Kate Smith scite author profile

Background: DNA single strand breaks (SSBs) are the most common type of damage occurring in cells. Poly (ADP ribose) polymerase (PARP) binds to SSBs and auto-ribosylates itself using NAD+ as a substrate. PARG is the only enzyme known to efficiently catalyse the hydrolysis of O-glycosidic linkages of ADP-ribose polymers and exists (unlike PARP) as a single gene. We have developed novel inhibitors of PARG and here we describe our efforts to understand their sensitivity against a range of cell lines Methods: A robust and detailed screening cascade for small molecule inhibition of PARG has been developed. Active compounds are tested in cells for PAR chain persistence and for cytotoxicity using a 3-day HeLa assay. In addition, suitable compounds were then evaluated for their physico-chemical properties and their in vivo PK profiles determined. Compounds with the desired PK properties are subsequently profiled in tumour bearing mice to determine their pharmacodynamic effect before progressing to efficacy studies. Results: We have developed nM PARG inhibitors that are highly selective against ARH3 and PARP1and these derivatives show potent activity in cells. We have designed a breast cancer cell panel against which our compounds have been tested. Our initial bioinformatics analysis suggests that deficiency of a known tumour suppressor confers sensitivity to PARG inhibition. Conclusions: We have developed two drug-like series of PARG inhibitors that block the breakdown of PAR chains in cells after exogenous DNA damage by methylating agents. These tool compounds are potent, selective and have pharmacokinetic and pharmacodynamics properties that have allowed us to explore their anti-tumour potential. The discovery of a tumour suppressor profile indicating cell line sensitivity will aid the about identification of patient populations that will potentially benefit from PARGi therapies. Citation Format: Ian D. Waddell, Dominic James, Kate Smith, Sarah Holt, Ben Acton, Emma Fairweather, Niall Hamilton, Nicola Hamilton, James Hitchen, Colin Huttom, Allan Jordan, Alison McGonagle, Helen Small, Alex Stowell, Bohdan Waszkowycz, Donald Ogilvie. PARG inhibition: development of novel compounds and a biomarker strategy to determine cell line sensitivity in breast cancer. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 3656. doi:10.1158/1538-7445.AM2015-3656

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8. Hydroxyguanidines as modifiers of cell proliferation and death: a possible role for nitric oxide

Everett¹,

Smith²,

Wardman³

et al. 2017

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Kate Smith

The anti-cancer effect of the pentane fraction of Daucus carota oil extract is mediated through cell cycle arrest and an increase in apoptosis

Abstract 3656: PARG inhibition: development of novel compounds and a biomarker strategy to determine cell line sensitivity in breast cancer

8. Hydroxyguanidines as modifiers of cell proliferation and death: a possible role for nitric oxide

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