A Specific Isozyme of 2′-5′ Oligoadenylate Synthetase is a Dual Function Proapoptotic Protein of the Bcl-2 Family

Abstract

2-5(A) synthetases are a family of interferon-induced enzymes that polymerize ATP into 2′-5′ linked oligoadenylates that activate RNase L and cause mRNA degradation. Because they all can synthesize 2-5(A), the reason for the existence of so many synthetase isozymes is unclear. Here we report that the 9-2 isozyme of 2-5(A) synthetase has an additional activity: it promotes apoptosis in mammalian cells. The proapoptotic activity of 9-2 was isozyme-specific and enzyme activity-independent. The 9-2-expressing cells exhibited many properties of cells undergoing apoptosis, such as DNA fragmentation, caspase activation, and poly ADP-ribose polymerase and lamin B cleavage. The isozyme-specific carboxyl-terminal tail of the 9-2 protein was shown, by molecular modeling, to contain a Bcl-2 homology 3 (BH3) domain, suggesting that it may be able to interact with members of the Bcl-2 family that contain BH1 and BH2 domains. Co-immunoprecipitate assays and confocal microscopy showed that 9-2 can indeed interact with the anti-apoptotic proteins Bcl-2 and BclxL in vivo and in vitro. Mutations in the BH3 domain that eliminated the 9-2-Bcl-2 amd 9-2-BclxL interactions also eliminated the apoptotic activity of 9-2. Thus, we have identified an interferon-induced dual function protein of the Bcl-2 family that can synthesize 2-5(A) and promote cellular apoptosis independently. Moreover, the cellular abundance of this protein is regulated by alternative splicing; the other isozymes encoded by the same gene are not proapoptotic.