Unified mechanisms for self-RNA recognition by RIG-I Singleton-Merten syndrome variants

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Abstract

The innate immune sensor retinoic acid-inducible gene I (RIG-I) detects cytosolic viral RNA and requires a conformational change caused by both ATP and RNA binding to induce an active signaling state and to trigger an immune response. Previously, we showed that ATP hydrolysis removes RIG-I from lower-affinity self-RNAs ( Lässig et al., 2015), revealing how ATP turnover helps RIG-I distinguish viral from self-RNA and explaining why a mutation in a motif that slows down ATP hydrolysis causes the autoimmune disease Singleton-Merten syndrome (SMS). Here we show that a different, mechanistically unexplained SMS variant, C268F, which is localized in the ATP-binding P-loop, can signal independently of ATP but is still dependent on RNA. The structure of RIG-I C268F in complex with double-stranded RNA reveals that C268F helps induce a structural conformation in RIG-I that is similar to that induced by ATP. Our results uncover an unexpected mechanism to explain how a mutation in a P-loop ATPase can induce a gain-of-function ATP state in the absence of ATP.

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Structural basis for the activation of innate immune pattern-recognition receptor RIG-I by viral RNA.

Eva Kowalinski, Thomas Lunardi, Andrew A. McCarthy … (2011)

RIG-I is a key innate immune pattern-recognition receptor that triggers interferon expression upon detection of intracellular 5'triphosphate double-stranded RNA (5'ppp-dsRNA) of viral origin. RIG-I comprises N-terminal caspase activation and recruitment domains (CARDs), a DECH helicase, and a C-terminal domain (CTD). We present crystal structures of the ligand-free, autorepressed, and RNA-bound, activated states of RIG-I. Inactive RIG-I has an open conformation with the CARDs sequestered by a helical domain inserted between the two helicase moieties. ATP and dsRNA binding induce a major rearrangement to a closed conformation in which the helicase and CTD bind the blunt end 5'ppp-dsRNA with perfect complementarity but incompatibly with continued CARD binding. We propose that after initial binding of 5'ppp-dsRNA to the flexibly linked CTD, co-operative tight binding of ATP and RNA to the helicase domain liberates the CARDs for downstream signaling. These findings significantly advance our molecular understanding of the activation of innate immune signaling helicases. Copyright © 2011 Elsevier Inc. All rights reserved.

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Gain-of-function mutations in IFIH1 cause a spectrum of human disease phenotypes associated with upregulated type I interferon signaling

Gillian I Rice, Yoandris del Toro Duany, Emma M Jenkinson … (2014)

The type I interferon system is integral to human antiviral immunity. However, inappropriate stimulation or defective negative regulation of this system can lead to inflammatory disease. We sought to determine the molecular basis of genetically uncharacterized cases of the type I interferonopathy Aicardi-Goutières syndrome, and of other patients with undefined neurological and immunological phenotypes also demonstrating an upregulated type I interferon response. We found that heterozygous mutations in the cytosolic double-stranded RNA receptor gene IFIH1 (MDA5) cause a spectrum of neuro-immunological features consistently associated with an enhanced interferon state. Cellular and biochemical assays indicate that these mutations confer a gain-of-function - so that mutant IFIH1 binds RNA more avidly, leading to increased baseline and ligand-induced interferon signaling. Our results demonstrate that aberrant sensing of nucleic acids can cause immune upregulation.

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A genome-wide association study of nonsynonymous SNPs identifies a type 1 diabetes locus in the interferon-induced helicase (IFIH1) region.

Deborah J Smyth, Jason D. Cooper, Rebecca Bailey … (2006)

In this study we report convincing statistical support for a sixth type 1 diabetes (T1D) locus in the innate immunity viral RNA receptor gene region IFIH1 (also known as mda-5 or Helicard) on chromosome 2q24.3. We found the association in an interim analysis of a genome-wide nonsynonymous SNP (nsSNP) scan, and we validated it in a case-control collection and replicated it in an independent family collection. In 4,253 cases, 5,842 controls and 2,134 parent-child trio genotypes, the risk ratio for the minor allele of the nsSNP rs1990760 A --> G (A946T) was 0.86 (95% confidence interval = 0.82-0.90) at P = 1.42 x 10(-10).

