Chemical degradation of BTK/TEC as a novel approach to inhibit platelet function and thrombosis

Abstract

AbstractThe tyrosine kinase BTK plays an important role in platelet function downstream of GPVI and CLEC2 receptors and has been proposed as a novel target to prevent thrombosis in patients that are at increased risk. However, current clinically approved BTK inhibitors have off target effects and are associated with an increased bleeding risk. In this study, we therefore explored whether BTK can be targeted for degradation in human platelets by using recently developed heterobifunctional molecules that employ the proteasomal system to break down BTK. Here we confirm that human platelets are highly susceptible to BTK degraders with the generic tyrosine kinase degrader TL12-186, and the BTK degraders DD-04-15 and DD-03-171 leading to breakdown of BTK and its closely related kinase TEC, an effect that was prevented by proteasomal inhibitors. Tandem Mass Tag proteomic analysis confirmed high selectivity with TL12-186 degrading BTK/TEC, FAK/PYK2 and FER, whereas DD-04-15 and DD-03-171 degraded BTK/TEC only. GPVI-mediated platelet integrin αIIbβ3 activation, P-selectin expression, and phosphatidyl-serine exposure were largely impaired upon BTK/TEC degradation, with PAR-1-mediated responses left intact. This is the first study to demonstrate that chemical protein degraders can be successfully employed in anucleate human platelets to modulate their function.