A comprehensive strategy to discover inhibitors of the translesion synthesis DNA polymerase κ.

A comprehensive strategy to discover inhibitors of the translesion synthesis DNA polymerase κ.

Human DNA polymerase kappa (pol κ) is a translesion synthesis (TLS) polymerase that catalyzes TLS past various minor groove lesions including N(2)-dG linked acrolein- and polycyclic aromatic hydrocarbon-derived adducts, as well as N(2)-dG DNA-DNA interstrand cross-links introduced by the chemotherap...

Full description

Bibliographic Details
Main Authors: Kinrin Yamanaka, Dorjbal Dorjsuren, Robert L Eoff, Martin Egli, David J Maloney, Ajit Jadhav, Anton Simeonov, R Stephen Lloyd
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3466269?pdf=render
id doaj-c306f5020bfb41b2a0bdc003c085caf4
record_format Article
spelling doaj-c306f5020bfb41b2a0bdc003c085caf42020-11-24T22:08:51ZengPublic Library of Science (PLoS)PLoS ONE1932-62032012-01-01710e4503210.1371/journal.pone.0045032A comprehensive strategy to discover inhibitors of the translesion synthesis DNA polymerase κ.Kinrin YamanakaDorjbal DorjsurenRobert L EoffMartin EgliDavid J MaloneyAjit JadhavAnton SimeonovR Stephen LloydHuman DNA polymerase kappa (pol κ) is a translesion synthesis (TLS) polymerase that catalyzes TLS past various minor groove lesions including N(2)-dG linked acrolein- and polycyclic aromatic hydrocarbon-derived adducts, as well as N(2)-dG DNA-DNA interstrand cross-links introduced by the chemotherapeutic agent mitomycin C. It also processes ultraviolet light-induced DNA lesions. Since pol κ TLS activity can reduce the cellular toxicity of chemotherapeutic agents and since gliomas overexpress pol κ, small molecule library screens targeting pol κ were conducted to initiate the first step in the development of new adjunct cancer therapeutics. A high-throughput, fluorescence-based DNA strand displacement assay was utilized to screen ∼16,000 bioactive compounds, and the 60 top hits were validated by primer extension assays using non-damaged DNAs. Candesartan cilexetil, manoalide, and MK-886 were selected as proof-of-principle compounds and further characterized for their specificity toward pol κ by primer extension assays using DNAs containing a site-specific acrolein-derived, ring-opened reduced form of γ-HOPdG. Furthermore, candesartan cilexetil could enhance ultraviolet light-induced cytotoxicity in xeroderma pigmentosum variant cells, suggesting its inhibitory effect against intracellular pol κ. In summary, this investigation represents the first high-throughput screening designed to identify inhibitors of pol κ, with the characterization of biochemical and biologically relevant endpoints as a consequence of pol κ inhibition. These approaches lay the foundation for the future discovery of compounds that can be applied to combination chemotherapy.http://europepmc.org/articles/PMC3466269?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Kinrin Yamanaka
Dorjbal Dorjsuren
Robert L Eoff
Martin Egli
David J Maloney
Ajit Jadhav
Anton Simeonov
R Stephen Lloyd
spellingShingle Kinrin Yamanaka
Dorjbal Dorjsuren
Robert L Eoff
Martin Egli
David J Maloney
Ajit Jadhav
Anton Simeonov
R Stephen Lloyd
A comprehensive strategy to discover inhibitors of the translesion synthesis DNA polymerase κ.
PLoS ONE
author_facet Kinrin Yamanaka
Dorjbal Dorjsuren
Robert L Eoff
Martin Egli
David J Maloney
Ajit Jadhav
Anton Simeonov
R Stephen Lloyd
author_sort Kinrin Yamanaka
title A comprehensive strategy to discover inhibitors of the translesion synthesis DNA polymerase κ.
title_short A comprehensive strategy to discover inhibitors of the translesion synthesis DNA polymerase κ.
title_full A comprehensive strategy to discover inhibitors of the translesion synthesis DNA polymerase κ.
title_fullStr A comprehensive strategy to discover inhibitors of the translesion synthesis DNA polymerase κ.
title_full_unstemmed A comprehensive strategy to discover inhibitors of the translesion synthesis DNA polymerase κ.
title_sort comprehensive strategy to discover inhibitors of the translesion synthesis dna polymerase κ.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2012-01-01
description Human DNA polymerase kappa (pol κ) is a translesion synthesis (TLS) polymerase that catalyzes TLS past various minor groove lesions including N(2)-dG linked acrolein- and polycyclic aromatic hydrocarbon-derived adducts, as well as N(2)-dG DNA-DNA interstrand cross-links introduced by the chemotherapeutic agent mitomycin C. It also processes ultraviolet light-induced DNA lesions. Since pol κ TLS activity can reduce the cellular toxicity of chemotherapeutic agents and since gliomas overexpress pol κ, small molecule library screens targeting pol κ were conducted to initiate the first step in the development of new adjunct cancer therapeutics. A high-throughput, fluorescence-based DNA strand displacement assay was utilized to screen ∼16,000 bioactive compounds, and the 60 top hits were validated by primer extension assays using non-damaged DNAs. Candesartan cilexetil, manoalide, and MK-886 were selected as proof-of-principle compounds and further characterized for their specificity toward pol κ by primer extension assays using DNAs containing a site-specific acrolein-derived, ring-opened reduced form of γ-HOPdG. Furthermore, candesartan cilexetil could enhance ultraviolet light-induced cytotoxicity in xeroderma pigmentosum variant cells, suggesting its inhibitory effect against intracellular pol κ. In summary, this investigation represents the first high-throughput screening designed to identify inhibitors of pol κ, with the characterization of biochemical and biologically relevant endpoints as a consequence of pol κ inhibition. These approaches lay the foundation for the future discovery of compounds that can be applied to combination chemotherapy.
url http://europepmc.org/articles/PMC3466269?pdf=render
work_keys_str_mv AT kinrinyamanaka acomprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT dorjbaldorjsuren acomprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT robertleoff acomprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT martinegli acomprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT davidjmaloney acomprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT ajitjadhav acomprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT antonsimeonov acomprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT rstephenlloyd acomprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT kinrinyamanaka comprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT dorjbaldorjsuren comprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT robertleoff comprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT martinegli comprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT davidjmaloney comprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT ajitjadhav comprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT antonsimeonov comprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
AT rstephenlloyd comprehensivestrategytodiscoverinhibitorsofthetranslesionsynthesisdnapolymerasek
_version_ 1725814359615078400

Similar Items