Abstract
The innate immune response to cancer is initiated by cytosolic DNA, where it binds to cGAS and triggers type I interferon (IFN) expression via the STING receptor, leading to activation of tumor-specific T cells. Ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) has been identified as the primary enzyme responsible for degrading cGAMP, and therefore it is under intense investigation as a therapeutic target for cancer immunotherapy. ENPP1 hydrolyzes cGAMP to produce AMP and GMP, and hydrolyzes ATP and other nucleotides to monophosphates and pyrophosphate. We developed a robust, high-throughput screening (HTS)-compatible enzymatic assay method for ENPP1 using the Transcreener AMP2/GMP2 Assay, a competitive fluorescence polarization (FP) immunoassay that enables direct detection of AMP and GMP in a homogenous format. The monoclonal antibody used in the Transcreener AMP2/GMP2 Assay showed more than 104-fold selectivity for AMP and GMP versus cGAMP, and 3000-fold selectivity for AMP over ATP, indicating that the assay can be used for detection at initial velocity with either substrate. A working concentration of 100 pM ENPP1 was determined as optimal with a 60 min reaction period, enabling screening with very low quantities of enzyme. A Z' value of 0.72 was determined using ATP as substrate, indicating a high-quality assay. Consistent with previous studies, we found that ENPP1 preferred ATP as a substrate when compared with other nucleotides like GTP, ADP, and GDP. ENPP1 showed a 20-fold selectivity for 2'3'cGAMP compared with 2'3'c-diGMP and showed no activity with 3'3'c-diAMP. The Transcreener AMP2/GMP2 Assay should prove to be a valuable tool for the discovery of ENPP1 lead molecules.
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