The Discovery of Two Novel Classes of 5,5-Bicyclic Nucleoside-Derived PRMT5 Inhibitors for the Treatment of Cancer.
Ryan V QuirozMichael H ReutershanSebastian E SchneiderDavid SlomanBrian M LaceyBrooke M SwalmCharles S YeungCraig GibeauDaniel S SpellmanDanica A RankicDapeng ChenDavid WitterDoug LinnErik MunsellGuo FengHaiyan XuJonathan M E HughesJongwon LimJosep SauríKristin GeddesMurray WanMy Sam MansuetoNicole E FollmerPatrick S FierPhieng SiliphaivanhPierre DaublainRachel L PalteRobert P HayesSandra LeeShuhei KawamuraSteven M SilvermanSulagna SanyalTimothy J HendersonYingchun YeYuanwei GaoBenjamin NicholsonMichelle R MachacekPublished in: Journal of medicinal chemistry (2021)
Protein arginine methyltransferase 5 (PRMT5) is a type II arginine methyltransferase that catalyzes the post-translational symmetric dimethylation of protein substrates. PRMT5 plays a critical role in regulating biological processes including transcription, cell cycle progression, RNA splicing, and DNA repair. As such, dysregulation of PRMT5 activity is implicated in the development and progression of multiple cancers and is a target of growing clinical interest. Described herein are the structure-based drug designs, robust synthetic efforts, and lead optimization strategies toward the identification of two novel 5,5-fused bicyclic nucleoside-derived classes of potent and efficacious PRMT5 inhibitors. Utilization of compound docking and strain energy calculations inspired novel designs, and the development of flexible synthetic approaches enabled access to complex chemotypes with five contiguous stereocenters. Additional efforts in balancing bioavailability, solubility, potency, and CYP3A4 inhibition led to the identification of diverse lead compounds with favorable profiles, promising in vivo activity, and low human dose projections.
Keyphrases
- cell cycle
- dna repair
- protein protein
- amino acid
- molecular dynamics
- nitric oxide
- dna damage
- small molecule
- cell proliferation
- endothelial cells
- molecular dynamics simulations
- quality improvement
- papillary thyroid
- transcription factor
- emergency department
- density functional theory
- bioinformatics analysis
- squamous cell carcinoma
- high throughput
- induced pluripotent stem cells
- anti inflammatory
- drug induced