O6-Methylguanine-DNA methyltransferase (MGMT) is a DNA repair enzyme that is overexpressed in certain tumors and is associated with resistance to the DNA alkylating agent temozolomide. MGMT inhibitors show potential in combating temozolomide resistance, but current assays for MGMT enzyme activity and inhibition, primarily oligonucleotide-based and fluorescent probe-based, are laborious and costly. The clinical relevance of temozolomide therapy calls for more convenient methodologies to study MGMT inhibition. Here, we extended the application of SNAP-Capture magnetic beads to develop a novel MGMT inhibition assay that demonstrated efficacy not only with known MGMT inhibitors, but also with the aldehyde dehydrogenase inhibitor, disulfiram. The assay uses standard fluorescence microscopy as a simple and reliable detection method, and is translationally applicable in drug discovery programs.
Keywords: GFP; Lomeguatrib; MGMT inhibitor; O6-benzylguanine; O6-methylguanine methyl transferase; SNAP-tag; disulfiram; temozolomide.
A cell line expressing MGMT-GFP fusion protein was generated. After harvesting the cells, the cell lysate was prepared and combined with SNAP-Capture magnetic beads and incubated at room temperature. Successful immobilization of MGMT-GFP on SNAP-Capture magnetic beads was verified by fluorescence microscopy. For the MGMT inhibition assay, the cell lysate underwent pre-treatment with established MGMT inhibitors before interaction with SNAP-capture magnetic beads and then underwent immobilization and fluorescence microscopy.