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Transient response to imatinib in a chronic eosinophilic leukemia associated with ins(9;4)(q33;q12q25) and a CDK5RAP2-PDGFRA fusion gene

Transient response to imatinib in a chronic eosinophilic leukemia associated with ins(9;4)(q33;q12q25) and a CDK5RAP2-PDGFRA fusion gene
Transient response to imatinib in a chronic eosinophilic leukemia associated with ins(9;4)(q33;q12q25) and a CDK5RAP2-PDGFRA fusion gene
Chronic myeloproliferative disorders with rearrangements of the platelet-derived growth factor receptor A (PDGFRA) gene at chromosome band 4q12 have shown excellent responses to targeted therapy with imatinib. Here we report a female patient who presented with advanced phase of a chronic eosinophilic leukemia. Cytogenetic analysis revealed an ins(9;4)(q33;q12q25) in 5 of 21 metaphases. FISH analysis with flanking BAC probes indicated that PDGFRA was disrupted. A novel mRNA in-frame fusion between exon 13 of the CDK5 regulatory subunit associated protein 2 (CDK5RAP2) gene, a 40-bp insert that was partially derived from an inverted sequence stretch of PDGFRA intron 9, and a truncated PDGFRA exon 12 was identified by 5'-RACE-PCR. CDK5RAP2 encodes a protein that is believed to be involved in centrosomal regulation. The predicted CDK5RAP2-PDGFRA protein consists of 1,003 amino acids and retains both tyrosine kinase domains of PDGFRA and several potential dimerization domains of CDK5RAP2. Despite achieving complete cytogenetic and molecular remission on imatinib, the patient relapsed with imatinib-resistant acute myeloid leukemia that was characterized by a normal karyotype, absence of detectable CDK5RAP2-PDGFRA mRNA, and a newly acquired G12D NRAS mutation.
nerve tissue, therapy, intracellular signaling peptides and proteins, antineoplastic agents, growth, amino acids, therapeutic use, genetics, protein, human, peptides, fluorescence, drug effects, mutation, dna mutational analysis, drug therapy, chromosomes, hypereosinophilic syndrome, cytogenetic analysis, research support, oncogene proteins, alpha, Germany, nerve tissue proteins, report, receptor, base sequence, female, platelet-derived growth factor alpha, reverse transcriptase polymerase chain reaction, myeloproliferative disorders, gene expression regulation, leukemia, in situ hybridization, agents, platelet-derived growth factor, acids, molecular sequence data, fusion, research, piperazines, chronic disease, pyrimidines, pair 4, antagonists & inhibitors, neoplastic, humans, aged, dimerization, proteins, amino acid sequence, metaphase, pair 9, analysis, tyrosine, protein-tyrosine kinases, acid, protein-tyrosine kinase
1045-2257
950-956
Walz, Christopher
a41e26c3-5f0f-45f3-b265-b044fd5b0d4b
Curtis, Claire
ff8dfe4f-d724-4efc-9ba8-06a7e4a32ec4
Schnittger, Susanne
5157942c-96eb-47cd-9837-3feea8ec8984
Schultheis, Beate
81cee7d3-02b3-4a0d-9743-782e3654a3f4
Metzgeroth, Georgia
611ec46d-9a11-4e24-ae0f-5ac19dfd0237
Schoch, Claudia
21cdc88a-2968-4cae-b0e9-0d7ad89b26f8
Lengfelder, Eva
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Erben, Philipp
defa0bda-e318-499b-9f62-36288a8407ae
Muller, Martin C.
34ec2215-e464-4320-a867-cc64a6b3dc38
Haferlach, Torsten
fff2c7bf-3212-45e3-a731-19ea532c1137
Hochhaus, Andreas
b37b9b7d-85ff-455e-994d-fcc2adf94088
Hehlmann, Rüdiger
790dac9f-3d0a-4388-b038-b5bbd07359c4
Cross, Nicholas C.
f87650da-b908-4a34-b31b-d62c5f186fe4
Reiter, Andreas
ffa23e84-4a13-4cb5-aaf0-3fafe25dbede
Walz, Christopher
a41e26c3-5f0f-45f3-b265-b044fd5b0d4b
Curtis, Claire
ff8dfe4f-d724-4efc-9ba8-06a7e4a32ec4
Schnittger, Susanne
5157942c-96eb-47cd-9837-3feea8ec8984
Schultheis, Beate
81cee7d3-02b3-4a0d-9743-782e3654a3f4
Metzgeroth, Georgia
611ec46d-9a11-4e24-ae0f-5ac19dfd0237
Schoch, Claudia
21cdc88a-2968-4cae-b0e9-0d7ad89b26f8
Lengfelder, Eva
4e53c373-7238-4bdd-88e5-eb5b4dccc65b
Erben, Philipp
defa0bda-e318-499b-9f62-36288a8407ae
Muller, Martin C.
34ec2215-e464-4320-a867-cc64a6b3dc38
Haferlach, Torsten
fff2c7bf-3212-45e3-a731-19ea532c1137
Hochhaus, Andreas
b37b9b7d-85ff-455e-994d-fcc2adf94088
Hehlmann, Rüdiger
790dac9f-3d0a-4388-b038-b5bbd07359c4
Cross, Nicholas C.
f87650da-b908-4a34-b31b-d62c5f186fe4
Reiter, Andreas
ffa23e84-4a13-4cb5-aaf0-3fafe25dbede

