IRF3 inhibits nuclear translocation of NF-κB to prevent viral inflammation

Sonam Popli; Sukanya Chakravarty; Shumin Fan; Anna Glanz; Siddhesh Aras; Laura E. Nagy; Ganes C. Sen; Ritu Chakravarti; Saurabh Chattopadhyay

doi:10.1073/pnas.2121385119

IRF3 inhibits nuclear translocation of NF-κB to prevent viral inflammation

Sonam Popli
, Sukanya Chakravarty
, Shumin Fan
, Anna Glanz
, Siddhesh Aras
, Laura E. Nagy
, Ganes C. Sen
, Ritu Chakravarti
, Saurabh Chattopadhyay

Producción científica: Article › revisión exhaustiva

44 Citas (Scopus)

Resumen

Interferon (IFN) regulatory factor 3 (IRF3) is a transcription factor activated by phosphorylation in the cytoplasm of a virus-infected cell; by translocating to the nucleus, it induces transcription of IFN-β and other antiviral genes. We have previously reported IRF3 can also be activated, as a proapoptotic factor, by its linear polyubiquitination mediated by the RIG-I pathway. Both transcriptional and apoptotic functions of IRF3 contribute to its antiviral effect. Here, we report a nontranscriptional function of IRF3, namely, the repression of IRF3-mediated NF-κB activity (RIKA), which attenuated viral activation of NF-κB and the resultant inflammatory gene induction. In Irf3^―/―mice, consequently, Sendai virus infection caused enhanced inflammation in the lungs. Mechanistically, RIKA was mediated by the direct binding of IRF3 to the p65 subunit of NF-κB in the cytoplasm, which prevented its nuclear import. A mutant IRF3 defective in both the transcriptional and the apoptotic activities was active in RIKA and inhibited virus replication. Our results demonstrated IRF3 deployed a three-pronged attack on virus replication and the accompanying inflammation.

Idioma original	English
Número de artículo	e2121385119
Publicación	Proceedings of the National Academy of Sciences of the United States of America
Volumen	119
N.º	37
DOI	https://doi.org/10.1073/pnas.2121385119
Estado	Published - sept 13 2022

Nota bibliográfica

Publisher Copyright:
Copyright © 2022 the Author(s). Published by PNAS.

Financiación

ACKNOWLEDGMENTS. This work was supported partly by the NIH (Grants AI155545, AI165521, AA026017, and AI153496 [to S. Chattopadhyay], and AA027456 [to L.E.N., G.C.S., and S. Chattopadhyay]); Medical Research Society (S. Chattopadhyay), and the University of Toledo College of Medicine and Life Sciences (S. Chattopadhyay and R.C.). We thank Adolfo Garćıa-Sastre, Jacob Yount, and Travis Taylor for the critical reagents and resources used in the study. The following reagents were obtained through BEI Resources, National Institute of Allergy and Infectious Diseases, NIH: macrophage cell line derived from wildtype mice (NR-9456), Irf3 knockout mice (NR-15635), and recombinant murine coronavirus strain icA59 (NR-43000). We thank Kale Bandy for help with editing the manuscript. This work was supported partly by the NIH (Grants AI155545, AI165521, AA026017, and AI153496 [to S. Chattopadhyay], and AA027456 [to L.E.N., G.C.S., and S. Chattopadhyay]); Medical Research Society (S. Chattopadhyay), and the University of Toledo College of Medicine and Life Sciences (S. Chattopadhyay and R.C.). We thank Adolfo García-Sastre, Jacob Yount, and Travis Taylor for the critical reagents and resources used in the study. The following reagents were obtained through BEI Resources, National Institute of Allergy and Infectious Diseases, NIH: macrophage cell line derived from wild-type mice (NR-9456), Irf3 knockout mice (NR-15635), and recombinant murine coronavirus strain icA59 (NR-43000). We thank Kale Bandy for help with editing the manuscript.

