HOIP Deficiency Causes Embryonic Lethality by Aberrant TNFR1-Mediated Endothelial Cell Death

Peltzer, Nieves; Rieser, Eva; Taraborrelli, Lucia; Dráber, Peter; Darding, Maurice; Pernaute, Bárbara; Shimizu, Yutaka; Sarr, Aida; Draberova, Helena; Montinaro, Antonella; Martinez-Barbera, Juan Pedro; Silke, John; Rodríguez, Tristan A.; Walczak, Henning

doi:10.1016/j.celrep.2014.08.066

Cited by 222 publications

(320 citation statements)

References 52 publications

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“…Like FIP200-4A homozygous knock-in mice, ablation of TNFR1 in FIP200 knockout mice prevented the lethality by E16.5 observed previously (Gan et al 2006). These results are consistent with recent reports suggesting a critical role of the TNFα pathway as a "checkpoint" during embryogenesis that triggers embryonic lethality in response to various defects of knockout animals (Dillon et al 2014;Peltzer et al 2014). On the other hand, whereas FIP200-4A homozygous knock-in mice survived until birth, TNFR1 knockout did not allow completion of embryogenesis of FIP200 knockout mice.…”

Section: Discussionsupporting

confidence: 82%

“…Previous studies suggested that the TNFα pathway plays a crucial role during embryogenesis and is involved in embryonic lethality caused by a variety of abnormalities in different knockout mice (Dillon et al 2014;Peltzer et al 2014). To investigate directly whether increased sensitivity to TNFα-induced cell death is responsible for the embryonic lethality of FIP200 knockout mice, we generated FIP200…”

Section: Fip200mentioning

confidence: 99%

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Distinct roles of autophagy-dependent and -independent functions of FIP200 revealed by generation and analysis of a mutant knock-in mouse model

et al. 2016

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Autophagy is an evolutionarily conserved cellular process controlled through a set of essential autophagy genes (Atgs). However, there is increasing evidence that most, if not all, Atgs also possess functions independent of their requirement in canonical autophagy, making it difficult to distinguish the contributions of autophagy-dependent or -independent functions of a particular Atg to various biological processes. To distinguish these functions for FIP200 (FAK family-interacting protein of 200 kDa), an Atg in autophagy induction, we examined FIP200 interaction with its autophagy partner, Atg13. We found that residues 582-585 (LQFL) in FIP200 are required for interaction with Atg13, and mutation of these residues to AAAA (designated the FIP200-4A mutant) abolished its canonical autophagy function in vitro. Furthermore, we created a FIP200-4A mutant knock-in mouse model and found that specifically blocking FIP200 interaction with Atg13 abolishes autophagy in vivo, providing direct support for the essential role of the ULK1/Atg13/FIP200/Atg101 complex in the process beyond previous studies relying on the complete knockout of individual components. Analysis of the new mouse model showed that nonautophagic functions of FIP200 are sufficient to fully support embryogenesis by maintaining a protective role in TNFα-induced apoptosis. However, FIP200-mediated canonical autophagy is required to support neonatal survival and tumor cell growth. These studies provide the first genetic evidence linking an Atg's autophagy and nonautophagic functions to different biological processes in vivo.

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Section: Discussionsupporting

confidence: 82%

Section: Fip200mentioning

confidence: 99%

Distinct roles of autophagy-dependent and -independent functions of FIP200 revealed by generation and analysis of a mutant knock-in mouse model

et al. 2016

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“…The importance of the linear ubiquitin pathway in the regulation of innate immune responses has been demonstrated in murine models. Mice deficient in LUBAC subunits have variable degrees of inflammation, from a mild phenotype in HOIL-1-deficient mice (16) to more severe inflammation and dermatitis in SHARPIN KO (2,17) to defective vascularization and embryonic lethality in HOIP KO (18). Consistent with the essential function of OTULIN in regulation of multiple signaling pathways, OTULINdeficient mice (gumby/gumby) are embryonic lethal due to vascular and neuronal defects caused by dysregulation in canonical Wnt signaling (8).…”

Section: Discussionmentioning

confidence: 77%

Biallelic hypomorphic mutations in a linear deubiquitinase define otulipenia, an early-onset autoinflammatory disease

Zhou

Demirkaya

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

223

272

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Systemic autoinflammatory diseases are caused by mutations in genes that function in innate immunity. Here, we report an autoinflammatory disease caused by loss-of-function mutations in OTULIN (FAM105B), encoding a deubiquitinase with linear linkage specificity. We identified two missense and one frameshift mutations in one Pakistani and two Turkish families with four affected patients. Patients presented with neonatal-onset fever, neutrophilic dermatitis/panniculitis, and failure to thrive, but without obvious primary immunodeficiency. HEK293 cells transfected with mutated OTULIN had decreased enzyme activity relative to cells transfected with WT OTULIN, and showed a substantial defect in the linear deubiquitination of target molecules. Stimulated patients' fibroblasts and peripheral blood mononuclear cells showed evidence for increased signaling in the canonical NF-κB pathway and accumulated linear ubiquitin aggregates. Levels of proinflammatory cytokines were significantly increased in the supernatants of stimulated primary cells and serum samples. This discovery adds to the emerging spectrum of human diseases caused by defects in the ubiquitin pathway and suggests a role for targeted cytokine therapies.OTULIN | linear deubiquitinase | NF-κB pathway | autoinflammatory disease | cytokines

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“…In addition, recent studies have indicated that the lack of linear ubiquitination in complex I accelerates complex II formation in TNF signaling. 77 Whereas CYLD directly binds LUBAC and removes linear chains, thereby sensitizing cells to TNF-provoked apoptosis, A20 binding to the linear chains via its ZnF7 domain antagonizes their removal, consequently blocking cell death. 78 Dissimilarly, the RIP1-independent apoptotic branch is controlled by the level of cellular FLICE Inhibitory Protein (c-FLIPL), which effectively blocks caspase-8 activation by competitively binding to FADD.…”

Section: Apoptosis Regulation By the Ubiquitin Systemmentioning

confidence: 99%

The ubiquitin system: a critical regulator of innate immunity and pathogen–host interactions

Chai

Liu

2016

Cell Mol Immunol

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The ubiquitin system comprises enzymes that are responsible for ubiquitination and deubiquitination, as well as ubiquitin receptors that are capable of recognizing and deciphering the ubiquitin code, which act in coordination to regulate almost all host cellular processes, including host-pathogen interactions. In response to pathogen infection, the host innate immune system launches an array of distinct antimicrobial activities encompassing inflammatory signaling, phagosomal maturation, autophagy and apoptosis, all of which are fine-tuned by the ubiquitin system to eradicate the invading pathogens and to reduce concomitant host damage. By contrast, pathogens have evolved a cohort of exquisite strategies to evade host innate immunity by usurping the ubiquitin system for their own benefits. Here, we present recent advances regarding the ubiquitin system-mediated modulation of host-pathogen interplay, with a specific focus on host innate immune defenses and bacterial pathogen immune evasion.

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HOIP Deficiency Causes Embryonic Lethality by Aberrant TNFR1-Mediated Endothelial Cell Death

Cited by 222 publications

References 52 publications

Distinct roles of autophagy-dependent and -independent functions of FIP200 revealed by generation and analysis of a mutant knock-in mouse model

Distinct roles of autophagy-dependent and -independent functions of FIP200 revealed by generation and analysis of a mutant knock-in mouse model

Biallelic hypomorphic mutations in a linear deubiquitinase define otulipenia, an early-onset autoinflammatory disease

The ubiquitin system: a critical regulator of innate immunity and pathogen–host interactions

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