Mutations that prevent caspase cleavage of RIPK1 cause autoinflammatory disease
AuthorLalaoui, N; Boyden, SE; Oda, H; Wood, GM; Stone, DL; Chau, D; Liu, L; Stoffels, M; Kratina, T; Lawlor, KE; ...
PublisherNATURE PUBLISHING GROUP
University of Melbourne Author/sHawkins, Edwin; Lawlor, Kathryn; Voss, Anne; Biben, Christine; Silke, John; Masters, Seth; Herold, Marco; Lalaoui, Najoua; Shield-Artin, Kristy; Kueh, Andrew; ...
AffiliationMedical Biology (W.E.H.I.)
Document TypeJournal Article
CitationsLalaoui, N., Boyden, S. E., Oda, H., Wood, G. M., Stone, D. L., Chau, D., Liu, L., Stoffels, M., Kratina, T., Lawlor, K. E., Zaal, K. J. M., Hoffmann, P. M., Etemadi, N., Shield-Artin, K., Biben, C., Tsai, W. L., Blake, M. D., Kuehn, H. S., Yang, D. ,... Silke, J. (2020). Mutations that prevent caspase cleavage of RIPK1 cause autoinflammatory disease. NATURE, 577 (7788), pp.103-+. https://doi.org/10.1038/s41586-019-1828-5.
Access StatusAccess this item via the Open Access location
Open Access URLhttp://europepmc.org/articles/pmc6930849?pdf=render
RIPK1 is a key regulator of innate immune signalling pathways. To ensure an optimal inflammatory response, RIPK1 is regulated post-translationally by well-characterized ubiquitylation and phosphorylation events, as well as by caspase-8-mediated cleavage1-7. The physiological relevance of this cleavage event remains unclear, although it is thought to inhibit activation of RIPK3 and necroptosis8. Here we show that the heterozygous missense mutations D324N, D324H and D324Y prevent caspase cleavage of RIPK1 in humans and result in an early-onset periodic fever syndrome and severe intermittent lymphadenopathy-a condition we term 'cleavage-resistant RIPK1-induced autoinflammatory syndrome'. To define the mechanism for this disease, we generated a cleavage-resistant Ripk1D325A mutant mouse strain. Whereas Ripk1-/- mice died postnatally from systemic inflammation, Ripk1D325A/D325A mice died during embryogenesis. Embryonic lethality was completely prevented by the combined loss of Casp8 and Ripk3, but not by loss of Ripk3 or Mlkl alone. Loss of RIPK1 kinase activity also prevented Ripk1D325A/D325A embryonic lethality, although the mice died before weaning from multi-organ inflammation in a RIPK3-dependent manner. Consistently, Ripk1D325A/D325A and Ripk1D325A/+ cells were hypersensitive to RIPK3-dependent TNF-induced apoptosis and necroptosis. Heterozygous Ripk1D325A/+ mice were viable and grossly normal, but were hyper-responsive to inflammatory stimuli in vivo. Our results demonstrate the importance of caspase-mediated RIPK1 cleavage during embryonic development and show that caspase cleavage of RIPK1 not only inhibits necroptosis but also maintains inflammatory homeostasis throughout life.
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