The death inhibitory molecules CED-9 and CED-4L use a common mechanism to inhibit the CED-3 death protease

The apoptotic machinery of Caenorhabditis elegans includes three core interacting components: CED-3, CED-4, and CED-9, CED-3 is a death protease composed of a prodomain and a protease domain. CED-4 is a P-loop-containing, nucleotide-binding molecule that complexes with the single polypeptide zymogen form of CED-3, promoting its activation by autoprocessing, CED-9 blocks death by complexing with CED-4 and suppressing its ability to promote CED-3 activation. A naturally occurring alternatively spliced form of CED-4 that contains an insertion within the nucleotide-binding region (CED-4L) functions as a dominant negative inhibitor of CED-3 processing and attenuates cell death. Domain mapping studies revealed that distinct regions within CED-4 bind to the CED-3 prodomain and protease domain. Importantly, the CED-4 P-loop was involved in prodomain binding, Disruption of P-loop geometry because of mutation of a critical lysine (K165R) or insertional inactivation (CED-4L) abolished prodomain binding. Regardless, K165R and CED-4L still retained CED-3 binding through the protease domain but were unable to initiate CED-3 processing. Therefore, the P-loop-prodomain interaction is critical for triggering CED-4-mediated CED-3 processing. Underscoring the importance of this interaction was the finding that CED-9 contacted the P-loop and selectively inhibited its interaction with the CED-3 prodomain. These results provide a simple mechanism for how CED-9 functions to block CED-4-mediated CED-3 processing and cell death.