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Author and article information

Contributors

Charlotte Lässig:

ORCID: http://orcid.org/0000-0001-6253-7880

Jacob Lucián Gorenflos López

Sebastian Michalski

Karl-Peter Hopfner:

ORCID: http://orcid.org/0000-0002-4528-8357

Stephen C Kowalczykowski: Role: Reviewing Editor

John Kuriyan: Role: Senior Editor

Journal

Journal ID (nlm-ta): eLife

Journal ID (iso-abbrev): Elife

Journal ID (publisher-id): eLife

Title: eLife

Publisher: eLife Sciences Publications, Ltd

ISSN (Electronic): 2050-084X

Publication date (Electronic, pub): 26 July 2018

Publication date Collection: 2018

Volume: 7

Electronic Location Identifier: e38958

Affiliations

[1 ]deptDepartment of Biochemistry Ludwig-Maximilians-Universität München MunichGermany

[2 ]Gene Center, Ludwig-Maximilians-Universität München MunichGermany

[3 ]Center for Integrated Protein Science Munich MunichGermany

University of California, Davis United States

University of California, Berkeley United States

University of California, Davis United States

Author information

Charlotte Lässig http://orcid.org/0000-0001-6253-7880

Katja Lammens https://orcid.org/0000-0002-4438-1381

Karl-Peter Hopfner http://orcid.org/0000-0002-4528-8357

Article

Publisher ID: 38958

DOI: 10.7554/eLife.38958

PMC ID: 6086658

PubMed ID: 30047865

SO-VID: 0a89e891-6f1d-4658-87f9-90c9a7cd02fc

License:

This article is distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use and redistribution provided that the original author and source are credited.

History

Date received : 07 June 2018

Date accepted : 24 July 2018

Funding

Funded by: FundRef http://dx.doi.org/10.13039/501100004563, Bayerisches Staatsministerium für Bildung und Kultus, Wissenschaft und Kunst;

Award ID: BioSysNet

Award Recipient : Karl-Peter Hopfner

Funded by: FundRef http://dx.doi.org/10.13039/501100001659, Deutsche Forschungsgemeinschaft;

Award ID: CIPSM

Award Recipient : Karl-Peter Hopfner

Funded by: FundRef http://dx.doi.org/10.13039/501100001659, Deutsche Forschungsgemeinschaft;

Award ID: HO2489/8

Award Recipient : Karl-Peter Hopfner

Funded by: FundRef http://dx.doi.org/10.13039/501100001659, Deutsche Forschungsgemeinschaft;

Award ID: CRC1054 project B02

Award Recipient : Katja Lammens

Funded by: FundRef http://dx.doi.org/10.13039/501100001659, Deutsche Forschungsgemeinschaft;

Award ID: CRC/TRR 237

Award Recipient : Karl-Peter Hopfner

The funders had no role in study design, data collection and interpretation, or the decision to submit the work for publication.

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Author impact statement RIG-I Singleton-Merten syndrome mutations either mimic or freeze the protein in an ATP-bound state and lead to autoimmune signalling through a gain-of-function recognition of self-RNA.

ScienceOpen disciplines: Life sciences

Keywords: rig-i,rlr,innate immune system,atpase domain,autoimmune response/disease,singleton-merten syndrome,human

Data availability:

ScienceOpen disciplines: Life sciences

Keywords: rig-i, rlr, innate immune system, atpase domain, autoimmune response/disease, singleton-merten syndrome, human

Unified mechanisms for self-RNA recognition by RIG-I Singleton-Merten syndrome variants

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Most cited references 28

Structural basis for the activation of innate immune pattern-recognition receptor RIG-I by viral RNA.

Gain-of-function mutations in IFIH1 cause a spectrum of human disease phenotypes associated with upregulated type I interferon signaling

A genome-wide association study of nonsynonymous SNPs identifies a type 1 diabetes locus in the interferon-induced helicase (IFIH1) region.

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