Leukaemia-specific chromosome damage detected by comet with fluorescence in situ hybridization (comet-FISH)

doi:10.1093/mutage/gem020

Mutagenesis Advance Access originally published online on June 16, 2007
Mutagenesis 2007 22(5):321-327; doi:10.1093/mutage/gem020

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Leukaemia-specific chromosome damage detected by comet with fluorescence in situ hybridization (comet-FISH)

Patricia A. Escobar, Martyn T. Smith, Ananth Vasishta, Alan E. Hubbard and Luoping Zhang^*

Division of Environmental Health Sciences, School of Public Health, 140 Warren Hall, University of California, Berkeley, California 94720, USA

Acute myeloid leukaemia (AML) is associated with exposure tobenzene and treatment with chemotherapeutic agents. It is thoughtto arise from damage to specific regions of DNA, resulting inchromosome rearrangements or loss. For instance, a deletionon the long arm of chromosome 5 [e.g. del(5q31)] is common inAML patients previously treated with alkylating agents, suchas melphalan, or exposed to benzene. Translocations of the MLLgene at 11q23 are frequently observed in AML arising from treatmentwith topoisomerase II inhibitors, such as etoposide. Our goalwas to determine whether or not breakage at 5q31 and 11q23 isselectively induced by these chemical agents. To address thisquestion, the comet assay combined with fluorescence in situhybridization (comet–FISH) was used to detect DNA breakagein the specific chromosomal regions in an in vitro model. TK6lymphoblastoid cells were exposed to melphalan, etoposide orthe benzene metabolite, hydroquinone (HQ), at various concentrations.HQ, melphalan and etoposide induced DNA breaks at both 5q31and 11q23 chromosome regions in a dose-dependant manner. However,HQ produced significantly more DNA damage at 5q31 than at 11q23.Etoposide produce slightly more DNA damage at 11q23 and melphalanhad a somewhat greater effect at 5q31, but not significantlyso. Thus, HQ and melphalan act similarly, perhaps explainingsome similarities between benzene- and alkylating agent-inducedAML. Comet–FISH also appears to be a useful approach fordetecting and comparing damage to specific chromosome regionsof significance in leukaemogenesis.

^* To whom correspondence should be addressed. Tel: +510 643 5189; Fax: +510 642 0427; Email: luoping{at}berkeley.edu

Received on November 3, 2006; revised on April 10, 2007; accepted on April 13, 2007.

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