyrosine kinase domain resulting in reactivation of the BCR-ABL tyrosine kinase were detected in 23/66 patients. In conclusion, although the heterogeneous development of imatinib resistance is challenging, the fact that BCR-ABL is active in many resistant patients suggests that the chimeric oncoprotein remains a good therapeutic target. However, patients with clonal evolution are more likely to have BCR-ABL-independent mechanisms of resistance. The observations warrant trials combining imatinib with other agents.
0887-6924
2190 - 2196
Hochhaus, A.
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Kreil, S.
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Corbin, A. S.
335bcbc5-9b3c-41c8-838c-3aa2c59d5062
La Rosee, P.
2401425d-7e51-433c-82e6-4bb9f3d4b774
Muller, M. C.
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Lahaye, T.
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Hanfstein, B.
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Schoch, C.
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Cross, N. C.
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Berger, U.
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Gschaidmeier, H.
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Druker, B. J.
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Hehlmann, R.
753d719b-7bf8-4f74-bfdc-6d5d47e5d2c7
Hochhaus, A.
4c0b9da4-adfa-4253-8af7-78cec9e9a24f
Kreil, S.
2404ac13-cdaa-43a3-913b-adceb79e598f
Corbin, A. S.
335bcbc5-9b3c-41c8-838c-3aa2c59d5062
La Rosee, P.
2401425d-7e51-433c-82e6-4bb9f3d4b774
Muller, M. C.
383498c0-eff6-4e0b-b7be-e3326fbb5144
Lahaye, T.
97333448-5919-4fa2-b1d7-d4bcc51733f3
Hanfstein, B.
e4d4611a-1faf-43ad-bdf9-5f367f3108f4
Schoch, C.
07219c0e-6419-40da-bd67-1edbef6f1f77
Cross, N. C.
f87650da-b908-4a34-b31b-d62c5f186fe4
Berger, U.
440811e1-e1c2-4f54-a435-b6dd61853857
Gschaidmeier, H.
46d97d80-f9c6-4286-af8a-407d4a282058
Druker, B. J.
a6c1fbf6-edf6-404c-a2ab-8e4ffd969db8
Hehlmann, R.
753d719b-7bf8-4f74-bfdc-6d5d47e5d2c7

Hochhaus, A., Kreil, S., Corbin, A. S., La Rosee, P., Muller, M. C., Lahaye, T., Hanfstein, B., Schoch, C., Cross, N. C., Berger, U., Gschaidmeier, H., Druker, B. J. and Hehlmann, R. (2002) Molecular and chromosomal mechanisms of resistance to imatinib (STI571) therapy. Leukemia, 16 (11), 2190 - 2196. (doi:10.1038/sj.leu.2402741).

Record type: Article

Abstract

Selective inhibition of the BCR-ABL tyrosine kinase by imatinib (STI571, Glivec/Gleevec) is a promising new therapeutic strategy in patients with chronic myelogenous leukemia (CML). Despite significant hematologic and cytogenetic responses, resistance occurs, particularly in patients with advanced disease. We sought to determine the underlying mechanisms. Sixty-six patients with CML in myeloid blast crisis (n = 33), lymphoid blast crisis (n = 2), accelerated phase (n = 16), chronic phase (n = 13), and BCR-ABL-positive acute lymphoblastic leukemia (n = 2) resistant to imatinib were investigated. Median duration of imatinib therapy was 148 days (range 6-882). Patients were evaluated for genomic amplification of BCR-ABL, overexpression of BCR-ABL transcripts, clonal karyotypic evolution, and mutations of the imatinib binding site in the BCR-ABL tyrosine kinase domain. Results were as follows: (1) Median levels of BCR-ABL transcripts, were not significantly changed at the time of resistance but 7/55 patients showed a >10-fold increase in BCR-ABL levels; (2) genomic amplification of BCR-ABL was found in 2/32 patients evaluated by fluorescence in situ hybridization; (3) additional chromosomal aberrations were observed in 19/36 patients; (4) point mutations of the ABL tyrosine kinase domain resulting in reactivation of the BCR-ABL tyrosine kinase were detected in 23/66 patients. In conclusion, although the heterogeneous development of imatinib resistance is challenging, the fact that BCR-ABL is active in many resistant patients suggests that the chimeric oncoprotein remains a good therapeutic target. However, patients with clonal evolution are more likely to have BCR-ABL-independent mechanisms of resistance. The observations warrant trials combining imatinib with other agents.

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Published date: 2002

Identifiers

Local EPrints ID: 24750
URI: http://eprints.soton.ac.uk/id/eprint/24750
ISSN: 0887-6924
PURE UUID: ad468dce-9440-4312-8fac-e7b50151be13
ORCID for N. C. Cross: ORCID iD orcid.org/0000-0001-5481-2555

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Date deposited: 03 Apr 2006
Last modified: 16 Mar 2024 03:23

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Contributors

Author: A. Hochhaus
Author: S. Kreil
Author: A. S. Corbin
Author: P. La Rosee
Author: M. C. Muller
Author: T. Lahaye
Author: B. Hanfstein
Author: C. Schoch
Author: N. C. Cross ORCID iD
Author: U. Berger
Author: H. Gschaidmeier
Author: B. J. Druker
Author: R. Hehlmann

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