Robin Schwarzer scite author profile

Die Regulation des Zelltods ist ein kritischer Schritt in der Embryonalentwicklung, der Gewebehomöostase und bei der Abwehr eindringender Krankheitserreger. Hierbei spielt Caspase-8 (Casp8) eine entscheidende Rolle, indem das Enzym extrinsische Apoptose induziert. Außerdem hemmt Casp8 Nekroptose und sichert so die embryonale Entwicklung. Wir zeigen hier, dass eine weitere wichtige Funktion der enzymatische Aktivität von Casp8 die Hemmung der Pyroptose ist. Um die spezifische Rolle der enzymatischen Aktivität von Casp8 zu untersuchen, haben wir eine Mauslinie etabliert, welche eine Punktmutation in der Substratbindetasche von Casp8 (Mutation des katalytischen Cysteins 362 zu Serin) aufweist. Diese Mutation führt zum Verlust der enzymatischer Aktivität von Casp8 C362S. Die Expression von katalytisch inaktiver Casp8 C362S resultiert in eine embryonale Letalität bei E10,5 aufgrund von kardiovaskulären Defekten, ähnlich zu Casp8-/-Mäusen. Die Blockade von Nekroptose durch zusätzliche Deletion von MLKL verhinderte den kardiovaskulären Phänotyp, verursachte jedoch unerwartet die perinatale Letalität von Casp8 C362S/C362S Mäusen. Dies deutet darauf hin, dass der Verlust der enzymatischen Aktivität von Casp8 die perinatale Entwicklung durch zusätzliche, Nekroptose-unabhängigen Funktionen beeinträchtigt. Der spezifische Verlust der katalytischen Aktivität von Casp8 in Darmepithelzellen (IECs) führte zu einer Darmentzündung ähnlich zu Casp8 IEC-KO Mäusen. Eine zusätzliche Deletion von MLKL verschlimmerte die Entzündung des Darms und verursachte ein vorzeitiges Versterben von Casp8 C362S/IEC-/Mlkl-/-Mäusen durch die Induktion des pyroptischen Zelltods. In diesem Zusammenhang konnten Prozesse, welche charakteristisch für Pyroptose sind, wie die Bildung von ASC-Specks, die Aktivierung von Casp1 sowie die Produktion von IL-1β beobachtet werden. Unsere Zellkulturanalysen zeigen, dass katalytisch inaktive Casp8 mit ASC kolokalisiert, sowie ASC-Nukleation und Casp1-Aktivierung induziert. Dementsprechend verhinderte die Deletion von ASC oder Casp1 die Entzündung des Darms und den vorzeitigen Tod von Casp8 C362S/C362S /Mlkl-/-Mäusen. Diese Ergebnisse zeigen eine noch unbekannte und unerwartete Rolle für Casp8 als Proteingerüst eines Signalkomplexes, welcher unter Gegebenheiten bei denen Apoptose und Nekroptose blockiert sind, gebildet wird.

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Z-nucleic-acid sensing triggers ZBP1-dependent necroptosis and inflammation

Jiao¹,

Wachsmuth²,

Kumari³

et al. 2020

Nature

308

272

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Z-DNA and Z-RNA are left-handed double helix nucleic acid structures with poorly understood biological function 1 – 3 . Z-DNA binding protein 1 (ZBP1, also known as DAI or DLM-1) is a nucleic acid sensor containing two Zα domains that bind Z-DNA 4 , 5 and Z-RNA 6 – 8 . ZBP1 mediates host-defence against certain viruses 6 , 7 , 9 – 14 by sensing viral nucleic acids 6 , 7 , 10 . RIPK1 deficiency or mutation of its RIP homotypic interaction motif (RHIM) triggers ZBP1-dependent necroptosis and inflammation in mice 15 , 16 , however, the mechanisms inducing ZBP1 activation in the absence of viral infection remain elusive. Here we show that Zα-dependent sensing of endogenous ligands induces ZBP1-mediated perinatal lethality in mice expressing RIPK1 with mutated RHIM ( Ripk1 mR/mR ) and skin inflammation in mice with epidermis-specific RIPK1 deficiency (RIPK1 E-KO ), as well as colitis in mice with intestinal epithelial-specific FADD deficiency (FADD IEC-KO ). Consistently, functional Zα domains were required for ZBP1-induced necroptosis in fibroblasts that express RIPK1 with mutated RHIM or were treated with caspase inhibitors. Moreover, inhibition of nuclear export triggered Zα-dependent activation of RIPK3 in the nucleus resulting in cell death, suggesting that ZBP1 may recognise Z-form nucleic acids (Z-NA) in the nucleus. We found that ZBP1 constitutively bound cellular double stranded RNA (dsRNA) in a Zα-dependent manner. Furthermore, endogenous retroelement (ERE)-derived complementary reads were detected in epidermal RNA, suggesting that ERE-derived dsRNA may act as Zα domain ligand triggering ZBP1 activation. Collectively, our results provide evidence that sensing of endogenous Z-NA by ZBP1 triggers RIPK3-dependent necroptosis and inflammation, which could underlie the development of chronic inflammatory conditions particularly in patients with mutations in the RIPK1 and CASPASE-8 genes 17 – 20 .

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NEMO Prevents RIP Kinase 1-Mediated Epithelial Cell Death and Chronic Intestinal Inflammation by NF-κB-Dependent and -Independent Functions

et al. 2016

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SummaryIntestinal epithelial cells (IECs) regulate gut immune homeostasis, and impaired epithelial responses are implicated in the pathogenesis of inflammatory bowel diseases (IBD). IEC-specific ablation of nuclear factor κB (NF-κB) essential modulator (NEMO) caused Paneth cell apoptosis and impaired antimicrobial factor expression in the ileum, as well as colonocyte apoptosis and microbiota-driven chronic inflammation in the colon. Combined RelA, c-Rel, and RelB deficiency in IECs caused Paneth cell apoptosis but not colitis, suggesting that NEMO prevents colon inflammation by NF-κB-independent functions. Inhibition of receptor-interacting protein kinase 1 (RIPK1) kinase activity or combined deficiency of Fas-associated via death domain protein (FADD) and RIPK3 prevented epithelial cell death, Paneth cell loss, and colitis development in mice with epithelial NEMO deficiency. Therefore, NEMO prevents intestinal inflammation by inhibiting RIPK1 kinase activity-mediated IEC death, suggesting that RIPK1 inhibitors could be effective in the treatment of colitis in patients with NEMO mutations and possibly in IBD.

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Robin Schwarzer

Caspase-8 is the molecular switch for apoptosis, necroptosis and pyroptosis

Z-nucleic-acid sensing triggers ZBP1-dependent necroptosis and inflammation

NEMO Prevents RIP Kinase 1-Mediated Epithelial Cell Death and Chronic Intestinal Inflammation by NF-κB-Dependent and -Independent Functions

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