Sensing of viral and endogenous
            <scp>RNA</scp>
            by
            <scp>ZBP</scp>
            1/
            <scp>DAI</scp>
            induces necroptosis

Maelfait, Jonathan; Liverpool, Layal; Bridgeman, Anne; Ragan, Katherine B.; Upton, Jason W.; Rehwinkel, Jan

doi:10.15252/embj.201796476

Cited by 186 publications

(119 citation statements)

References 70 publications

(120 reference statements)

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“…We and other groups identified ZBP1 as a sensor of viral RNA (Maelfait et al, 2017;Sridharan et al, 2017;Thapa et al, 2016). Our current data bring forward the hypothesis that the detection of endogenous nucleic acids by ZBP1 contributes to inflammatory skin disease.…”

Section: Zbp1 Activation By Endogenous Nucleic Acids Induces Necroptosupporting

confidence: 70%

“…ZBP1 contains two tandem N-terminal Z-form nucleic acid binding (Zα)-domains, which specifically interact with doublestranded (ds) nucleic acid helices in the Z-conformation, including Z-RNA and Z-DNA (Herbert, 2019). Others and our group have shown that engagement of ZBP1 upon virus infection crucially depended on nucleic acid sensing by intact Zα-domains (Maelfait et al, 2017;Sridharan et al, 2017;Thapa et al, 2016). The identity of viral ZBP1 agonists remains uncertain, and viral ribonucleoprotein complexes, RNA genomes, or viral transcripts have been suggested to interact with the Zα-domains of ZBP1 (Guo et al, 2018;Kesavardhana et al, 2017;Maelfait et al, 2017;Sridharan et al, 2017;Thapa et al, 2016;Zhang et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Sensing of endogenous nucleic acids by ZBP1 induces keratinocyte necroptosis and skin inflammation

Devos

Tanghe

Gilbert

et al. 2020

Journal of Experimental Medicine

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Aberrant detection of endogenous nucleic acids by the immune system can cause inflammatory disease. The scaffold function of the signaling kinase RIPK1 limits spontaneous activation of the nucleic acid sensor ZBP1. Consequently, loss of RIPK1 in keratinocytes induces ZBP1-dependent necroptosis and skin inflammation. Whether nucleic acid sensing is required to activate ZBP1 in RIPK1-deficient conditions and which immune pathways are associated with skin disease remained open questions. Using knock-in mice with disrupted ZBP1 nucleic acid–binding activity, we report that sensing of endogenous nucleic acids by ZBP1 is critical in driving skin pathology characterized by antiviral and IL-17 immune responses. Inducing ZBP1 expression by interferons triggers necroptosis in RIPK1-deficient keratinocytes, and epidermis-specific deletion of MLKL prevents disease, demonstrating that cell-intrinsic events cause inflammation. These findings indicate that dysregulated sensing of endogenous nucleic acid by ZBP1 can drive inflammation and may contribute to the pathogenesis of IL-17–driven inflammatory skin conditions such as psoriasis.

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Section: Zbp1 Activation By Endogenous Nucleic Acids Induces Necroptosupporting

confidence: 70%

Section: Introductionmentioning

confidence: 99%

Sensing of endogenous nucleic acids by ZBP1 induces keratinocyte necroptosis and skin inflammation

Devos

Tanghe

Gilbert

et al. 2020

Journal of Experimental Medicine

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“…Notably, DAI has recently been shown to recognize viral RNA in addition to its role in DNA sensing to induce necroptosis (Maelfait et al, 2017; Thapa et al, 2016). The ability of STING to potentiate signals from many of these DNA sensors and bind CDNs places it central to the DNA sensing pathway for viral and bacterial infections.…”

Section: Intracellular Recognition Of Dnamentioning

confidence: 99%

The Role of Nucleic Acid Sensing in Controlling Microbial and Autoimmune Disorders

