Human NLRP1 is a sensor for double-stranded RNA

Stefan Bauernfried; Matthias J. Scherr; Andreas Pichlmair; Karl E. Duderstadt; Veit Hornung

doi:10.1126/science.abd0811

Human NLRP1 is a sensor for double-stranded RNA

Stefan Bauernfried
, Matthias J. Scherr
, Andreas Pichlmair
, Karl E. Duderstadt
, Veit Hornung

University of Munich
Max Planck Institute of Biochemistry
German Center for Infection Research (DZIF)

Research output: Contribution to journal › Article › peer-review

255 Scopus citations

Abstract

Inflammasomes function as intracellular sensors of pathogen infection or cellular perturbation and thereby play a central role in numerous diseases. Given the high abundance of NLRP1 in epithelial barrier tissues, we screened a diverse panel of viruses for inflammasome activation in keratinocytes. We identified Semliki Forest virus (SFV), a positive-strand RNA virus, as a potent activator of human but not murine NLRP1B. SFV replication and the associated formation of double-stranded (ds) RNA was required to engage the NLRP1 inflammasome. Moreover, delivery of long dsRNA was sufficient to trigger activation. Biochemical studies revealed that NLRP1 binds dsRNA through its leucine-rich repeat domain, resulting in its NACHT domain gaining adenosine triphosphatase activity. Altogether, these results establish human NLRP1 as a direct sensor for dsRNA and thus RNA virus infection.

Original language	English
Article number	abd0811
Journal	Science
Volume	371
Issue number	6528
DOIs	https://doi.org/10.1126/science.abd0811
State	Published - 29 Jan 2021

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abstract = "Inflammasomes function as intracellular sensors of pathogen infection or cellular perturbation and thereby play a central role in numerous diseases. Given the high abundance of NLRP1 in epithelial barrier tissues, we screened a diverse panel of viruses for inflammasome activation in keratinocytes. We identified Semliki Forest virus (SFV), a positive-strand RNA virus, as a potent activator of human but not murine NLRP1B. SFV replication and the associated formation of double-stranded (ds) RNA was required to engage the NLRP1 inflammasome. Moreover, delivery of long dsRNA was sufficient to trigger activation. Biochemical studies revealed that NLRP1 binds dsRNA through its leucine-rich repeat domain, resulting in its NACHT domain gaining adenosine triphosphatase activity. Altogether, these results establish human NLRP1 as a direct sensor for dsRNA and thus RNA virus infection.",

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T1 - Human NLRP1 is a sensor for double-stranded RNA

AU - Bauernfried, Stefan

AU - Scherr, Matthias J.

AU - Pichlmair, Andreas

AU - Duderstadt, Karl E.

AU - Hornung, Veit

PY - 2021/1/29

Y1 - 2021/1/29

N2 - Inflammasomes function as intracellular sensors of pathogen infection or cellular perturbation and thereby play a central role in numerous diseases. Given the high abundance of NLRP1 in epithelial barrier tissues, we screened a diverse panel of viruses for inflammasome activation in keratinocytes. We identified Semliki Forest virus (SFV), a positive-strand RNA virus, as a potent activator of human but not murine NLRP1B. SFV replication and the associated formation of double-stranded (ds) RNA was required to engage the NLRP1 inflammasome. Moreover, delivery of long dsRNA was sufficient to trigger activation. Biochemical studies revealed that NLRP1 binds dsRNA through its leucine-rich repeat domain, resulting in its NACHT domain gaining adenosine triphosphatase activity. Altogether, these results establish human NLRP1 as a direct sensor for dsRNA and thus RNA virus infection.

AB - Inflammasomes function as intracellular sensors of pathogen infection or cellular perturbation and thereby play a central role in numerous diseases. Given the high abundance of NLRP1 in epithelial barrier tissues, we screened a diverse panel of viruses for inflammasome activation in keratinocytes. We identified Semliki Forest virus (SFV), a positive-strand RNA virus, as a potent activator of human but not murine NLRP1B. SFV replication and the associated formation of double-stranded (ds) RNA was required to engage the NLRP1 inflammasome. Moreover, delivery of long dsRNA was sufficient to trigger activation. Biochemical studies revealed that NLRP1 binds dsRNA through its leucine-rich repeat domain, resulting in its NACHT domain gaining adenosine triphosphatase activity. Altogether, these results establish human NLRP1 as a direct sensor for dsRNA and thus RNA virus infection.

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Human NLRP1 is a sensor for double-stranded RNA

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