Smooth muscle expression of RNA editing enzyme ADAR1 controls activation of the RNA sensor MDA5 in atherosclerosis

Chad S Weldy; Qin Li; João P Monteiro; Tim S Peters; Hongchao Guo; Drew Galls; Wenduo Gu; Paul P Cheng; Markus Ramste; Daniel Li; Brian T Palmisano; Disha Sharma; Matthew D Worssam; Quanyi Zhao; Amruta Bhate; Ramendra K Kundu; Trieu Nguyen; Michal Mokry; Clint L Miller; Sander W van der Laan; Jin Billy Li; Thomas Quertermous

doi:10.1038/s44161-025-00710-5

Smooth muscle expression of RNA editing enzyme ADAR1 controls activation of the RNA sensor MDA5 in atherosclerosis

Chad S Weldy^*
, Qin Li
, João P Monteiro
, Tim S Peters
, Hongchao Guo
, Drew Galls
, Wenduo Gu
, Paul P Cheng
, Markus Ramste
, Daniel Li
, Brian T Palmisano
, Disha Sharma
, Matthew D Worssam
, Quanyi Zhao
, Amruta Bhate
, Ramendra K Kundu
, Trieu Nguyen
, Michal Mokry
, Clint L Miller
, Sander W van der Laan

Jin Billy Li, Thomas Quertermous^*

^*Corresponding author for this work

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

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Abstract

Although genetic risk in coronary artery disease (CAD) is linked to changes in gene expression, recent discoveries have revealed a major role for A-to-I RNA editing in CAD. ADAR1 edits immunogenic double-stranded RNA (dsRNA), preventing activation of the dsRNA sensor MDA5 (IFIH1) and downstream interferon-stimulated gene signaling. Using human plaque analysis and human coronary artery smooth muscle cells (SMCs), here, we show that SMCs uniquely require RNA editing and that MDA5 activation regulates SMC phenotype. In a conditional SMC-specific Adar deletion mouse model on an atherosclerosis-prone background, combined with Ifih1 deletion and single-cell RNA sequencing, we demonstrate that ADAR1 preserves vascular integrity and limits atherosclerosis and calcification by suppressing MDA5 activation. Analysis of the Athero-Express carotid endarterectomy cohort further shows that interferon-stimulated gene expression correlates with SMC modulation, plaque instability and calcification. These findings reveal a fundamental mechanism of CAD, where cell type and context-specific RNA editing modulates genetic risk and vascular disease progression.

Original language	English
Pages (from-to)	1241-1257
Number of pages	17
Journal	Nature Cardiovascular Research
Volume	4
Issue number	10
Early online date	16 Sept 2025
DOIs	https://doi.org/10.1038/s44161-025-00710-5
Publication status	Published - Oct 2025

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Smooth muscle expression of RNA editing enzyme ADAR1 controls activation of the RNA sensor MDA5 in atherosclerosisFinal published version, 27.2 MBLicence: CC BY-NC-ND

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Weldy, C. S., Li, Q., Monteiro, J. P., Peters, T. S., Guo, H., Galls, D., Gu, W., Cheng, P. P., Ramste, M., Li, D., Palmisano, B. T., Sharma, D., Worssam, M. D., Zhao, Q., Bhate, A., Kundu, R. K., Nguyen, T., Mokry, M., Miller, C. L., ... Quertermous, T. (2025). Smooth muscle expression of RNA editing enzyme ADAR1 controls activation of the RNA sensor MDA5 in atherosclerosis. Nature Cardiovascular Research, 4(10), 1241-1257. https://doi.org/10.1038/s44161-025-00710-5

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title = "Smooth muscle expression of RNA editing enzyme ADAR1 controls activation of the RNA sensor MDA5 in atherosclerosis",

abstract = "Although genetic risk in coronary artery disease (CAD) is linked to changes in gene expression, recent discoveries have revealed a major role for A-to-I RNA editing in CAD. ADAR1 edits immunogenic double-stranded RNA (dsRNA), preventing activation of the dsRNA sensor MDA5 (IFIH1) and downstream interferon-stimulated gene signaling. Using human plaque analysis and human coronary artery smooth muscle cells (SMCs), here, we show that SMCs uniquely require RNA editing and that MDA5 activation regulates SMC phenotype. In a conditional SMC-specific Adar deletion mouse model on an atherosclerosis-prone background, combined with Ifih1 deletion and single-cell RNA sequencing, we demonstrate that ADAR1 preserves vascular integrity and limits atherosclerosis and calcification by suppressing MDA5 activation. Analysis of the Athero-Express carotid endarterectomy cohort further shows that interferon-stimulated gene expression correlates with SMC modulation, plaque instability and calcification. These findings reveal a fundamental mechanism of CAD, where cell type and context-specific RNA editing modulates genetic risk and vascular disease progression.",

