Discovery of novel BTK PROTACs with improved metabolic stability via linker rigidification strategy.

Bruton's Tyrosine Kinase (BTK) functions as a key regulator of B-cell receptor (BCR) signaling pathway, which is frequently hyperactivated in a variety of lymphoma cancers. Using Proteolysis Targeting Chimera (PROTAC) technology, we have recently discovered a highly potent ARQ-531-derived BTK PROTAC 6e, inducing effective degradation of both wild type (WT) and C481S mutant BTK proteins. However, the poor metabolic stability of PROTAC 6e have limited its further in vivo studies. Herein, we present our structure-activity relationship (SAR) studies on modifying PROTAC 6e using linker rigidification strategy to identify a novel cereblon (CRBN)-recruiting compound 3e that induced BTK degradation in a concentration-dependent manner but had no effect on reducing the level of CRBN neo-substrates. Moreover, compound 3e suppressed the cell growth more potently than the small molecule inhibitors ibrutinib and ARQ-531 in several cells. Furthermore, compound 3e with the rigid linker displayed a significantly improved metabolic stability profile with the T1/2 increased to more than 145 min. Overall, we discovered a highly potent and selective BTK PROTAC lead compound 3e, which could be further optimized as potential BTK degradation therapy for BTK-associated human cancers and diseases.

Discovery of novel BTK PROTACs for B-Cell lymphomas.

Bruton's tyrosine kinase (BTK) is a key drug target for B-cell related malignancies. Irreversible covalent BTK inhibitors have been approved for the treatment of B-cell malignancies, yet BTK C481S mutation at the covalent binding site has caused drug-resistance of BTK covalent binding inhibitors. The proteolysis targeting chimera (PROTAC) technology increases the sensitivity to drug-resistant targets compared to classic inhibitors, which provides a new strategy for mutant BTK related B-cell malignancies. ARQ531, a reversible non-covalent BTK inhibitor that inhibits wild type (WT) and mutated BTK with high selectivity, could be an ideal warhead for PROTACs targeting the mutant BTK. Herein, we designed a novel series of PROTACs using the selective non-covalent BTK inhibitor ARQ531 as warhead, with the goal of improving the degradation of both wild-type and C481S mutant BTKs, and increasing the selectivity of BTK over other kinases. This effort will provide some basis for further preclinical study of BTK PROTACs as a novel strategy for treatment of B-cell lymphomas.