Active Caspase-1 Induces Plasma Membrane Pores That Precede Pyroptotic Lysis and Are Blocked by Lanthanides

Russo, Hana M.; Rathkey, Joseph K.; Boyd-Tressler, Andrea; Katsnelson, Michael; Abbott, Derek W.; Dubyak, George R.

doi:10.4049/jimmunol.1600699

Cited by 149 publications

(137 citation statements)

References 81 publications

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“…As such, we could not conclusively determine if IL-1β secretion was an active or passive process during necroptosis. This question of whether IL-1β can be actively secreted from cells after caspase-1 activation remains controversial (20,23,(35)(36)(37). These experiments nonetheless suggested that NLRP3 activation could be cell-intrinsic, because glycine treatment had no effect on mature IL-1β secretion following MLKL activation.…”

Section: Discussionmentioning

confidence: 99%

“…Caspase-1 subsequently cleaves and activates the potent proinflammatory cytokines IL-1β and IL-18 and induces their secretion. Although it has been suggested that cell lysis is required for IL-1β release, it has been reported by a number of groups that mature IL-1β secretion is an active cellular process and can occur in the absence of cell death (20)(21)(22)(23).…”

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confidence: 99%

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Active MLKL triggers the NLRP3 inflammasome in a cell-intrinsic manner

Conos

Chen

Nardo

et al. 2017

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

366

298

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Necroptosis is a physiological cell suicide mechanism initiated by receptor-interacting protein kinase-3 (RIPK3) phosphorylation of mixed-lineage kinase domain-like protein (MLKL), which results in disruption of the plasma membrane. Necroptotic cell lysis, and resultant release of proinflammatory mediators, is thought to cause inflammation in necroptotic disease models. However, we previously showed that MLKL signaling can also promote inflammation by activating the nucleotide-binding oligomerization domain (NOD)-like receptor protein 3 (NLRP3) inflammasome to recruit the adaptor protein apoptosis-associated speck-like protein containing a caspase activation and recruitment domain (ASC) and trigger caspase-1 processing of the proinflammatory cytokine IL-1β. Here, we provide evidence that MLKL-induced activation of NLRP3 requires (i) the death effector four-helical bundle of MLKL, (ii) oligomerization and association of MLKL with cellular membranes, and (iii) a reduction in intracellular potassium concentration. Although genetic or pharmacological targeting of NLRP3 or caspase-1 prevented MLKLinduced IL-1β secretion, they did not prevent necroptotic cell death. Gasdermin D (GSDMD), the pore-forming caspase-1 substrate required for efficient NLRP3-triggered pyroptosis and IL-1β release, was not essential for MLKL-dependent death or IL-1β secretion. Imaging of MLKL-dependent ASC speck formation demonstrated that necroptotic stimuli activate NLRP3 cell-intrinsically, indicating that MLKL-induced NLRP3 inflammasome formation and IL-1β cleavage occur before cell lysis. Furthermore, we show that necroptotic activation of NLRP3, but not necroptotic cell death alone, is necessary for the activation of NF-κB in healthy bystander cells. Collectively, these results demonstrate the potential importance of NLRP3 inflammasome activity as a driving force for inflammation in MLKLdependent diseases.aspase-dependent apoptotic cell death is required for mammalian development and the prevention of autoimmune and neoplastic diseases. Programmed cell death can also act to eliminate pathogen-infected cells, with recent studies highlighting how targeted apoptosis-inducing anticancer compounds can treat viral and intracellular bacterial infections (1, 2). On the other hand, the recently characterized caspase-independent necroptotic cell death pathway is dispensable for organism development but, like apoptosis, can be triggered to kill cells harboring pathogenic microbes (3). A number of studies have also reported how pathological activation of necroptotic signaling may contribute to diverse disease states, such as ischemia-reperfusion injury, atherosclerosis, and liver disease, presumably through cell death and the release of proinflammatory mediators (4).The execution of necroptosis is dependent on receptor interacting serine-threonine protein kinase 3 (RIPK3) phosphorylation of mixed-lineage kinase domain-like protein (MLKL), and MLKL's association with, and disruption of, plasma membrane integrity (5).In the absence of caspase activit...

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Active MLKL triggers the NLRP3 inflammasome in a cell-intrinsic manner

Conos

Chen

Nardo

et al. 2017

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

366

298

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“…Thus, in a cell undergoing pyroptosis without sufficient compensatory mechanisms, the membrane rupture likely occurs before significant amounts of propidium can be detected inside the cell. However, caution should be used since propidium is very small and, thus, passes freely through the gasdermin pore[28]. It is therefore formally possible that a cell can repair its membrane to remove the gasdermin pore, as was recently shown during necroptosis[24].…”

Section: Gasdermin D Pores Are the Effectors Of Pyroptosismentioning

confidence: 99%

Gasdermins: Effectors of Pyroptosis

Kovacs

Miao

2017

Trends in Cell Biology

962

662

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Pyroptosis is a form of lytic programmed cell death initiated by inflammasomes, which detect cytosolic contamination or perturbation. This drives activation of caspase-1 or caspase-11/4/5, which cleave gasdermin D, separating its N-terminal pore-forming domain (PFD) from the C-terminal repressor domain (RD). The PFD oligomerizes to form large pores in the membrane that drive swelling and membrane rupture. Gasdermin D is one of six (in humans) gasdermin family members; several other gasdermins have also been shown to form pores that cause pyroptosis after cleavage to activate their PFDs. One of these, gasdermin E, is activated by caspase-3 cleavage. We review our current understanding of pyroptosis as well as current knowledge of the gasdermin family.

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“…However, since the release of proinflammatory cytokines is also blocked by GSDMD deficiency (Shi et al, 2015), and mice deficient for IL-1R type I, the receptor for both IL-1α and IL-1β are highly resistant to LPS (Joosten et al, 2010), a major role of pyropotosis in sepsis in vivo might still be related to the release of proinflammatory cytokines. The cleavage of GSDMD by caspase-1 may play a role in the release of IL-1β by forming an ion-permeable conduit that can be inhibited by broadly acting channel inhibitors such as lanthanides (La 3+ and Gd 3+ ), before pyroptotic cell death (Russo et al, 2016). Caspase-11 mediated cleavage of pannexin-1 can also trigger the release of intracellular ATP through this non-selective large-pore channel, and the subsequent activation of the purinergic receptor P2X ligand-gated ion channel (P2X7), both critical for caspase-11-mediated pyroptosis (Yang et al, 2015).…”

Section: The Downstream Mechanisms Of Pyroptosismentioning

confidence: 99%

Roles of Caspases in Necrotic Cell Death

Yuan

Najafov

2016

Cell

241

172

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Caspases were originally identified as important mediators of inflammatory response and apoptosis. Recent discoveries, however, have unveiled their roles in mediating and suppressing two regulated forms of necrotic cell death, respectively termed pyroptosis and necroptosis. These recent advances have significantly expanded our understanding of the roles of caspases in regulating development, adult homeostasis and host defense response.

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Active Caspase-1 Induces Plasma Membrane Pores That Precede Pyroptotic Lysis and Are Blocked by Lanthanides

Cited by 149 publications

References 81 publications

Active MLKL triggers the NLRP3 inflammasome in a cell-intrinsic manner

Active MLKL triggers the NLRP3 inflammasome in a cell-intrinsic manner

Gasdermins: Effectors of Pyroptosis

Roles of Caspases in Necrotic Cell Death

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