Structure of Apoptosis-Linked Protein ALG-2: Insights into Ca 2+-Induced Changes in Penta-EF-Hand Proteins

Abstract

Background: The Ca 2+ binding apoptosis-linked gene-2 (ALG-2) protein acts as a proapoptotic factor in a variety of cell lines and is required either downstream or independently of caspases for apoptosis to occur. ALG-2 belongs to the penta-EF-hand (PEF) protein family and has two high-affinity and one low-affinity Ca 2+ binding sites. Like other PEF proteins, its N terminus contains a Gly/Pro-rich segment. Ca 2+ binding is required for the interaction with the target protein, ALG-2 interacting protein 1 (AIP1). Results: We present the 2.3 Å resolution crystal structure of Ca 2+-loaded des1-20ALG-2 (aa 21–191), which was obtained by limited proteolysis of recombinant ALG-2 with elastase. The molecule contains eight α helices that fold into five EF-hands, and, similar to other members of this protein family, the molecule forms dimers. Ca 2+ ions bind to EF1, EF3, and, surprisingly, to EF5. In the related proteins calpain and grancalcin, the EF5 does not bind Ca 2+ and is thought to primarily facilitate dimerization. Most importantly, the conformation of des1-20ALG-2 is significantly different from that of calpain and grancalcin. This difference can be described as a rigid body rotation of EF1-2 relative to EF4-5 and the dimer interface, with a hinge within the EF3 loop. An electron density, which is interpreted as a hydrophobic Gly/Pro-rich decapeptide that is possibly derived from the cleaved N terminus, was found in a hydrophobic cleft between these two halves of the molecule. Conclusions: A different relative orientation of the N- and C-terminal halves of des1-20ALG-2 in the presence of Ca 2+ and the peptide as compared to other Ca 2+-loaded PEF proteins changes substantially the shape of the molecule, exposing a hydrophobic patch on the surface for peptide binding and a large cleft near the dimer interface. We postulate that the binding of a Gly/Pro-rich peptide in the presence of Ca 2+ induces a conformational rearrangement in ALG-2, and that this mechanism is common to other PEF proteins.