Norovirus co-opts NINJ1 for selective protein secretion

Jaewon Song; Li Zhang; Seokoh Moon; Ariana Fang; Guoxun Wang; Newsha Gheshm; Skylar A. Loeb; Paul Cao; Joselynn R. Wallace; Mia Madel Alfajaro; Madison S. Strine; Wandy L. Beatty; Amanda M. Jamieson; Robert C. Orchard; Bridget A. Robinson; Timothy J. Nice; Craig B. Wilen; Anthony Orvedahl; Tiffany A. Reese; Sanghyun Lee

doi:10.1126/sciadv.adu7985

Norovirus co-opts NINJ1 for selective protein secretion

Jaewon Song, Li Zhang, Seokoh Moon, Ariana Fang, Guoxun Wang, Newsha Gheshm, Skylar A. Loeb, Paul Cao, Joselynn R. Wallace, Mia Madel Alfajaro, Madison S. Strine, Wandy L. Beatty, Amanda M. Jamieson, Robert C. Orchard, Bridget A. Robinson, Timothy J. Nice, Craig B. Wilen, Anthony Orvedahl, Tiffany A. Reese, Sanghyun Lee

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

Abstract

Plasma membrane rupture by Ninjurin-1 (NINJ1) executes programmed cell death, releasing large cellular damage-associated molecular patterns (DAMPs). However, the regulation and selectivity of NINJ1-mediated DAMP release remain unexplored. Here, we uncover that murine norovirus (MNoV) strategically co-opts NINJ1 to selectively release the intracellular viral protein NS1, while NINJ1-mediated plasma membrane rupture simultaneously bulk-releases various cellular DAMPs. Host caspase-3 cleaves the precursor NS1/2, leading to NS1 secretion via an unconventional pathway. An unbiased CRISPR screen identifies NINJ1 as an essential factor for NS1 secretion. During infection, NINJ1 is recruited to the viral replication site, where it oligomerizes and forms speckled bodies, directly interacting with NS1. Subsequent mutagenesis studies identify critical amino acid residues of NS1 necessary for its interaction with NINJ1 and selective secretion. Genetic ablation or pharmaceutical inhibition of caspase- 3 inhibits oral MNoV infection in mice. This study underscores the co-option of NINJ1 for controlled release of an intracellular viral protein.

Original language	English
Article number	eadu7985
Journal	Science Advances
Volume	11
Issue number	9
DOIs	https://doi.org/10.1126/sciadv.adu7985
State	Published - Feb 28 2025

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Song, J., Zhang, L., Moon, S., Fang, A., Wang, G., Gheshm, N., Loeb, S. A., Cao, P., Wallace, J. R., Alfajaro, M. M., Strine, M. S., Beatty, W. L., Jamieson, A. M., Orchard, R. C., Robinson, B. A., Nice, T. J., Wilen, C. B., Orvedahl, A., Reese, T. A., & Lee, S. (2025). Norovirus co-opts NINJ1 for selective protein secretion. Science Advances, 11(9), Article eadu7985. https://doi.org/10.1126/sciadv.adu7985

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title = "Norovirus co-opts NINJ1 for selective protein secretion",

abstract = "Plasma membrane rupture by Ninjurin-1 (NINJ1) executes programmed cell death, releasing large cellular damage-associated molecular patterns (DAMPs). However, the regulation and selectivity of NINJ1-mediated DAMP release remain unexplored. Here, we uncover that murine norovirus (MNoV) strategically co-opts NINJ1 to selectively release the intracellular viral protein NS1, while NINJ1-mediated plasma membrane rupture simultaneously bulk-releases various cellular DAMPs. Host caspase-3 cleaves the precursor NS1/2, leading to NS1 secretion via an unconventional pathway. An unbiased CRISPR screen identifies NINJ1 as an essential factor for NS1 secretion. During infection, NINJ1 is recruited to the viral replication site, where it oligomerizes and forms speckled bodies, directly interacting with NS1. Subsequent mutagenesis studies identify critical amino acid residues of NS1 necessary for its interaction with NINJ1 and selective secretion. Genetic ablation or pharmaceutical inhibition of caspase- 3 inhibits oral MNoV infection in mice. This study underscores the co-option of NINJ1 for controlled release of an intracellular viral protein.",

