CRADD and cIAP1 antagonistically regulate caspase-9-mediated apoptosis in teleost.

Caspase 9 (CASP9) is a well-known initiator caspase of intrinsic apoptosis. In humans, cIAP1 binds and induces degradation of the activated form of CASP9, but not pro-CASP9. In fish, the activity and regulation of CASP9 remain unknown. In this work, using flounder Paralichthys olivaceus as a representative species, we examined the regulatory mechanism of CASP9 in teleost. P. olivaceus CASP9 (PoCASP9) induced robust apoptosis, which was inhibited by P. olivaceus cIAP1 (PocIAP1). Unlike human cIAP1, PocIAP1 bound both pro- and active PoCASP9 and induced their degradation via the RING domain-involved proteasome pathway. In humans, the adaptor molecule CRADD cannot interact with CASP9. In contrast, P. olivaceus CRADD (PoCRADD) bound both pro- and active PoCASP9 via CARD-CARD interaction and enhanced apoptosis by promoting the cellular levels of pro- and active PoCASP9. Furthermore, PoCRADD abrogated the inhibition of PoCASP9 by PocIAP1 by preventing PocIAP1-PoCASP9 interaction. Together these results reveal a CASP9 regulation mechanism in teleost that differs from that in humans and demonstrate that teleost CASP9 is tightly and directly controlled by both negative and positive regulators that exert a regulation effect both before and after CASP9 activation. These findings advance our understanding of the regulation of CASP9-mediated apoptosis in vertebrates.