A Nucleotide Binding Site in Caspase-9 Regulates Apoptosome Activation

ATP or dATP is a required activator of Apaf-1 for formation of the Apoptosome and thereby activation of caspase-9 (Csp9) [Zou, H., Henzel, W. J., Liu, X., Lutschg, A., and Wang, X. (1997) Cell 90, 405−413]. Here we demonstrate that dATP or ATP may have an additional role in controlling Apaf-1-mediated Csp9 activation. In the presence of cytochrome c (CytC), dATP or ATP binds to Apaf-1 and triggers heptamerization of Apaf-1 leading to the activation of Csp9. At concentrations greater than 1 mM, dATP or ATP also functions as a negative regulator of apoptosis by binding to and inhibiting Csp9. The affinity labeling reagent, 3‘-O-(5-fluoro-2,4-dinitrophenyl)-ATP (FDNP-ATP), was used to probe the binding of nucleotides to Csp9. Similar to ATP, but with a much more profound effect, FDNP-ATP binds to the full-length proCsp9 potently, with an IC50 of ≈5−11 nM. Neither ATP nor FDNP-ATP exhibits any effect on the prodomain-truncated enzyme ΔproCsp9 or p18/p10. FDNP-ATP covalently labels proCsp9 with a stoichiometry of 1:1, resulting in DNP-ATP-proCsp9 that is incapable of forming a productive Apoptosome with Apaf-1. Activity assays show that ATP and dATP, but not ADP or AMP, bind to the processed Csp9 p35/p10. This nucleotide binding site might play an important and previously unrecognized role in regulating proCsp9 activation.