Financiadores	Número del financiador
BEI Resources
National Society of Medical Research
National Institutes of Health (NIH)	AA026017, AA027456, AI153496, AI165521
National Institute of Allergy and Infectious Diseases	NR-43000, R01AI155545, NR-15635, NR-9456
University of Toledo College of Medicine and Life Sciences

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title = "IRF3 inhibits nuclear translocation of NF-κB to prevent viral inflammation",

abstract = "Interferon (IFN) regulatory factor 3 (IRF3) is a transcription factor activated by phosphorylation in the cytoplasm of a virus-infected cell; by translocating to the nucleus, it induces transcription of IFN-β and other antiviral genes. We have previously reported IRF3 can also be activated, as a proapoptotic factor, by its linear polyubiquitination mediated by the RIG-I pathway. Both transcriptional and apoptotic functions of IRF3 contribute to its antiviral effect. Here, we report a nontranscriptional function of IRF3, namely, the repression of IRF3-mediated NF-κB activity (RIKA), which attenuated viral activation of NF-κB and the resultant inflammatory gene induction. In Irf3―/―mice, consequently, Sendai virus infection caused enhanced inflammation in the lungs. Mechanistically, RIKA was mediated by the direct binding of IRF3 to the p65 subunit of NF-κB in the cytoplasm, which prevented its nuclear import. A mutant IRF3 defective in both the transcriptional and the apoptotic activities was active in RIKA and inhibited virus replication. Our results demonstrated IRF3 deployed a three-pronged attack on virus replication and the accompanying inflammation.",

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author = "Sonam Popli and Sukanya Chakravarty and Shumin Fan and Anna Glanz and Siddhesh Aras and Nagy, \{Laura E.\} and Sen, \{Ganes C.\} and Ritu Chakravarti and Saurabh Chattopadhyay",

note = "Publisher Copyright: Copyright {\textcopyright} 2022 the Author(s). Published by PNAS.",

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AU - Popli, Sonam

AU - Chakravarty, Sukanya

AU - Fan, Shumin

AU - Glanz, Anna

AU - Aras, Siddhesh

AU - Nagy, Laura E.

AU - Sen, Ganes C.

AU - Chakravarti, Ritu

AU - Chattopadhyay, Saurabh

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Y1 - 2022/9/13

N2 - Interferon (IFN) regulatory factor 3 (IRF3) is a transcription factor activated by phosphorylation in the cytoplasm of a virus-infected cell; by translocating to the nucleus, it induces transcription of IFN-β and other antiviral genes. We have previously reported IRF3 can also be activated, as a proapoptotic factor, by its linear polyubiquitination mediated by the RIG-I pathway. Both transcriptional and apoptotic functions of IRF3 contribute to its antiviral effect. Here, we report a nontranscriptional function of IRF3, namely, the repression of IRF3-mediated NF-κB activity (RIKA), which attenuated viral activation of NF-κB and the resultant inflammatory gene induction. In Irf3―/―mice, consequently, Sendai virus infection caused enhanced inflammation in the lungs. Mechanistically, RIKA was mediated by the direct binding of IRF3 to the p65 subunit of NF-κB in the cytoplasm, which prevented its nuclear import. A mutant IRF3 defective in both the transcriptional and the apoptotic activities was active in RIKA and inhibited virus replication. Our results demonstrated IRF3 deployed a three-pronged attack on virus replication and the accompanying inflammation.

AB - Interferon (IFN) regulatory factor 3 (IRF3) is a transcription factor activated by phosphorylation in the cytoplasm of a virus-infected cell; by translocating to the nucleus, it induces transcription of IFN-β and other antiviral genes. We have previously reported IRF3 can also be activated, as a proapoptotic factor, by its linear polyubiquitination mediated by the RIG-I pathway. Both transcriptional and apoptotic functions of IRF3 contribute to its antiviral effect. Here, we report a nontranscriptional function of IRF3, namely, the repression of IRF3-mediated NF-κB activity (RIKA), which attenuated viral activation of NF-κB and the resultant inflammatory gene induction. In Irf3―/―mice, consequently, Sendai virus infection caused enhanced inflammation in the lungs. Mechanistically, RIKA was mediated by the direct binding of IRF3 to the p65 subunit of NF-κB in the cytoplasm, which prevented its nuclear import. A mutant IRF3 defective in both the transcriptional and the apoptotic activities was active in RIKA and inhibited virus replication. Our results demonstrated IRF3 deployed a three-pronged attack on virus replication and the accompanying inflammation.

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IRF3 inhibits nuclear translocation of NF-κB to prevent viral inflammation

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