Therapeutic targeting Tudor domains in leukemia via CRISPR-Scan Assisted Drug Discovery.
Anthony K C ChanLi HanChristopher D DelaneyXueer WangElizaveta MukhalevaMingli LiLu YangSheela Pangeni PokharelNicole M MattsonMichelle GarciaBintao WangXiaobao XuLeisi ZhangPriyanka SinghZeinab ElsayedRenee ChenBenjamin Z KuangJinhui WangYate-Ching YuanBryan ChenLai N ChanSteven T RosenDavid A HorneMarkus MüschenJianjun ChenNagarajan VaidehiScott A ArmstrongRui SuChun-Wei David ChenPublished in: Science advances (2024)
Epigenetic dysregulation has been reported in multiple cancers including leukemias. Nonetheless, the roles of the epigenetic reader Tudor domains in leukemia progression and therapy remain unexplored. Here, we conducted a Tudor domain-focused CRISPR screen and identified SGF29, a component of SAGA/ATAC acetyltransferase complexes, as a crucial factor for H3K9 acetylation, ribosomal gene expression, and leukemogenesis. To facilitate drug development, we integrated the CRISPR tiling scan with compound docking and molecular dynamics simulation, presenting a generally applicable strategy called CRISPR-Scan Assisted Drug Discovery (CRISPR-SADD). Using this approach, we identified a lead inhibitor that selectively targets SGF29's Tudor domain and demonstrates efficacy against leukemia. Furthermore, we propose that the structural genetics approach used in our study can be widely applied to diverse fields for de novo drug discovery.
Keyphrases
- drug discovery
- genome editing
- genome wide
- crispr cas
- dna methylation
- gene expression
- molecular dynamics simulations
- computed tomography
- acute myeloid leukemia
- bone marrow
- molecular docking
- stem cells
- molecular dynamics
- drug delivery
- young adults
- cancer therapy
- small molecule
- case report
- magnetic resonance
- protein protein
- histone deacetylase
- smoking cessation
- childhood cancer