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Etoposide Quinone Is a Covalent Poison of Human Topoisomerase IIβ

[Image: see text] Etoposide is a topoisomerase II poison that is utilized to treat a broad spectrum of human cancers. Despite its wide clinical use, 2–3% of patients treated with etoposide eventually develop treatment-related acute myeloid leukemias (t-AMLs) characterized by rearrangements of the ML...

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Autores principales: Smith, Nicholas A., Byl, Jo Ann W., Mercer, Susan L., Deweese, Joseph E., Osheroff, Neil
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2014
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4033626/
https://www.ncbi.nlm.nih.gov/pubmed/24766193
http://dx.doi.org/10.1021/bi500421q
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author Smith, Nicholas A.
Byl, Jo Ann W.
Mercer, Susan L.
Deweese, Joseph E.
Osheroff, Neil
author_facet Smith, Nicholas A.
Byl, Jo Ann W.
Mercer, Susan L.
Deweese, Joseph E.
Osheroff, Neil
author_sort Smith, Nicholas A.
collection PubMed
description [Image: see text] Etoposide is a topoisomerase II poison that is utilized to treat a broad spectrum of human cancers. Despite its wide clinical use, 2–3% of patients treated with etoposide eventually develop treatment-related acute myeloid leukemias (t-AMLs) characterized by rearrangements of the MLL gene. The molecular basis underlying the development of these t-AMLs is not well understood; however, previous studies have implicated etoposide metabolites (i.e., etoposide quinone) and topoisomerase IIβ in the leukemogenic process. Although interactions between etoposide quinone and topoisomerase IIα have been characterized, the effects of the drug metabolite on the activity of human topoisomerase IIβ have not been reported. Thus, we examined the ability of etoposide quinone to poison human topoisomerase IIβ. The quinone induced ∼4 times more enzyme-mediated DNA cleavage than did the parent drug. Furthermore, the potency of etoposide quinone was ∼2 times greater against topoisomerase IIβ than it was against topoisomerase IIα, and the drug reacted ∼2–4 times faster with the β isoform. Etoposide quinone induced a higher ratio of double- to single-stranded breaks than etoposide, and its activity was less dependent on ATP. Whereas etoposide acts as an interfacial topoisomerase II poison, etoposide quinone displayed all of the hallmarks of a covalent poison: the activity of the metabolite was abolished by reducing agents, and the compound inactivated topoisomerase IIβ when it was incubated with the enzyme prior to the addition of DNA. These results are consistent with the hypothesis that etoposide quinone contributes to etoposide-related leukemogenesis through an interaction with topoisomerase IIβ.
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spelling pubmed-40336262015-04-28 Etoposide Quinone Is a Covalent Poison of Human Topoisomerase IIβ Smith, Nicholas A. Byl, Jo Ann W. Mercer, Susan L. Deweese, Joseph E. Osheroff, Neil Biochemistry [Image: see text] Etoposide is a topoisomerase II poison that is utilized to treat a broad spectrum of human cancers. Despite its wide clinical use, 2–3% of patients treated with etoposide eventually develop treatment-related acute myeloid leukemias (t-AMLs) characterized by rearrangements of the MLL gene. The molecular basis underlying the development of these t-AMLs is not well understood; however, previous studies have implicated etoposide metabolites (i.e., etoposide quinone) and topoisomerase IIβ in the leukemogenic process. Although interactions between etoposide quinone and topoisomerase IIα have been characterized, the effects of the drug metabolite on the activity of human topoisomerase IIβ have not been reported. Thus, we examined the ability of etoposide quinone to poison human topoisomerase IIβ. The quinone induced ∼4 times more enzyme-mediated DNA cleavage than did the parent drug. Furthermore, the potency of etoposide quinone was ∼2 times greater against topoisomerase IIβ than it was against topoisomerase IIα, and the drug reacted ∼2–4 times faster with the β isoform. Etoposide quinone induced a higher ratio of double- to single-stranded breaks than etoposide, and its activity was less dependent on ATP. Whereas etoposide acts as an interfacial topoisomerase II poison, etoposide quinone displayed all of the hallmarks of a covalent poison: the activity of the metabolite was abolished by reducing agents, and the compound inactivated topoisomerase IIβ when it was incubated with the enzyme prior to the addition of DNA. These results are consistent with the hypothesis that etoposide quinone contributes to etoposide-related leukemogenesis through an interaction with topoisomerase IIβ. American Chemical Society 2014-04-28 2014-05-20 /pmc/articles/PMC4033626/ /pubmed/24766193 http://dx.doi.org/10.1021/bi500421q Text en Copyright © 2014 American Chemical Society
spellingShingle Smith, Nicholas A.
Byl, Jo Ann W.
Mercer, Susan L.
Deweese, Joseph E.
Osheroff, Neil
Etoposide Quinone Is a Covalent Poison of Human Topoisomerase IIβ
title Etoposide Quinone Is a Covalent Poison of Human Topoisomerase IIβ
title_full Etoposide Quinone Is a Covalent Poison of Human Topoisomerase IIβ
title_fullStr Etoposide Quinone Is a Covalent Poison of Human Topoisomerase IIβ
title_full_unstemmed Etoposide Quinone Is a Covalent Poison of Human Topoisomerase IIβ
title_short Etoposide Quinone Is a Covalent Poison of Human Topoisomerase IIβ
title_sort etoposide quinone is a covalent poison of human topoisomerase iiβ
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4033626/
https://www.ncbi.nlm.nih.gov/pubmed/24766193
http://dx.doi.org/10.1021/bi500421q
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