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Mechanistic basis for the allosteric activation of NADase activity in the Sir2-HerA antiphage defense system

Xiangkai Zhen, Biao Zhou, Zihe Liu, Xurong Wang, Heyu Zhao, Shuxian Wu, Zekai Li, Jiarui Liang, Wanyue Zhang, Qingjian Zhu, Jun He, Xiaoli Xiong, Songying Ouyang

2024Nature Communications14 citationsDOIOpen Access PDF

Abstract

Sir2-HerA is a widely distributed antiphage system composed of a RecA-like ATPase (HerA) and an effector with potential NADase activity (Sir2). Sir2-HerA is believed to provide defense against phage infection in Sir2-dependent NAD+ depletion to arrest the growth of infected cells. However, the detailed mechanism underlying its antiphage activity remains largely unknown. Here, we report functional investigations of Sir2-HerA from Staphylococcus aureus (SaSir2-HerA), unveiling that the NADase function of SaSir2 can be allosterically activated by the binding of SaHerA, which then assembles into a supramolecular complex with NADase activity. By combining the cryo-EM structure of SaSir2-HerA in complex with the NAD+ cleavage product, it is surprisingly observed that Sir2 protomers that interact with HerA are in the activated state, which is due to the opening of the α15-helix covering the active site, allowing NAD+ to access the catalytic pocket for hydrolysis. In brief, our study provides a comprehensive view of an allosteric activation mechanism for Sir2 NADase activity in the Sir2-HerA immune system. Deletion of cellular NAD+ via Sir2-depentent NADase provides immunity against phage infection in the Sir2-HerA immune system. Here the authors reveal supramolecular assembly for the allosteric activation on Sir2 NADase function in the Sir2-HerA antiphage system.

Topics & Concepts

Allosteric regulationHERACell biologyBasis (linear algebra)Computational biologyChemistryBiophysicsBiologyPhysicsBiochemistryEnzymeMathematicsParticle physicsGeometryQuantum chromodynamicsAutophagy in Disease and TherapySirtuins and Resveratrol in MedicineCalcium signaling and nucleotide metabolism
Mechanistic basis for the allosteric activation of NADase activity in the Sir2-HerA antiphage defense system | Litcius