Identification of small molecule inhibitors of ERCC1-XPF that inhibit DNA repair and potentiate cisplatin efficacy in cancer cells

ERCC1-XPF heterodimer is a 5′-3′ structure-specific endonuclease which is essential in multiple DNA repair pathways in mammalian cells. ERCC1-XPF (ERCC1-ERCC4) repairs cisplatin-DNA intrastrand adducts and interstrand crosslinks and its specific inhibition has been shown to enhance cisplatin cytotox...

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Autores principales: Arora, Sanjeevani, Heyza, Joshua, Zhang, Hao, Kalman-Maltese, Vivian, Tillison, Kristin, Floyd, Ashley M., Chalfin, Elaine M., Bepler, Gerold, Patrick, Steve M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Impact Journals LLC 2016
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5342726/
https://www.ncbi.nlm.nih.gov/pubmed/27650543
http://dx.doi.org/10.18632/oncotarget.12072
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author Arora, Sanjeevani
Heyza, Joshua
Zhang, Hao
Kalman-Maltese, Vivian
Tillison, Kristin
Floyd, Ashley M.
Chalfin, Elaine M.
Bepler, Gerold
Patrick, Steve M.
author_facet Arora, Sanjeevani
Heyza, Joshua
Zhang, Hao
Kalman-Maltese, Vivian
Tillison, Kristin
Floyd, Ashley M.
Chalfin, Elaine M.
Bepler, Gerold
Patrick, Steve M.
author_sort Arora, Sanjeevani
collection PubMed
description ERCC1-XPF heterodimer is a 5′-3′ structure-specific endonuclease which is essential in multiple DNA repair pathways in mammalian cells. ERCC1-XPF (ERCC1-ERCC4) repairs cisplatin-DNA intrastrand adducts and interstrand crosslinks and its specific inhibition has been shown to enhance cisplatin cytotoxicity in cancer cells. In this study, we describe a high throughput screen (HTS) used to identify small molecules that inhibit the endonuclease activity of ERCC1-XPF. Primary screens identified two compounds that inhibit ERCC1-XPF activity in the nanomolar range. These compounds were validated in secondary screens against two other non-related endonucleases to ensure specificity. Results from these screens were validated using an in vitro gel-based nuclease assay. Electrophoretic mobility shift assays (EMSAs) further show that these compounds do not inhibit the binding of purified ERCC1-XPF to DNA. Next, in lung cancer cells these compounds potentiated cisplatin cytotoxicity and inhibited DNA repair. Structure activity relationship (SAR) studies identified related compounds for one of the original Hits, which also potentiated cisplatin cytotoxicity in cancer cells. Excitingly, dosing with NSC16168 compound potentiated cisplatin antitumor activity in a lung cancer xenograft model. Further development of ERCC1-XPF DNA repair inhibitors is expected to sensitize cancer cells to DNA damage-based chemotherapy.
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spelling pubmed-53427262017-03-28 Identification of small molecule inhibitors of ERCC1-XPF that inhibit DNA repair and potentiate cisplatin efficacy in cancer cells Arora, Sanjeevani Heyza, Joshua Zhang, Hao Kalman-Maltese, Vivian Tillison, Kristin Floyd, Ashley M. Chalfin, Elaine M. Bepler, Gerold Patrick, Steve M. Oncotarget Research Paper ERCC1-XPF heterodimer is a 5′-3′ structure-specific endonuclease which is essential in multiple DNA repair pathways in mammalian cells. ERCC1-XPF (ERCC1-ERCC4) repairs cisplatin-DNA intrastrand adducts and interstrand crosslinks and its specific inhibition has been shown to enhance cisplatin cytotoxicity in cancer cells. In this study, we describe a high throughput screen (HTS) used to identify small molecules that inhibit the endonuclease activity of ERCC1-XPF. Primary screens identified two compounds that inhibit ERCC1-XPF activity in the nanomolar range. These compounds were validated in secondary screens against two other non-related endonucleases to ensure specificity. Results from these screens were validated using an in vitro gel-based nuclease assay. Electrophoretic mobility shift assays (EMSAs) further show that these compounds do not inhibit the binding of purified ERCC1-XPF to DNA. Next, in lung cancer cells these compounds potentiated cisplatin cytotoxicity and inhibited DNA repair. Structure activity relationship (SAR) studies identified related compounds for one of the original Hits, which also potentiated cisplatin cytotoxicity in cancer cells. Excitingly, dosing with NSC16168 compound potentiated cisplatin antitumor activity in a lung cancer xenograft model. Further development of ERCC1-XPF DNA repair inhibitors is expected to sensitize cancer cells to DNA damage-based chemotherapy. Impact Journals LLC 2016-09-16 /pmc/articles/PMC5342726/ /pubmed/27650543 http://dx.doi.org/10.18632/oncotarget.12072 Text en Copyright: © 2016 Arora et al. http://creativecommons.org/licenses/by/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Paper
Arora, Sanjeevani
Heyza, Joshua
Zhang, Hao
Kalman-Maltese, Vivian
Tillison, Kristin
Floyd, Ashley M.
Chalfin, Elaine M.
Bepler, Gerold
Patrick, Steve M.
Identification of small molecule inhibitors of ERCC1-XPF that inhibit DNA repair and potentiate cisplatin efficacy in cancer cells
title Identification of small molecule inhibitors of ERCC1-XPF that inhibit DNA repair and potentiate cisplatin efficacy in cancer cells
title_full Identification of small molecule inhibitors of ERCC1-XPF that inhibit DNA repair and potentiate cisplatin efficacy in cancer cells
title_fullStr Identification of small molecule inhibitors of ERCC1-XPF that inhibit DNA repair and potentiate cisplatin efficacy in cancer cells
title_full_unstemmed Identification of small molecule inhibitors of ERCC1-XPF that inhibit DNA repair and potentiate cisplatin efficacy in cancer cells
title_short Identification of small molecule inhibitors of ERCC1-XPF that inhibit DNA repair and potentiate cisplatin efficacy in cancer cells
title_sort identification of small molecule inhibitors of ercc1-xpf that inhibit dna repair and potentiate cisplatin efficacy in cancer cells
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5342726/
https://www.ncbi.nlm.nih.gov/pubmed/27650543
http://dx.doi.org/10.18632/oncotarget.12072
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