author = "Weldy, \{Chad S\} and Qin Li and Monteiro, \{Jo{\~a}o P\} and Peters, \{Tim S\} and Hongchao Guo and Drew Galls and Wenduo Gu and Cheng, \{Paul P\} and Markus Ramste and Daniel Li and Palmisano, \{Brian T\} and Disha Sharma and Worssam, \{Matthew D\} and Quanyi Zhao and Amruta Bhate and Kundu, \{Ramendra K\} and Trieu Nguyen and Michal Mokry and Miller, \{Clint L\} and \{van der Laan\}, \{Sander W\} and Li, \{Jin Billy\} and Thomas Quertermous",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = oct,

doi = "10.1038/s44161-025-00710-5",

language = "English",

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Weldy, CS, Li, Q, Monteiro, JP, Peters, TS, Guo, H, Galls, D, Gu, W, Cheng, PP, Ramste, M, Li, D, Palmisano, BT, Sharma, D, Worssam, MD, Zhao, Q, Bhate, A, Kundu, RK, Nguyen, T, Mokry, M, Miller, CL, van der Laan, SW, Li, JB & Quertermous, T 2025, 'Smooth muscle expression of RNA editing enzyme ADAR1 controls activation of the RNA sensor MDA5 in atherosclerosis', Nature Cardiovascular Research, vol. 4, no. 10, pp. 1241-1257. https://doi.org/10.1038/s44161-025-00710-5

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T1 - Smooth muscle expression of RNA editing enzyme ADAR1 controls activation of the RNA sensor MDA5 in atherosclerosis

AU - Weldy, Chad S

AU - Li, Qin

AU - Monteiro, João P

AU - Peters, Tim S

AU - Guo, Hongchao

AU - Galls, Drew

AU - Gu, Wenduo

AU - Cheng, Paul P

AU - Ramste, Markus

AU - Li, Daniel

AU - Palmisano, Brian T

AU - Sharma, Disha

AU - Worssam, Matthew D

AU - Zhao, Quanyi

AU - Bhate, Amruta

AU - Kundu, Ramendra K

AU - Nguyen, Trieu

AU - Mokry, Michal

AU - Miller, Clint L

AU - van der Laan, Sander W

AU - Li, Jin Billy

AU - Quertermous, Thomas

PY - 2025/10

Y1 - 2025/10

N2 - Although genetic risk in coronary artery disease (CAD) is linked to changes in gene expression, recent discoveries have revealed a major role for A-to-I RNA editing in CAD. ADAR1 edits immunogenic double-stranded RNA (dsRNA), preventing activation of the dsRNA sensor MDA5 (IFIH1) and downstream interferon-stimulated gene signaling. Using human plaque analysis and human coronary artery smooth muscle cells (SMCs), here, we show that SMCs uniquely require RNA editing and that MDA5 activation regulates SMC phenotype. In a conditional SMC-specific Adar deletion mouse model on an atherosclerosis-prone background, combined with Ifih1 deletion and single-cell RNA sequencing, we demonstrate that ADAR1 preserves vascular integrity and limits atherosclerosis and calcification by suppressing MDA5 activation. Analysis of the Athero-Express carotid endarterectomy cohort further shows that interferon-stimulated gene expression correlates with SMC modulation, plaque instability and calcification. These findings reveal a fundamental mechanism of CAD, where cell type and context-specific RNA editing modulates genetic risk and vascular disease progression.

AB - Although genetic risk in coronary artery disease (CAD) is linked to changes in gene expression, recent discoveries have revealed a major role for A-to-I RNA editing in CAD. ADAR1 edits immunogenic double-stranded RNA (dsRNA), preventing activation of the dsRNA sensor MDA5 (IFIH1) and downstream interferon-stimulated gene signaling. Using human plaque analysis and human coronary artery smooth muscle cells (SMCs), here, we show that SMCs uniquely require RNA editing and that MDA5 activation regulates SMC phenotype. In a conditional SMC-specific Adar deletion mouse model on an atherosclerosis-prone background, combined with Ifih1 deletion and single-cell RNA sequencing, we demonstrate that ADAR1 preserves vascular integrity and limits atherosclerosis and calcification by suppressing MDA5 activation. Analysis of the Athero-Express carotid endarterectomy cohort further shows that interferon-stimulated gene expression correlates with SMC modulation, plaque instability and calcification. These findings reveal a fundamental mechanism of CAD, where cell type and context-specific RNA editing modulates genetic risk and vascular disease progression.

UR - https://www.scopus.com/pages/publications/105016622079

U2 - 10.1038/s44161-025-00710-5

DO - 10.1038/s44161-025-00710-5

M3 - Article

C2 - 40958051

SN - 2731-0590

VL - 4

SP - 1241

EP - 1257

JO - Nature Cardiovascular Research

JF - Nature Cardiovascular Research

IS - 10

ER -

Smooth muscle expression of RNA editing enzyme ADAR1 controls activation of the RNA sensor MDA5 in atherosclerosis

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