Molecular mechanisms of CBASS phospholipase effector CapV mediated membrane disruption
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Cyclic oligonucleotide-based antiphage signaling systems (CBASS) are widespread bacterial immune systems that trigger host suicide via cyclic nucleotide-activated effectors. The predominant strategy to induce cell death in CBASS is membrane disruption. Here, we demonstrate that patatin-like phospholipase CapV, the most abundant CBASS effector, relocates and cleaves membrane phospholipids at the cell pole upon 3’3’-cGAMP binding, inducing polarized membrane disruption and cell death. Using cryo-EM, we reveal that apo-CapV adopts both dimeric and tetrameric states, with its phospholipid-binding pocket occluded and locked in an inactive conformation. Binding to 3’3’-cGAMP induces filamentation and substantial conformational change of CapV, enhancing membrane binding via electrostatic interactions between its interspaced basic surfaces and the negatively charged phosphate moieties of phospholipids. Simultaneously, the rearrangement opens the phospholipid-binding pocket, enabling the accommodation of two fatty acid chains of phospholipid within distinct hydrophobic pockets. Our findings reveal a filament-dependent activation mechanism for phospholipase-mediated membrane disruption during antiviral response.