author = "Jaewon Song and Li Zhang and Seokoh Moon and Ariana Fang and Guoxun Wang and Newsha Gheshm and Loeb, {Skylar A.} and Paul Cao and Wallace, {Joselynn R.} and Alfajaro, {Mia Madel} and Strine, {Madison S.} and Beatty, {Wandy L.} and Jamieson, {Amanda M.} and Orchard, {Robert C.} and Robinson, {Bridget A.} and Nice, {Timothy J.} and Wilen, {Craig B.} and Anthony Orvedahl and Reese, {Tiffany A.} and Sanghyun Lee",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).",

year = "2025",

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doi = "10.1126/sciadv.adu7985",

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AU - Song, Jaewon

AU - Zhang, Li

AU - Moon, Seokoh

AU - Fang, Ariana

AU - Wang, Guoxun

AU - Gheshm, Newsha

AU - Loeb, Skylar A.

AU - Cao, Paul

AU - Wallace, Joselynn R.

AU - Alfajaro, Mia Madel

AU - Strine, Madison S.

AU - Beatty, Wandy L.

AU - Jamieson, Amanda M.

AU - Orchard, Robert C.

AU - Robinson, Bridget A.

AU - Nice, Timothy J.

AU - Wilen, Craig B.

AU - Orvedahl, Anthony

AU - Reese, Tiffany A.

AU - Lee, Sanghyun

N1 - Publisher Copyright: © 2025 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).

PY - 2025/2/28

Y1 - 2025/2/28

N2 - Plasma membrane rupture by Ninjurin-1 (NINJ1) executes programmed cell death, releasing large cellular damage-associated molecular patterns (DAMPs). However, the regulation and selectivity of NINJ1-mediated DAMP release remain unexplored. Here, we uncover that murine norovirus (MNoV) strategically co-opts NINJ1 to selectively release the intracellular viral protein NS1, while NINJ1-mediated plasma membrane rupture simultaneously bulk-releases various cellular DAMPs. Host caspase-3 cleaves the precursor NS1/2, leading to NS1 secretion via an unconventional pathway. An unbiased CRISPR screen identifies NINJ1 as an essential factor for NS1 secretion. During infection, NINJ1 is recruited to the viral replication site, where it oligomerizes and forms speckled bodies, directly interacting with NS1. Subsequent mutagenesis studies identify critical amino acid residues of NS1 necessary for its interaction with NINJ1 and selective secretion. Genetic ablation or pharmaceutical inhibition of caspase- 3 inhibits oral MNoV infection in mice. This study underscores the co-option of NINJ1 for controlled release of an intracellular viral protein.

AB - Plasma membrane rupture by Ninjurin-1 (NINJ1) executes programmed cell death, releasing large cellular damage-associated molecular patterns (DAMPs). However, the regulation and selectivity of NINJ1-mediated DAMP release remain unexplored. Here, we uncover that murine norovirus (MNoV) strategically co-opts NINJ1 to selectively release the intracellular viral protein NS1, while NINJ1-mediated plasma membrane rupture simultaneously bulk-releases various cellular DAMPs. Host caspase-3 cleaves the precursor NS1/2, leading to NS1 secretion via an unconventional pathway. An unbiased CRISPR screen identifies NINJ1 as an essential factor for NS1 secretion. During infection, NINJ1 is recruited to the viral replication site, where it oligomerizes and forms speckled bodies, directly interacting with NS1. Subsequent mutagenesis studies identify critical amino acid residues of NS1 necessary for its interaction with NINJ1 and selective secretion. Genetic ablation or pharmaceutical inhibition of caspase- 3 inhibits oral MNoV infection in mice. This study underscores the co-option of NINJ1 for controlled release of an intracellular viral protein.

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VL - 11

JO - Science Advances

JF - Science Advances

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Norovirus co-opts NINJ1 for selective protein secretion

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