Abstract
The pro-apoptotic protein Bax is a key apoptosis regulator, as its activity is the main driver of mitochondrial outer membrane permeabilization. Bax is therefore tightly regulated, both by protein-protein interactions and post-translational modifications, such as phosphorylation. Although less studied, N-terminal acetylation has also been implicated in Bax regulation: disruption of the NatB N-terminal acetyl transferase complex in both yeast and MEFs increases Bax mitochondrial localization, although increased translocation is not sufficient to trigger its activation. Using the well-established model of heterologous expression of human Bax in yeast, we further investigated its regulation by N-terminal acetylation. We found that the sensitivity of Bax-expressing cells to acetic acid is greatly enhanced in a strain lacking the yeast NatB catalytic subunit (Nat3p). We propose that the Bax-induced cell death process shifts to a regulated necrosis in this strain due to autophagy inhibition. Furthermore, we show that the protective role of Bcl-xL against acetic acid-induced cell death of Bax-expressing yeast cells requires Nat3p. We speculate that Nat3p modulates the function of pro-death and pro-survival proteins, ultimately affecting both the levels and mode of cell death. These findings may have implications for the development of novel therapeutic strategies targeting human diseases associated with cell death dysfunction.