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Small Molecule Inhibitors of TET Dioxygenases: Bobcat339 Activity Is Mediated by Contaminating Copper(II)

Nicholas A. Weirath, Alexander K. Hurben, Christopher Chao, Suresh S. Pujari, Tao Cheng, Shujun Liu, Natalia Tretyakova

2022ACS Medicinal Chemistry Letters28 citationsDOIOpen Access PDF

Abstract

Ten eleven translocation (TET) dioxygenases 1-3 are non-heme Fe(II) and α-ketoglutarate dependent enzymes that catalyze oxidation of 5-methylcytosine (5mC) in DNA to hydroxymethyl-C, formyl-C, and carboxy-C. This typically leads to gene activation and epigenetic remodeling. Most known inhibitors of TET are α-ketoglutarate mimics that may interfere with other α-ketoglutarate dependent enzymes. Recently, a novel cytosine-based inhibitor of TET, Bobcat339, was reported to have mid-μM inhibitory activity against TET1 and TET2. The molecule is now sold as a TET inhibitor by several vendors. We independently prepared Bobcat339 in our laboratory and observed that it had minimal inhibitory activity against human TET1 and TET2 via a quantitative LC-ESI-MS/MS assay. Furthermore, the inhibitory activity of commercial Bobcat339 preparations was directly correlated with Cu(II) content. We therefore conclude that Bobcat339 alone is not capable of inhibiting TET enzymes at the reported concentrations, and that its activity is enhanced by contaminating Cu(II).

Topics & Concepts

EnzymeChemistryBiochemistrySmall moleculeDNAInhibitory postsynaptic potentialEpigeneticsHydroxymethylGeneHemeMolecular biologyStereochemistryBiologyNeuroscienceEpigenetics and DNA MethylationHIV/AIDS Research and InterventionsCancer-related gene regulation
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