Matz

Guzman

Goodman

2019

Nucleic Acid Sensing and Immunity - Part B

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Innate immunity, the first line of defense against invading pathogens, is an ancient form of host defense found in all animals, from sponges to humans. During infection, innate immune receptors recognize conserved molecular patterns, such as microbial surface molecules, metabolites produces during infection, or nucleic acids of the microbe’s genome. When initiated, the innate immune response activates a host defense program that leads to the synthesis proteins capable of pathogen killing. In mammals, the induction of cytokines during the innate immune response leads to the recruitment of professional immune cells to the site of infection, leading to an adaptive immune response. While a fully functional innate immune response is crucial for a proper host response and curbing microbial infection, if the innate immune response is dysfunctional and is activated in the absence of infection, autoinflammation and autoimmune disorders can develop. Therefore, it follows that the innate immune response must be tightly controlled to avoid an autoimmune response from host-derived molecules, yet still unencumbered to respond to infection. In this review, we will focus on the innate immune response activated from cytosolic nucleic acids, derived from the microbe or host itself. We will depict how viruses and bacteria activate these nucleic acid sensing pathways and their mechanisms to inhibit the pathways. We will also describe the autoinflammatory and autoimmune disorders that develop when these pathways are hyperactive. Finally, we will discuss gaps in knowledge with regard to innate immune response failure and identify where further research is needed.

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“…A series of gene knockout studies in mice have shown that caspase‐8 and receptor‐interacting protein kinase 1 (RIPK1) inhibit the activation of necroptosis mediated by Z‐DNA binding protein 1 (ZBP1), which is emerging as an important regulator of cell death and inflammatory responses . ZBP1 contains a domain that binds viral and endogenous DNA and RNA molecules that adopt a Z‐form (left‐handed double helix with zigzag pattern) . The involvement of ZBP1 in these experimental skin disease models points to important roles of endogenous nucleic acid species as initiators of skin inflammation.…”

Section: Epidermal Keratinocytes Suppress Inflammation During Normal mentioning

confidence: 99%

“…[74][75][76] ZBP1 contains a domain that binds viral and endogenous DNA and RNA molecules that adopt a Z-form (left-handed double helix with zigzag pattern). [76,77] The involvement of ZBP1 in these experimental skin disease models points to important roles of endogenous nucleic acid species as initiators of skin inflammation. The breakdown of the nucleus during cornification is a candidate starting point of nucleic acid-triggered pro-inflammatory processes.…”

Section: Epidermal Ker Atino C Y Te S Suppre Ss Infl Ammation Durinmentioning

confidence: 99%

Control of cell death‐associated danger signals during cornification prevents autoinflammation of the skin

Eckhart

Tschachler

2018

Experimental Dermatology

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The function of the skin as a barrier to the environment is mainly achieved by the outermost layers of the epidermis. In the granular layer, epidermal keratinocytes undergo the last steps of their terminal differentiation program resulting in cornification. The coordinated conversion of living keratinocytes into corneocytes, the building blocks of the cornified layer, represents a unique form of programmed cell death. Recent studies have identified numerous genes that are specifically expressed in terminally differentiated keratinocytes and, surprisingly, this genetic program does not only include mediators of cornification but also suppressors of pyroptosis, another mode of programmed cell death. Pyroptosis is activated by inflammasomes, leads to the release of interleukin-1 (IL-1) family cytokines, and thereby activates inflammation. In addition, inhibitors of potentially pro-inflammatory proteases and enzymes removing danger-associated cytoplasmic DNA are expressed in differentiated keratinocytes. We propose the concept of cornification as an inherently hazardous process in which damaging side effects are actively suppressed by protective mechanisms. In support of this hypothesis, loss-of-function mutations in epidermal protease inhibitors and IL-1 family antagonists suffice to induce autoinflammation. Similarly, exogenous disturbances of either cornification or its accompanying control mechanisms may be starting points for skin inflammation. Further studies into the relationship between cornification, pyroptosis and other forms of cell death will help to define the initiation phase of inflammatory skin diseases and offer new targets for disease prevention and therapy.

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Sensing of viral and endogenous RNA by ZBP 1/ DAI induces necroptosis

Cited by 186 publications

References 70 publications

Sensing of endogenous nucleic acids by ZBP1 induces keratinocyte necroptosis and skin inflammation

Sensing of endogenous nucleic acids by ZBP1 induces keratinocyte necroptosis and skin inflammation

The Role of Nucleic Acid Sensing in Controlling Microbial and Autoimmune Disorders

Control of cell death‐associated danger signals during cornification prevents autoinflammation of the skin

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