Activation of PKR by a short-hairpin RNA

Kyle A. Cottrell; Sua Ryu; Helen Donelick; Hung Mai; Addison A. Young; Jackson R. Pierce; Brenda L. Bass; Jason D. Weber

doi:10.1038/s41598-024-74477-3

Activation of PKR by a short-hairpin RNA

Kyle A. Cottrell, Sua Ryu, Helen Donelick, Hung Mai, Addison A. Young, Jackson R. Pierce, Brenda L. Bass, Jason D. Weber

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

Abstract

Recognition of viral infection often relies on the detection of double-stranded RNA (dsRNA), a process that is conserved in many different organisms. In mammals, proteins such as MDA5, RIG-I, OAS, and PKR detect viral dsRNA, but struggle to differentiate between viral and endogenous dsRNA. This study investigates an shRNA targeting DDX54’s potential to activate PKR, a key player in the immune response to dsRNA. Knockdown of DDX54 by a specific shRNA induced robust PKR activation in human cells, even when DDX54 is overexpressed, suggesting an off-target mechanism. Activation of PKR by the shRNA was enhanced by knockdown of ADAR1, a dsRNA binding protein that suppresses PKR activation, indicating a dsRNA-mediated mechanism. In vitro assays confirmed direct PKR activation by the shRNA. These findings emphasize the need for rigorous controls and alternative methods to validate gene function and minimize unintended immune pathway activation.

Original language	English
Article number	23533
Journal	Scientific reports
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41598-024-74477-3
State	Published - Dec 2024

Keywords

Double-stranded RNA
PKR
RNA interference
RNAi
dsRNA

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10.1038/s41598-024-74477-3

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title = "Activation of PKR by a short-hairpin RNA",

abstract = "Recognition of viral infection often relies on the detection of double-stranded RNA (dsRNA), a process that is conserved in many different organisms. In mammals, proteins such as MDA5, RIG-I, OAS, and PKR detect viral dsRNA, but struggle to differentiate between viral and endogenous dsRNA. This study investigates an shRNA targeting DDX54{\textquoteright}s potential to activate PKR, a key player in the immune response to dsRNA. Knockdown of DDX54 by a specific shRNA induced robust PKR activation in human cells, even when DDX54 is overexpressed, suggesting an off-target mechanism. Activation of PKR by the shRNA was enhanced by knockdown of ADAR1, a dsRNA binding protein that suppresses PKR activation, indicating a dsRNA-mediated mechanism. In vitro assays confirmed direct PKR activation by the shRNA. These findings emphasize the need for rigorous controls and alternative methods to validate gene function and minimize unintended immune pathway activation.",

keywords = "Double-stranded RNA, PKR, RNA interference, RNAi, dsRNA",

author = "Cottrell, {Kyle A.} and Sua Ryu and Helen Donelick and Hung Mai and Young, {Addison A.} and Pierce, {Jackson R.} and Bass, {Brenda L.} and Weber, {Jason D.}",

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year = "2024",

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doi = "10.1038/s41598-024-74477-3",

language = "English",

volume = "14",

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T1 - Activation of PKR by a short-hairpin RNA

AU - Cottrell, Kyle A.

AU - Ryu, Sua

AU - Donelick, Helen

AU - Mai, Hung

AU - Young, Addison A.

AU - Pierce, Jackson R.

AU - Bass, Brenda L.

AU - Weber, Jason D.

N1 - Publisher Copyright: © The Author(s) 2024.

PY - 2024/12

Y1 - 2024/12

N2 - Recognition of viral infection often relies on the detection of double-stranded RNA (dsRNA), a process that is conserved in many different organisms. In mammals, proteins such as MDA5, RIG-I, OAS, and PKR detect viral dsRNA, but struggle to differentiate between viral and endogenous dsRNA. This study investigates an shRNA targeting DDX54’s potential to activate PKR, a key player in the immune response to dsRNA. Knockdown of DDX54 by a specific shRNA induced robust PKR activation in human cells, even when DDX54 is overexpressed, suggesting an off-target mechanism. Activation of PKR by the shRNA was enhanced by knockdown of ADAR1, a dsRNA binding protein that suppresses PKR activation, indicating a dsRNA-mediated mechanism. In vitro assays confirmed direct PKR activation by the shRNA. These findings emphasize the need for rigorous controls and alternative methods to validate gene function and minimize unintended immune pathway activation.

AB - Recognition of viral infection often relies on the detection of double-stranded RNA (dsRNA), a process that is conserved in many different organisms. In mammals, proteins such as MDA5, RIG-I, OAS, and PKR detect viral dsRNA, but struggle to differentiate between viral and endogenous dsRNA. This study investigates an shRNA targeting DDX54’s potential to activate PKR, a key player in the immune response to dsRNA. Knockdown of DDX54 by a specific shRNA induced robust PKR activation in human cells, even when DDX54 is overexpressed, suggesting an off-target mechanism. Activation of PKR by the shRNA was enhanced by knockdown of ADAR1, a dsRNA binding protein that suppresses PKR activation, indicating a dsRNA-mediated mechanism. In vitro assays confirmed direct PKR activation by the shRNA. These findings emphasize the need for rigorous controls and alternative methods to validate gene function and minimize unintended immune pathway activation.

KW - Double-stranded RNA

KW - PKR

KW - RNA interference

KW - RNAi

KW - dsRNA

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DO - 10.1038/s41598-024-74477-3

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SN - 2045-2322

VL - 14

JO - Scientific reports

JF - Scientific reports

IS - 1

M1 - 23533

ER -

Activation of PKR by a short-hairpin RNA

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