ジャーナル: Nat Commun / 年: 2024 タイトル: Structural basis for phage-mediated activation and repression of bacterial DSR2 anti-phage defense system. 著者: Jun-Tao Zhang / Xiao-Yu Liu / Zhuolin Li / Xin-Yang Wei / Xin-Yi Song / Ning Cui / Jirui Zhong / Hongchun Li / Ning Jia / 要旨: Silent information regulator 2 (Sir2) proteins typically catalyze NAD-dependent protein deacetylation. The recently identified bacterial Sir2 domain-containing protein, defense-associated sirtuin 2 ...Silent information regulator 2 (Sir2) proteins typically catalyze NAD-dependent protein deacetylation. The recently identified bacterial Sir2 domain-containing protein, defense-associated sirtuin 2 (DSR2), recognizes the phage tail tube and depletes NAD to abort phage propagation, which is counteracted by the phage-encoded DSR anti-defense 1 (DSAD1), but their molecular mechanisms remain unclear. Here, we determine cryo-EM structures of inactive DSR2 in its apo form, DSR2-DSAD1 and DSR2-DSAD1-NAD, as well as active DSR2-tube and DSR2-tube-NAD complexes. DSR2 forms a tetramer with its C-terminal sensor domains (CTDs) in two distinct conformations: CTD or CTD. Monomeric, rather than oligomeric, tail tube proteins preferentially bind to CTD and activate Sir2 for NAD hydrolysis. DSAD1 binding to CTD allosterically inhibits tube binding and tube-mediated DSR2 activation. Our findings provide mechanistic insight into DSR2 assembly, tube-mediated DSR2 activation, and DSAD1-mediated inhibition and NAD substrate catalysis in bacterial DSR2 anti-phage defense systems.