Genetic screening for synthetic lethal partners of polynucleotide kinase/phosphatase: Potential for targeting SHP-1-depleted cancers

T.R. Mereniuk; R.A. Maranchuk; A. Schindler; J. Penner-Chea; G.K. Freschauf; S. Hegazy; R. Lai; E. Foley; M. Weinfeld

doi:10.1158/0008-5472.CAN-12-0939

Genetic screening for synthetic lethal partners of polynucleotide kinase/phosphatase: Potential for targeting SHP-1-depleted cancers

T.R. Mereniuk, R.A. Maranchuk, A. Schindler, J. Penner-Chea, G.K. Freschauf, S. Hegazy, R. Lai, E. Foley, M. Weinfeld

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Abstract

A genetic screen using a library of 6,961 siRNAs led to the identification of SHP-1 (PTPN6), a tumor suppressor frequently mutated in malignant lymphomas, leukemias, and prostate cancer, as a potential synthetic lethal partner of the DNA repair protein polynucleotide kinase/phosphatase (PNKP). After confirming the partnership with SHP-1, we observed that codepletion of PNKP and SHP-1 induced apoptosis. A T-cell lymphoma cell line that is SHP-1 deficient (Karpas 299) was shown to be sensitive to a chemical inhibitor of PNKP, but resistance was restored by expression of wild-type SHP-1 in these cells. We determined that while SHP-1 depletion does not significantly impact DNA strand-break repair, it does amplify the level of reactive oxygen species (ROS) and elevate endogenous DNA damage. The ROS scavenger WR1065 afforded protection to SHP-1–depleted cells treated with the PNKP inhibitor. We propose that codisruption of SHP-1 and PNKP leads to an increase in DNA damage that escapes repair, resulting in the accumulation of cytotoxic double-strand breaks and induction of apoptosis. This supports an alternative paradigm for synthetic lethal partnerships that could be exploited therapeutically. Cancer Res; 72(22); 5934–44. ©2012 AACR.

Original language	English
Pages (from-to)	5934–5944
Journal	Cancer Research
Volume	72
Issue number	22
DOIs	https://doi.org/10.1158/0008-5472.CAN-12-0939
Publication status	Published - 15 Nov 2012

Acknowledgements

The authors thank Dr. Aghdass Rasouli-Nia for technical support and Dr. Sunita Ghosh for statistical support. The authors also thank Dr. Robert Ingham (Department of Medical Microbiology and Immunology, University of Alberta) for assistance with electroporation of Karpas cells and Dr. Dennis Hall (Department of Chemistry, University of Alberta) for providing A12B4C3.

Funding

This work was supported by the Canadian Institutes of Health Research (grant numbers MOP 15385 and MOP 115069 to M. Weinfeld; MOP 77746 to E. Foley). T.R. Mereniuk is the recipient of graduate studentships from the Alberta Cancer Foundation and Alberta Innovates - Health Solutions. E. Foley is a scholar of Alberta Innovates – Health Solutions and holds a Canada Research Chair in Innate Immunity. The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked advertisement in accordance with 18 U.S.C. Section 1734 solely to indicate this fact.

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abstract = "A genetic screen using a library of 6,961 siRNAs led to the identification of SHP-1 (PTPN6), a tumor suppressor frequently mutated in malignant lymphomas, leukemias, and prostate cancer, as a potential synthetic lethal partner of the DNA repair protein polynucleotide kinase/phosphatase (PNKP). After confirming the partnership with SHP-1, we observed that codepletion of PNKP and SHP-1 induced apoptosis. A T-cell lymphoma cell line that is SHP-1 deficient (Karpas 299) was shown to be sensitive to a chemical inhibitor of PNKP, but resistance was restored by expression of wild-type SHP-1 in these cells. We determined that while SHP-1 depletion does not significantly impact DNA strand-break repair, it does amplify the level of reactive oxygen species (ROS) and elevate endogenous DNA damage. The ROS scavenger WR1065 afforded protection to SHP-1–depleted cells treated with the PNKP inhibitor. We propose that codisruption of SHP-1 and PNKP leads to an increase in DNA damage that escapes repair, resulting in the accumulation of cytotoxic double-strand breaks and induction of apoptosis. This supports an alternative paradigm for synthetic lethal partnerships that could be exploited therapeutically. Cancer Res; 72(22); 5934–44. {\textcopyright}2012 AACR.",

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Genetic screening for synthetic lethal partners of polynucleotide kinase/phosphatase: Potential for targeting SHP-1-depleted cancers

Abstract

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