Nonself RNA-Sensing Mechanism of RIG-I Helicase and Activation of Antiviral Immune Responses

Kiyohiro Takahasi; Mitsutoshi Yoneyama; Tatsuya Nishihori; Reiko Hirai; Hiroyuki Kumeta; Ryo Narita; Michael Gale; Fuyuhiko Inagaki; Takashi Fujita

doi:10.1016/j.molcel.2007.11.028

Nonself RNA-Sensing Mechanism of RIG-I Helicase and Activation of Antiviral Immune Responses

Kiyohiro Takahasi, Mitsutoshi Yoneyama, Tatsuya Nishihori, Reiko Hirai, Hiroyuki Kumeta, Ryo Narita, Michael Gale, Fuyuhiko Inagaki, Takashi Fujita

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

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Abstract

A DExD/H protein, RIG-I, is critical in innate antiviral responses by sensing viral RNA. Here we show that RIG-I recognizes two distinct viral RNA patterns: double-stranded (ds) and 5′ppp single-stranded (ss) RNA. The binding of RIG-I with dsRNA or 5′ppp ssRNA in the presence of ATP produces a common structure, as suggested by protease digestion. Further analyses demonstrated that the C-terminal domain of RIG-I (CTD) recognizes these RNA patterns and CTD coincides with the autorepression domain. Structural analysis of CTD by NMR spectroscopy in conjunction with mutagenesis revealed that the basic surface of CTD with a characteristic cleft interacts with RIG-I ligands. Our results suggest that the bipartite structure of CTD regulates RIG-I on encountering viral RNA patterns.

Original language	English (US)
Pages (from-to)	428-440
Number of pages	13
Journal	Molecular Cell
Volume	29
Issue number	4
DOIs	https://doi.org/10.1016/j.molcel.2007.11.028
State	Published - Feb 29 2008
Externally published	Yes

Keywords

MOLIMMUNO
RNA

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10.1016/j.molcel.2007.11.028

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title = "Nonself RNA-Sensing Mechanism of RIG-I Helicase and Activation of Antiviral Immune Responses",

abstract = "A DExD/H protein, RIG-I, is critical in innate antiviral responses by sensing viral RNA. Here we show that RIG-I recognizes two distinct viral RNA patterns: double-stranded (ds) and 5′ppp single-stranded (ss) RNA. The binding of RIG-I with dsRNA or 5′ppp ssRNA in the presence of ATP produces a common structure, as suggested by protease digestion. Further analyses demonstrated that the C-terminal domain of RIG-I (CTD) recognizes these RNA patterns and CTD coincides with the autorepression domain. Structural analysis of CTD by NMR spectroscopy in conjunction with mutagenesis revealed that the basic surface of CTD with a characteristic cleft interacts with RIG-I ligands. Our results suggest that the bipartite structure of CTD regulates RIG-I on encountering viral RNA patterns.",

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AU - Takahasi, Kiyohiro

AU - Yoneyama, Mitsutoshi

AU - Nishihori, Tatsuya

AU - Hirai, Reiko

AU - Kumeta, Hiroyuki

AU - Narita, Ryo

AU - Gale, Michael

AU - Inagaki, Fuyuhiko

AU - Fujita, Takashi

PY - 2008/2/29

Y1 - 2008/2/29

N2 - A DExD/H protein, RIG-I, is critical in innate antiviral responses by sensing viral RNA. Here we show that RIG-I recognizes two distinct viral RNA patterns: double-stranded (ds) and 5′ppp single-stranded (ss) RNA. The binding of RIG-I with dsRNA or 5′ppp ssRNA in the presence of ATP produces a common structure, as suggested by protease digestion. Further analyses demonstrated that the C-terminal domain of RIG-I (CTD) recognizes these RNA patterns and CTD coincides with the autorepression domain. Structural analysis of CTD by NMR spectroscopy in conjunction with mutagenesis revealed that the basic surface of CTD with a characteristic cleft interacts with RIG-I ligands. Our results suggest that the bipartite structure of CTD regulates RIG-I on encountering viral RNA patterns.

AB - A DExD/H protein, RIG-I, is critical in innate antiviral responses by sensing viral RNA. Here we show that RIG-I recognizes two distinct viral RNA patterns: double-stranded (ds) and 5′ppp single-stranded (ss) RNA. The binding of RIG-I with dsRNA or 5′ppp ssRNA in the presence of ATP produces a common structure, as suggested by protease digestion. Further analyses demonstrated that the C-terminal domain of RIG-I (CTD) recognizes these RNA patterns and CTD coincides with the autorepression domain. Structural analysis of CTD by NMR spectroscopy in conjunction with mutagenesis revealed that the basic surface of CTD with a characteristic cleft interacts with RIG-I ligands. Our results suggest that the bipartite structure of CTD regulates RIG-I on encountering viral RNA patterns.

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Nonself RNA-Sensing Mechanism of RIG-I Helicase and Activation of Antiviral Immune Responses

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