RIP3 mediates the embryonic lethality of caspase-8-deficient mice

Abstract

Caspase-8 mediates apoptosis induced by 'death receptors' on the cell's surface. At the same time, it is able to prevent receptor interacting protein kinase (RIPK)-dependent necrosis. Without caspase-8, mice die during embryonic development, but why this happens is not clear. Two groups show that this lethality is not caused by the absence of apoptosis, but by the RIPK3-dependent necrosis that is unleashed without caspase-8. Mice lacking both caspase-8 and RIP3 develop into viable, immunocompetent adults, but have a progressive lymphoaccumulative disease similar to that in mice that lack the CD95 death receptor. Oberst et al. also show that caspase-8 forms a proteolytically active complex with FLICE-like inhibitory protein long (FLIPL), and that this complex is required for protection against RIP3-dependent necrosis. Caspase-8 mediates apoptosis induced by death receptors. At the same time, this protease is able to prevent RIP-dependent necrosis. Without caspase-8 mice die during their embryonic development. Two papers now show that lethality is not caused by the absence of apoptosis, but by RIP3-dependent necrosis that is unleashed without caspase-8. Mice that lack both caspase-8 and RIP3 develop into viable, immunocompetent, fertile adult mice, but suffer from a progressive lymphoaccumulative disease similar to mice that lack the death receptor CD95. Apoptosis and necroptosis are complementary pathways controlled by common signalling adaptors, kinases and proteases; among these, caspase-8 (Casp8) is critical for death receptor-induced apoptosis. This caspase has also been implicated in non-apoptotic pathways that regulate Fas-associated via death domain (FADD)-dependent signalling and other less defined biological processes as diverse as innate immune signalling and myeloid or lymphoid differentiation patterns1. Casp8 suppresses RIP3–RIP1 (also known as RIPK3–RIPK1) kinase complex-dependent2,3,4 necroptosis5 that follows death receptor activation as well as a RIP3-dependent, RIP1-independent necrotic pathway that has emerged as a host defence mechanism against murine cytomegalovirus6. Disruption of Casp8 expression leads to embryonic lethality in mice between embryonic days 10.5 and 11.5 (ref. 7). Thus, Casp8 may naturally hold alternative RIP3-dependent death pathways in check in addition to promoting apoptosis. We find that RIP3 is responsible for the mid-gestational death of Casp8-deficient embryos. Remarkably, Casp8−/−Rip3−/− double mutant mice are viable and mature into fertile adults with a full immune complement of myeloid and lymphoid cell types. These mice seem immunocompetent but develop lymphadenopathy by four months of age marked by accumulation of abnormal T cells in the periphery, a phenotype reminiscent of mice with Fas-deficiency (lpr/lpr; also known as Fas). Thus, Casp8 contributes to homeostatic control in the adult immune system; however, RIP3 and Casp8 are together completely dispensable for mammalian development.