PUMA binding induces partial unfolding within BCL-xL to disrupt p53 binding and promote apoptosis

π-stacking interactions unique between residues of PUMA and Bcl-xL, which lead to the unfolding of Bcl-xL via an allosteric mechanism, are required to disrupt p53–Bcl-xL interaction and induce apoptosis. This is the first example of regulated protein unfolding for signal transmission. Following DNA damage, nuclear p53 induces the expression of PUMA, a BH3-only protein that binds and inhibits the antiapoptotic BCL-2 repertoire, including BCL-xL. PUMA, unique among BH3-only proteins, disrupts the interaction between cytosolic p53 and BCL-xL, allowing p53 to promote apoptosis via direct activation of the BCL-2 effector molecules BAX and BAK. Structural investigations using NMR spectroscopy and X-ray crystallography revealed that PUMA binding induced partial unfolding of two α-helices within BCL-xL. Wild-type PUMA or a PUMA mutant incapable of causing binding-induced unfolding of BCL-xL equivalently inhibited the antiapoptotic BCL-2 repertoire to sensitize for death receptor–activated apoptosis, but only wild-type PUMA promoted p53-dependent, DNA damage–induced apoptosis. Our data suggest that PUMA-induced partial unfolding of BCL-xL disrupts interactions between cytosolic p53 and BCL-xL, releasing the bound p53 to initiate apoptosis. We propose that regulated unfolding of BCL-xL provides a mechanism to promote PUMA-dependent signaling within the apoptotic pathways.