Abstract
Cdc2-like kinase (CLK) inhibitors represent an innovative class of small molecules designed to modulate RNA splicing patterns, offering a novel avenue for therapeutic intervention in diseases where dysregulated splicing contributes to pathogenesis, particularly in oncology. Here, we describe the discovery of Rogocekib (CTX-712), a promising therapeutic candidate as a CLK inhibitor, which is currently in clinical development. Our medicinal chemistry research involved structure-based drug design-guided scaffold hopping from an initial chemical scaffold and subsequent chemical optimization to generate a novel 1H-imidazo-[4,5-b]-pyridine series. Treatment with CTX-712 reduced the phosphorylation of serine- and arginine-rich proteins in a dose-dependent manner, leading to potent in vitro cell growth suppression and in vivo antitumor activity in lung cancer NCI-H1048 xenograft model. These findings highlight the promise of CTX-712 as a novel CLK inhibitor and its potential as a therapeutic for cancers, particularly those characterized by RNA splicing alterations.