Walz, Christopher, Curtis, Claire, Schnittger, Susanne, Schultheis, Beate, Metzgeroth, Georgia, Schoch, Claudia, Lengfelder, Eva, Erben, Philipp, Muller, Martin C., Haferlach, Torsten, Hochhaus, Andreas, Hehlmann, Rüdiger, Cross, Nicholas C. and Reiter, Andreas (2006) Transient response to imatinib in a chronic eosinophilic leukemia associated with ins(9;4)(q33;q12q25) and a CDK5RAP2-PDGFRA fusion gene. Genes, Chromosomes and Cancer, 45 (10), 950-956. (doi:10.1002/gcc.20359).

Record type: Article

Abstract

Chronic myeloproliferative disorders with rearrangements of the platelet-derived growth factor receptor A (PDGFRA) gene at chromosome band 4q12 have shown excellent responses to targeted therapy with imatinib. Here we report a female patient who presented with advanced phase of a chronic eosinophilic leukemia. Cytogenetic analysis revealed an ins(9;4)(q33;q12q25) in 5 of 21 metaphases. FISH analysis with flanking BAC probes indicated that PDGFRA was disrupted. A novel mRNA in-frame fusion between exon 13 of the CDK5 regulatory subunit associated protein 2 (CDK5RAP2) gene, a 40-bp insert that was partially derived from an inverted sequence stretch of PDGFRA intron 9, and a truncated PDGFRA exon 12 was identified by 5'-RACE-PCR. CDK5RAP2 encodes a protein that is believed to be involved in centrosomal regulation. The predicted CDK5RAP2-PDGFRA protein consists of 1,003 amino acids and retains both tyrosine kinase domains of PDGFRA and several potential dimerization domains of CDK5RAP2. Despite achieving complete cytogenetic and molecular remission on imatinib, the patient relapsed with imatinib-resistant acute myeloid leukemia that was characterized by a normal karyotype, absence of detectable CDK5RAP2-PDGFRA mRNA, and a newly acquired G12D NRAS mutation.

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More information

Published date: 2006
Keywords: nerve tissue, therapy, intracellular signaling peptides and proteins, antineoplastic agents, growth, amino acids, therapeutic use, genetics, protein, human, peptides, fluorescence, drug effects, mutation, dna mutational analysis, drug therapy, chromosomes, hypereosinophilic syndrome, cytogenetic analysis, research support, oncogene proteins, alpha, Germany, nerve tissue proteins, report, receptor, base sequence, female, platelet-derived growth factor alpha, reverse transcriptase polymerase chain reaction, myeloproliferative disorders, gene expression regulation, leukemia, in situ hybridization, agents, platelet-derived growth factor, acids, molecular sequence data, fusion, research, piperazines, chronic disease, pyrimidines, pair 4, antagonists & inhibitors, neoplastic, humans, aged, dimerization, proteins, amino acid sequence, metaphase, pair 9, analysis, tyrosine, protein-tyrosine kinases, acid, protein-tyrosine kinase
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Identifiers

Local EPrints ID: 60391
URI: http://eprints.soton.ac.uk/id/eprint/60391
DOI: doi:10.1002/gcc.20359
ISSN: 1045-2257
PURE UUID: 114c656e-126c-4cca-8686-4a73b45bd278
ORCID for Nicholas C. Cross: ORCID iD orcid.org/0000-0001-5481-2555

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Date deposited: 08 Sep 2008
Last modified: 16 Mar 2024 03:23

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Contributors

Author: Christopher Walz
Author: Claire Curtis
Author: Susanne Schnittger
Author: Beate Schultheis
Author: Georgia Metzgeroth
Author: Claudia Schoch
Author: Eva Lengfelder
Author: Philipp Erben
Author: Martin C. Muller
Author: Torsten Haferlach
Author: Andreas Hochhaus
Author: Rüdiger Hehlmann
Author: Nicholas C. Cross ORCID iD
Author: Andreas Reiter

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