Bax Forms a Membrane Surface Protein-Lipid Complex as it Initiates Apoptosis

Abstract

AbstractCellular clearance by apoptosis is essential in life. In its intrinsic (mitochondrial) pathway apoptotic members of the Bcl-2 (B cell CLL/lymphoma-2) protein family, such as Bax (Bcl-2-associated X) protein, perforate the mitochondrial outer membrane (MOM), which causes release of apoptotic factors and final cell death. How those apoptotic proteins mechanistically exert their action at the membrane level still however remains elusive. Upon internal stress signals Bax is massively recruited to the MOM, where it oligomerizes and partially penetrates into the membrane. Using neutron reflectometry (NR) and attenuated total reflection Fourier-Transform infrared spectroscopy (ATR-FTIR) spectroscopy we unraveled key molecular steps of this membrane-affiliation process of Bax on a spatial and temporal scale. By titrating intact human Bax to MOM-like bilayers containing cardiolipin, essential for protein recruitment, we could identify different functional phases. Initially, there is a fast adsorption event to the membrane surface with high affinity. Thereafter, a kinetically slower (minutes to hours) event occurs with Bax penetration, thereby triggering a major reorganizing of the mitochondrial bilayer. Finally, a membrane-Bax complex is generated, with a minor Bax population remaining membrane-inserted, while the main population is relocated to the membrane surface upon lipid redistribution into a complex with Bax; a process enabling membrane perforation. We propose a comprehensive molecular model of mitochondrial membrane penetration by formation of complex Bax/lipid clusters; a concept which provides a new foundation to understand the cell-killing activity of Bax and its apoptotic relatives in human cells.Significance StatementThe apoptotic Bax protein is a key player in the mitochondrial apoptotic pathway. Here, neutron reflectometry (NR) unravels the mechanism by which Bax is targeting and perforating mitochondria to release apoptotic factors for final cell death. We found that this cardiolipin driven process of the outer mitochondrial membrane system has two main phases. Upon a fast (10-20 min) phase of membrane association Bax initiates the formation of pores by removing lipids and depositing them as Bax/lipid complexes on top of the bilayer on a time scale of several hours similar toin vivoapoptotic cell death. Our results provide a mechanistic rationale for cell-killing processes driven by apoptotic Bcl-2 proteins; and their molecular inhibition in many cancers.