Abstract

RIPK1 has emerged as a key effector in programmed necrosis or necroptosis. This function of RIPK1 is mediated by its protein serine/threonine kinase activity and through the downstream kinase RIPK3. Deletion of RIPK1 prevents embryonic lethality in mice lacking FADD, a signaling adaptor protein required for activation of Caspase 8 in extrinsic apoptotic pathways. This indicates that FADD-mediated apoptosis inhibits RIPK1-dependent necroptosis to ensure successful embryogenesis. However, the molecular mechanism for this critical regulation remains unclear. In the current study, a novel mouse model has been generated, by disrupting a potential caspase cleavage site at aspartic residue (D)324 in RIPK1. Interestingly, replacing D324 with alanine (A) in RIPK1 results in midgestation lethality, similar to the embryonic defect in FADD−/− mice but in stark contrast to the normal embryogenesis of RIPK1−/− null mutant mice. Surprisingly, disrupting the downstream RIPK3 alone is insufficient to rescue RIPK1D324A/D324A mice from embryonic lethality, unless FADD is deleted simultaneously. Further analyses reveal a paradoxical role for RIPK1 in promoting caspase activation and apoptosis in embryos, a novel mechanism previously unappreciated.

Highlights

  • Apoptosis is a major form of programmed cell death (PCD) and is executed by Caspases[1]

  • During embryonic development, RIPK1 can promote necroptosis, which is suppressed by FADD

  • This regulatory mechanism was demonstrated by our previous data showing that ablation of RIPK1 rescues FADD−/− mice from embryonic lethality[16]

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Summary

Introduction

Apoptosis is a major form of programmed cell death (PCD) and is executed by Caspases[1]. Cell death signaling skews towards necroptosis, in which receptor interacting protein kinase 1 (RIP, RIP1 or RIPK1) and RIPK3 serve as key signaling effectors[6,7,8,9,10]. These two protein serine/threonine kinases interact with one another via their RIP homotypic interaction motif. This results in phosphorylation of both RIPK1 and RIPK3, leading to recruitment and activation of the mixed lineage kinase domain like (MLKL) protein.

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