Current Knowledge on Procaspase-1 Variants with Reduced or Abrogated Enzymatic Activity in Autoinflammatory Disease

Luksch, Hella; Winkler, Stefan; Heymann, Michael C.; Schulze, Felix; Hofmann, Sigrun R.; Roesler, Joachim; Rösen‐Wolff, Angela

doi:10.1007/s11926-015-0520-5

Cited by 9 publications

(6 citation statements)

References 49 publications

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“…In addition to its enzymatic functions as a protease, caspase-1 might exert non-enzymatic scaffolding functions, as highlighted by the identification of autoinflammatory disease patients expressing caspase-1 variants with reduced or absent catalytic activity ( Luksch et al., 2013 , Luksch et al., 2015 ). We generated knockin mice that homozygously express an enzymatically inactive caspase-1 C284A mutant from the endogenous casp1 locus to distinguish between caspase-1 enzymatic activity and caspase-1 scaffolding as mechanisms that suppress ASC- and caspase-8-dependent apoptosis ( Figures S4 A and S4B).…”

Section: Resultsmentioning

confidence: 99%

Caspase-1 Engagement and TLR-Induced c-FLIP Expression Suppress ASC/Caspase-8-Dependent Apoptosis by Inflammasome Sensors NLRP1b and NLRC4

et al. 2017

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SummaryThe caspase activation and recruitment domain (CARD)-based inflammasome sensors NLRP1b and NLRC4 induce caspase-1-dependent pyroptosis independent of the inflammasome adaptor ASC. Here, we show that NLRP1b and NLRC4 trigger caspase-8-mediated apoptosis as an alternative cell death program in caspase-1−/− macrophages and intestinal epithelial organoids (IECs). The caspase-8 adaptor FADD was recruited to ASC specks, which served as cytosolic platforms for caspase-8 activation and NLRP1b/NLRC4-induced apoptosis. We further found that caspase-1 protease activity dominated over scaffolding functions in suppressing caspase-8 activation and induction of apoptosis of macrophages and IECs. Moreover, TLR-induced c-FLIP expression inhibited caspase-8-mediated apoptosis downstream of ASC speck assembly, but did not affect pyroptosis induction by NLRP1b and NLRC4. Moreover, unlike during pyroptosis, NLRP1b- and NLRC4-elicited apoptosis retained alarmins and the inflammasome-matured cytokines interleukin 1β (IL-1β) and IL-18 intracellularly. This work identifies critical mechanisms regulating apoptosis induction by the inflammasome sensors NLRP1b and NLRC4 and suggests converting pyroptosis into apoptosis as a paradigm for suppressing inflammation.

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Section: Resultsmentioning

confidence: 99%

Caspase-1 Engagement and TLR-Induced c-FLIP Expression Suppress ASC/Caspase-8-Dependent Apoptosis by Inflammasome Sensors NLRP1b and NLRC4

et al. 2017

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“…Strikingly, patients with inactivating SNPs in human CASP1 also presented with autoinflammatory disease. While the genetic variants tempered or blocked caspase-1 protease activity and IL-1b secretion, the patients present with severe inflammation, which has been proposed to be a consequence of a more robust interaction between catalytically inactive caspase-1 and the NF-kB-activating kinase RIPK2 (Kersse et al, 2011;Lamkanfi et al, 2004;Luksch et al, 2013;Luksch et al, 2015). Deficiency in IL-1Ra (DIRA) leads to uncontrolled IL-1 signaling, which-when left unattended-can be life-threatening due to development of systemic inflammation and multiorgan failure (Aksentijevich et al, 2009).…”

Section: Reviewmentioning

confidence: 99%

Caspases in Cell Death, Inflammation, and Disease

2019

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Caspases are an evolutionary conserved family of cysteine proteases that are centrally involved in cell death and inflammation responses. A wealth of foundational insight into the molecular mechanisms that control caspase activation has emerged in recent years. Important advancements include the identification of additional inflammasome platforms and pathways that regulate activation of inflammatory caspases; the discovery of gasdermin D as the effector of pyroptosis and interleukin (IL)-1 and IL-18 secretion; and the existence of substantial crosstalk between inflammatory and apoptotic initiator caspases. A better understanding of the mechanisms regulating caspase activation has supported initial efforts to modulate dysfunctional cell death and inflammation pathways in a suite of communicable, inflammatory, malignant, metabolic, and neurodegenerative diseases. Here, we review current understanding of caspase biology with a prime focus on the inflammatory caspases and outline important topics for future experimentation.

