SIGLEC12 mediates plasma membrane rupture during necroptotic cell death

Abstract Necroptosis is a form of lytic cell death that is overactivated during infections and in inflammatory pathologies 1 . NINJ1 was recently found to be a mediator of plasma membrane rupture (PMR) during pyroptosis, toxin-induced necrosis, apoptosis, and ferroptosis 2,3 , but the mediator of PMR during necroptotic cell death remained unknown. Here, using a CRISPR–Cas9-based genome-wide knockout approach, we identify SIGLEC12 as a key mediator of necroptosis downstream of MLKL at the PMR step. Cells with knockdown or knockout of SIGLEC12 are defective in necroptosis-induced PMR and demonstrate ballooning morphology. During necroptosis, SIGLEC12 undergoes dephosphorylation, interacts with MLKL, forms cytosolic puncta and assembles into fibrils. Notably, SIGLEC12 is cleaved by TMPRSS4 during necroptosis to produce a 20-kDa fragment highly homologous to NINJ1, and this cleavage event is required and sufficient to induce PMR during necroptosis. A SIGLEC12 variant associated with cancer (Ser458Phe) and a variant found in the general human population (Arg528Trp) attenuate SIGLEC12 cleavage by TMPRSS4. Knockout of Siglec12 in mouse cells does not affect PMR, suggesting a species-specific role. Our identification of SIGLEC12 as a mediator of PMR expands our understanding of how programmed necrosis is executed and offers new approaches for targeting this proinflammatory form of cell death in human diseases.