Caspase involvement in RIP-associated CD95-induced T cell apoptosis

CD95-induced apoptosis is an important regulatory mechanism in T cells and this complex signalling pathway is now thought to include the protein kinase RIP. Although, RIP is best known for its role in TNF signalling and NF-κB activation, it contains a death domain and it is capable of causing apoptosis upon cleavage. In the present study, the role of RIP in CD95-induced apoptosis and its inter-relationship with the caspase cascade was investigated. Studies were performed on both a RIP−/− T cell line and peripheral T lymphocytes, where RIP was degraded through the addition of geldanamycin. Apoptosis was induced by membrane CD95-L, thought to be the most physiological relevant form of CD95-L. Results showed that RIP−/− cells had a decreased susceptibility to death, thus confirming a role for RIP in CD95-induced apoptosis. Furthermore, it was confirmed that RIP is cleaved upon CD95-L stimulation, a process that can be inhibited by Z-VAD. However, only partial inhibition in peripheral T lymphocytes by Z-VAD was observed, suggesting a potential caspase-independent processing of RIP. Studies performed on the activity of effector caspase 3 and on the initiator caspases 2, 8, and 9 revealed that, in the absence of RIP, the activity of these caspases decreases, indicating that RIP-associated apoptosis is caspase-dependent. Hence, these studies support a caspase-related role for RIP in CD95-induced T apoptosis.