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“…Recently, naturally occurring genetic variants of the CASP1 gene were associated with recurrent fevers and systemic inflammation in individuals with "interleukin 1-converting enzyme fever" (12,13). Caspase-1 variants exhibit reduced or absent enzymatic activity, resulting in impaired autoprocessing of inactive procaspase-1 and, subsequently, reduced cleavage, activation, and release of the pro-inflammatory cytokine IL-1␤.…”

mentioning

confidence: 99%

Enzymatically Inactive Procaspase 1 stabilizes the ASC Pyroptosome and Supports Pyroptosome Spreading during Cell Division

Stein

Kapplusch

Heymann

et al. 2016

Journal of Biological Chemistry

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Caspase-1 is a key player during the initiation of pro-inflammatory innate immune responses, activating pro-IL-1␤ in socalled inflammasomes. A subset of patients with recurrent febrile episodes and systemic inflammation of unknown origin harbor mutations in CASP1 encoding caspase-1. CASP1 variants result in reduced enzymatic activity of caspase-1 and impaired IL-1␤ secretion. The apparent paradox of reduced IL-1␤ secretion but systemic inflammation led to the hypothesis that CASP1 mutations may result in variable protein interaction clusters, thus activating alternative signaling pathways. To test this hypothesis, we established and characterized an in vitro system of transduced immortalized murine macrophages expressing either WT or enzymatically inactive (p.C284A) procaspase-1 fusion reporter proteins. Macrophages with variant p.C284A caspase-1 did not secrete IL-1␤ and exhibited reduced inflammatory cell death, referred to as pyroptosis. Caspase-1 and apoptosis-associated speck-like protein containing a CARD (ASC) formed cytosolic macromolecular complexes (so-called pyroptosomes) that were significantly increased in number and size in cells carrying the p.C284A caspase-1 variant compared with WT caspase-1. Furthermore, enzymatically inactive caspase-1 interacted with ASC longer and with increased intensity compared with WT caspase-1. Applying live cell imaging, we documented for the first time that pyroptosomes containing enzymatically inactive variant p.C284A caspase-1 spread during cell division. In conclusion, variant p.C284A caspase-1 stabilizes pyroptosome formation, potentially enhancing inflammation by two IL-1␤-independent mechanisms: pyroptosomes convey an enhanced inflammatory stimulus through the recruitment of additional proteins (such as RIP2, receptor interacting protein kinase 2), which is further amplified through pyroptosome and cell division.Caspase-1 is a key player during innate immune responses. It aids to control pathogens and danger signals by triggering pyroptotic cell death. Together with caspase-11 and -12 in mice and caspase-4, -5, and -12 in humans, caspase-1 belongs to the family of inflammatory caspases, which are produced as inactive forms. After the detection of pathogens or cytoplasmic danger signals, inactive caspase-1 monomers recruit to multiprotein complexes referred to as inflammasomes (1-3). In such inflammasomes, inactive procaspases are autoprocessed into caspase activation and recruitment domains (CARDs), 2 the p10 and the p20 subunits (4). Two p10 and two p20 proteins subsequently form the active caspase-1 tetramer, which then cleaves and thereby activates IL-1␤ in the so-called canonical inflammasome pathway (5, 6). Furthermore, inflammatory caspases induce pro-inflammatory cell death, referred to as pyroptosis, which involves cell swelling, cell lysis, and the release of cytoplasmic contents (7,8). Pyroptosis depends on the activation of caspase-4, -5, or -11 and caspase-1 (9 -11). Caspase-1 or -11 cleaves gasdermin D, a gasdermin domain-containing protein, at amin...

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Current Knowledge on Procaspase-1 Variants with Reduced or Abrogated Enzymatic Activity in Autoinflammatory Disease

Cited by 9 publications

References 49 publications

Caspase-1 Engagement and TLR-Induced c-FLIP Expression Suppress ASC/Caspase-8-Dependent Apoptosis by Inflammasome Sensors NLRP1b and NLRC4

Caspase-1 Engagement and TLR-Induced c-FLIP Expression Suppress ASC/Caspase-8-Dependent Apoptosis by Inflammasome Sensors NLRP1b and NLRC4

Caspases in Cell Death, Inflammation, and Disease

Enzymatically Inactive Procaspase 1 stabilizes the ASC Pyroptosome and Supports Pyroptosome Spreading during Cell Division

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