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Cytotoxicity of crystals involves RIPK3-MLKL-mediated necroptosis.

Nature communications (2016-01-29)
Shrikant R Mulay, Jyaysi Desai, Santhosh V Kumar, Jonathan N Eberhard, Dana Thomasova, Simone Romoli, Melissa Grigorescu, Onkar P Kulkarni, Bastian Popper, Volker Vielhauer, Gabriele Zuchtriegel, Christoph Reichel, Jan Hinrich Bräsen, Paola Romagnani, Rostyslav Bilyy, Luis E Munoz, Martin Herrmann, Helen Liapis, Stefan Krautwald, Andreas Linkermann, Hans-Joachim Anders
ANOTACE

Crystals cause injury in numerous disorders, and induce inflammation via the NLRP3 inflammasome, however, it remains unclear how crystals induce cell death. Here we report that crystals of calcium oxalate, monosodium urate, calcium pyrophosphate dihydrate and cystine trigger caspase-independent cell death in five different cell types, which is blocked by necrostatin-1. RNA interference for receptor-interacting protein kinase 3 (RIPK3) or mixed lineage kinase domain like (MLKL), two core proteins of the necroptosis pathway, blocks crystal cytotoxicity. Consistent with this, deficiency of RIPK3 or MLKL prevents oxalate crystal-induced acute kidney injury. The related tissue inflammation drives TNF-α-related necroptosis. Also in human oxalate crystal-related acute kidney injury, dying tubular cells stain positive for phosphorylated MLKL. Furthermore, necrostatin-1 and necrosulfonamide, an inhibitor for human MLKL suppress crystal-induced cell death in human renal progenitor cells. Together, TNF-α/TNFR1, RIPK1, RIPK3 and MLKL are molecular targets to limit crystal-induced cytotoxicity, tissue injury and organ failure.

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Sigma-Aldrich
Anti-phospho-MLKL (Ser358) Antibody Set, from rabbit, purified by affinity chromatography