Abstract 3113: Development of HTS enzymatic assays for WRN helicase and exonuclease functions

Abstract

Abstract WRN, a double strand break repair enzyme with ATP-dependent DNA-helicase and 3’- >5’ exonuclease activities, is under intense focus as a therapeutic target because of its synthetic lethality in tumors with microsatellite instability. To accelerate discovery of WRN inhibitors, we developed and validated homogenous, fluorescence-based high throughput assays for WRN helicase and exonuclease enzymatic activities using the Transcreener HTS Assay platform, which relies on highly selective antibodies to detect nucleotides in a homogenous (mix-and-read) format with far red fluorescent readouts. We produced the WRN helicase domain (aa 500-946, N-terminal 6xHis) in BaV-infected insect cells and optimized detection of its dsDNA-dependent ATPase activity using the Transcreener ADP2 Assay in FP, TR-FRET, and FI detection modes. Optimal reaction conditions included 50 μM ATP (approximate Km) and saturating concentration (100 nM) of a 3’ flapped duplex DNA oligomer; these conditions yielded a good signal with 250 pM WRN, a kcat of 300 min−1, and a Z’ of 0.85. An IC50 of 35 nM was determined for the probe inhibitor NSC-617145, and a 1,280 compound pilot screen (Tocris 2.0 Micro) identified multiple hits that were confirmed in dose response experiments. We produced the WRN 3’-5’ exonuclease domain (aa 1-133-6xHis) in E. coli and used the Transcreener dAMP Exonuclease Assay to allow direct, FP-based detection of dAMP monomers released from a 52 bp dsDNA oligomer with a 5’ overhang. With saturating DNA present (1 μM), the assay produced a good signal with 1 nM enzyme; the Z’ value was 0.89. There are no published inhibitors for the WRN exonuclease, but suramin inhibited with an IC50 of approximately 100 nM. These assays allow sensitive, robust, quantitative detection of WRN ATPase and exonuclease activities using an extensively validated HTS platform; they should be valuable tools for screening and optimizing small molecules targeting specific WRN functions. Citation Format: Ha Pham, Mahbbat Ali, Anibal Ramos Martinez, Robert Lowery. Development of HTS enzymatic assays for WRN helicase and exonuclease functions [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3113.