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Genomic anatomy of the specific reciprocal translocation t(15;17) in acute promyelocytic leukemia

Genomic anatomy of the specific reciprocal translocation t(15;17) in acute promyelocytic leukemia
Genomic anatomy of the specific reciprocal translocation t(15;17) in acute promyelocytic leukemia
The genomic breakpoints in the t(15;17)(q22;q21), associated with acute promyelocytic leukemia (APL), are known to occur within three different PML breakpoint cluster regions (bcr) on chromosome 15 and within RARA intron 2 on chromosome 17; however, the precise mechanism by which this translocation arises is unclear. To clarify this mechanism, we (i). assembled the sequence of RARA intron 2, (ii). amplified and sequenced the genomic PML-RARA junction sequences from 37 APL patients, and (iii). amplified and sequenced the reverse RARA-PML genomic fusion in 29 of these cases. Three significant breakpoint microclusters within RARA intron 2 were identified, suggesting that sequence-associated or structural factors play a role in the formation of the t(15;17). There was no evidence that the location of a breakpoint in PML had any relationship to the location of the corresponding breakpoint in RARA. Although some sequence motifs previously implicated in illegitimate recombinations were found in the microcluster regions, these associations were not significant. Comparison of forward and reverse genomic junctions revealed microhomologies, deletions, and/or duplications of either gene in all but one case, in which a complex rearrangement with inversion of the PML-derived sequence was found. These findings are consistent with the hypothesis that the t(15;17) occurs by nonhomologous recombination of DNA after processing of the double-strand breaks by a dysfunctional DNA damage-repair mechanism
methods, leukemia, protein, alpha, receptors, translocation, role, genetic, reverse transcriptase polymerase chain reaction, acid, pair 17, research support, promyelocytic, comparative study, p.h.s., germany, proteins, chromosomes, retinoic acid, acute, cloning, DNA, hypothesis, humans, chromosome breakage, oncogene proteins, genetics, neoplasm proteins, human, insertional, non-u.s.gov't, mutagenesis, introns, molecular, chromosome mapping, cytogenetic analysis, pair 15, sequence analysis, patients, u.s.gov't, fusion
1045-2257
175-188
Reiter, Andreas
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Saussele, Susanne
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Grimwade, David
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Wiemels, Joseph L.
894da244-7cf2-46bf-aebd-a2c7254d4ddb
Segal, Mark R.
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Lafage-Pochitaloff, Marina
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Walz, Christoph
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Weisser, Andreas
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Hochhaus, Andreas
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Willer, Andreas
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Reichert, Anja
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Buchner, Thomas
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Lengfelder, Eva
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Hehlmann, Rüdiger
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Cross, Nicholas C.P.
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Reiter, Andreas
ffa23e84-4a13-4cb5-aaf0-3fafe25dbede
Saussele, Susanne
148d36ac-b14b-42ff-b4cc-17dbe7f720f7
Grimwade, David
9f299c71-1e4c-42b1-9b39-d1e1ddc1dc26
Wiemels, Joseph L.
894da244-7cf2-46bf-aebd-a2c7254d4ddb
Segal, Mark R.
3e615f10-d77b-4612-bd9d-afc73b53e992
Lafage-Pochitaloff, Marina
26af43da-edb3-4318-bc1a-4810a59fc039
Walz, Christoph
b8d235ac-2a38-41e7-a22f-e0bb78719b19
Weisser, Andreas
60d69cc0-b74f-4994-8c20-45b4d4a98c02
Hochhaus, Andreas
b37b9b7d-85ff-455e-994d-fcc2adf94088
Willer, Andreas
8ae3fa79-4ad9-4a16-b31e-261d89a55724
Reichert, Anja
f2b41b45-d207-4328-b3f2-623f6e849366
Buchner, Thomas
b7824aa0-cc46-4147-b5e7-fd53df6aafa9
Lengfelder, Eva
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Hehlmann, Rüdiger
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Cross, Nicholas C.P.
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Reiter, Andreas, Saussele, Susanne, Grimwade, David, Wiemels, Joseph L., Segal, Mark R., Lafage-Pochitaloff, Marina, Walz, Christoph, Weisser, Andreas, Hochhaus, Andreas, Willer, Andreas, Reichert, Anja, Buchner, Thomas, Lengfelder, Eva, Hehlmann, Rüdiger and Cross, Nicholas C.P. (2003) Genomic anatomy of the specific reciprocal translocation t(15;17) in acute promyelocytic leukemia. Genes, Chromosomes and Cancer, 36 (2), 175-188. (doi:10.1002/gcc.10154).

Record type: Article

Abstract

The genomic breakpoints in the t(15;17)(q22;q21), associated with acute promyelocytic leukemia (APL), are known to occur within three different PML breakpoint cluster regions (bcr) on chromosome 15 and within RARA intron 2 on chromosome 17; however, the precise mechanism by which this translocation arises is unclear. To clarify this mechanism, we (i). assembled the sequence of RARA intron 2, (ii). amplified and sequenced the genomic PML-RARA junction sequences from 37 APL patients, and (iii). amplified and sequenced the reverse RARA-PML genomic fusion in 29 of these cases. Three significant breakpoint microclusters within RARA intron 2 were identified, suggesting that sequence-associated or structural factors play a role in the formation of the t(15;17). There was no evidence that the location of a breakpoint in PML had any relationship to the location of the corresponding breakpoint in RARA. Although some sequence motifs previously implicated in illegitimate recombinations were found in the microcluster regions, these associations were not significant. Comparison of forward and reverse genomic junctions revealed microhomologies, deletions, and/or duplications of either gene in all but one case, in which a complex rearrangement with inversion of the PML-derived sequence was found. These findings are consistent with the hypothesis that the t(15;17) occurs by nonhomologous recombination of DNA after processing of the double-strand breaks by a dysfunctional DNA damage-repair mechanism

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Published date: 2003
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Keywords: methods, leukemia, protein, alpha, receptors, translocation, role, genetic, reverse transcriptase polymerase chain reaction, acid, pair 17, research support, promyelocytic, comparative study, p.h.s., germany, proteins, chromosomes, retinoic acid, acute, cloning, DNA, hypothesis, humans, chromosome breakage, oncogene proteins, genetics, neoplasm proteins, human, insertional, non-u.s.gov't, mutagenesis, introns, molecular, chromosome mapping, cytogenetic analysis, pair 15, sequence analysis, patients, u.s.gov't, fusion
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Identifiers

Local EPrints ID: 60153
URI: http://eprints.soton.ac.uk/id/eprint/60153
DOI: doi:10.1002/gcc.10154
ISSN: 1045-2257
PURE UUID: 1dc72afa-2a28-406b-a64d-44d35c3a7210
ORCID for Nicholas C.P. Cross: ORCID iD orcid.org/0000-0001-5481-2555

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Date deposited: 04 Sep 2008
Last modified: 16 Mar 2024 03:23

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Contributors

Author: Andreas Reiter
Author: Susanne Saussele
Author: David Grimwade
Author: Joseph L. Wiemels
Author: Mark R. Segal
Author: Marina Lafage-Pochitaloff
Author: Christoph Walz
Author: Andreas Weisser
Author: Andreas Hochhaus
Author: Andreas Willer
Author: Anja Reichert
Author: Thomas Buchner
Author: Eva Lengfelder
Author: Rüdiger Hehlmann
Author: Nicholas C.P. Cross ORCID iD

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