PACT prevents aberrant activation of PKR by endogenous dsRNA without sequestration

Sadeem Ahmad; Tao Zou; Jihee Hwang; Linlin Zhao; Xi Wang; Anton Davydenko; Ilana Buchumenski; Patrick Zhuang; Alyssa R. Fishbein; Diego Capcha-Rodriguez; Aaron Orgel; Erez Y. Levanon; Sua Myong; James Chou; Matthew Meyerson; Sun Hur

doi:10.1038/s41467-025-58433-x

PACT prevents aberrant activation of PKR by endogenous dsRNA without sequestration

Sadeem Ahmad, Tao Zou, Jihee Hwang, Linlin Zhao, Xi Wang, Anton Davydenko, Ilana Buchumenski, Patrick Zhuang, Alyssa R. Fishbein, Diego Capcha-Rodriguez, Aaron Orgel, Erez Y. Levanon, Sua Myong, James Chou, Matthew Meyerson, Sun Hur

The Mina and Everard Goodman Faculty of Life Sciences - at Bar-Ilan University

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

3 Scopus citations

Abstract

The innate immune sensor PKR for double-stranded RNA (dsRNA) is critical for antiviral defense, but its aberrant activation by cellular dsRNA is linked to various diseases. The dsRNA-binding protein PACT plays a critical yet controversial role in this pathway. We show that PACT directly suppresses PKR activation by endogenous dsRNA ligands, such as inverted-repeat Alu RNAs, which robustly activate PKR in the absence of PACT. Instead of competing for dsRNA binding, PACT prevents PKR from scanning along dsRNA—a necessary step for PKR molecules to encounter and phosphorylate each other for activation. While PKR favors longer dsRNA for increased co-occupancy and scanning-mediated activation, longer dsRNA is also more susceptible to PACT-mediated regulation due to increased PACT-PKR co-occupancy. Unlike viral inhibitors that constitutively suppress PKR, this RNA-dependent mechanism allows PACT to fine-tune PKR activation based on dsRNA length and quantity, ensuring self-tolerance without sequestering most cellular dsRNA.

Original language	English
Article number	3325
Number of pages	17
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-58433-x
State	Published - 8 Apr 2025

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Publisher Copyright:
© The Author(s) 2025.

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Ahmad, S., Zou, T., Hwang, J., Zhao, L., Wang, X., Davydenko, A., Buchumenski, I., Zhuang, P., Fishbein, A. R., Capcha-Rodriguez, D., Orgel, A., Levanon, E. Y., Myong, S., Chou, J., Meyerson, M., & Hur, S. (2025). PACT prevents aberrant activation of PKR by endogenous dsRNA without sequestration. Nature Communications, 16(1), Article 3325. https://doi.org/10.1038/s41467-025-58433-x

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abstract = "The innate immune sensor PKR for double-stranded RNA (dsRNA) is critical for antiviral defense, but its aberrant activation by cellular dsRNA is linked to various diseases. The dsRNA-binding protein PACT plays a critical yet controversial role in this pathway. We show that PACT directly suppresses PKR activation by endogenous dsRNA ligands, such as inverted-repeat Alu RNAs, which robustly activate PKR in the absence of PACT. Instead of competing for dsRNA binding, PACT prevents PKR from scanning along dsRNA—a necessary step for PKR molecules to encounter and phosphorylate each other for activation. While PKR favors longer dsRNA for increased co-occupancy and scanning-mediated activation, longer dsRNA is also more susceptible to PACT-mediated regulation due to increased PACT-PKR co-occupancy. Unlike viral inhibitors that constitutively suppress PKR, this RNA-dependent mechanism allows PACT to fine-tune PKR activation based on dsRNA length and quantity, ensuring self-tolerance without sequestering most cellular dsRNA.",

author = "Sadeem Ahmad and Tao Zou and Jihee Hwang and Linlin Zhao and Xi Wang and Anton Davydenko and Ilana Buchumenski and Patrick Zhuang and Fishbein, \{Alyssa R.\} and Diego Capcha-Rodriguez and Aaron Orgel and Levanon, \{Erez Y.\} and Sua Myong and James Chou and Matthew Meyerson and Sun Hur",

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doi = "10.1038/s41467-025-58433-x",

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AU - Ahmad, Sadeem

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AU - Wang, Xi

AU - Davydenko, Anton

AU - Buchumenski, Ilana

AU - Zhuang, Patrick

AU - Fishbein, Alyssa R.

AU - Capcha-Rodriguez, Diego

AU - Orgel, Aaron

AU - Levanon, Erez Y.

AU - Myong, Sua

AU - Chou, James

AU - Meyerson, Matthew

AU - Hur, Sun

PY - 2025/4/8

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N2 - The innate immune sensor PKR for double-stranded RNA (dsRNA) is critical for antiviral defense, but its aberrant activation by cellular dsRNA is linked to various diseases. The dsRNA-binding protein PACT plays a critical yet controversial role in this pathway. We show that PACT directly suppresses PKR activation by endogenous dsRNA ligands, such as inverted-repeat Alu RNAs, which robustly activate PKR in the absence of PACT. Instead of competing for dsRNA binding, PACT prevents PKR from scanning along dsRNA—a necessary step for PKR molecules to encounter and phosphorylate each other for activation. While PKR favors longer dsRNA for increased co-occupancy and scanning-mediated activation, longer dsRNA is also more susceptible to PACT-mediated regulation due to increased PACT-PKR co-occupancy. Unlike viral inhibitors that constitutively suppress PKR, this RNA-dependent mechanism allows PACT to fine-tune PKR activation based on dsRNA length and quantity, ensuring self-tolerance without sequestering most cellular dsRNA.

AB - The innate immune sensor PKR for double-stranded RNA (dsRNA) is critical for antiviral defense, but its aberrant activation by cellular dsRNA is linked to various diseases. The dsRNA-binding protein PACT plays a critical yet controversial role in this pathway. We show that PACT directly suppresses PKR activation by endogenous dsRNA ligands, such as inverted-repeat Alu RNAs, which robustly activate PKR in the absence of PACT. Instead of competing for dsRNA binding, PACT prevents PKR from scanning along dsRNA—a necessary step for PKR molecules to encounter and phosphorylate each other for activation. While PKR favors longer dsRNA for increased co-occupancy and scanning-mediated activation, longer dsRNA is also more susceptible to PACT-mediated regulation due to increased PACT-PKR co-occupancy. Unlike viral inhibitors that constitutively suppress PKR, this RNA-dependent mechanism allows PACT to fine-tune PKR activation based on dsRNA length and quantity, ensuring self-tolerance without sequestering most cellular dsRNA.

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PACT prevents aberrant activation of PKR by endogenous dsRNA without sequestration

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