A cis-regulatory element controls expression of histone deacetylase 9 to fine-tune inflammasome-dependent chronic inflammation in atherosclerosis

Yaw Asare; Guangyao Yan; Christina Schlegl; Matthias Prestel; Emiel P C van der Vorst; Abraham J P Teunissen; Arailym Aronova; Federica Tosato; Nawraa Naser; Julio Caputo; Geoffrey Prevot; Anthony Azzun; Benedikt Wefers; Wolfgang Wurst; Melanie Schneider; Ignasi Forne; Kiril Bidzhekov; Ronald Naumann; Sander W van der Laan; Markus Brandhofer; Jiayu Cao; Stefan Roth; Rainer Malik; Steffen Tiedt; Willem J M Mulder; Axel Imhof; Arthur Liesz; Christian Weber; Jürgen Bernhagen; Martin Dichgans

doi:10.1016/j.immuni.2025.01.003

A cis-regulatory element controls expression of histone deacetylase 9 to fine-tune inflammasome-dependent chronic inflammation in atherosclerosis

Yaw Asare^*, Guangyao Yan, Christina Schlegl, Matthias Prestel, Emiel P C van der Vorst, Abraham J P Teunissen, Arailym Aronova, Federica Tosato, Nawraa Naser, Julio Caputo, Geoffrey Prevot, Anthony Azzun, Benedikt Wefers, Wolfgang Wurst, Melanie Schneider, Ignasi Forne, Kiril Bidzhekov, Ronald Naumann, Sander W van der Laan, Markus BrandhoferJiayu Cao, Stefan Roth, Rainer Malik, Steffen Tiedt, Willem J M Mulder, Axel Imhof, Arthur Liesz, Christian Weber, Jürgen Bernhagen, Martin Dichgans^*

^*Corresponding author for this work

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

Abstract

Common genetic variants in a conserved cis-regulatory element (CRE) at histone deacetylase (HDAC)9 are a major risk factor for cardiovascular disease, including stroke and coronary artery disease. Given the consistency of this association and its proinflammatory properties, we examined the mechanisms whereby HDAC9 regulates vascular inflammation. HDAC9 bound and mediated deacetylation of NLRP3 in the NACHT and LRR domains leading to inflammasome activation and lytic cell death. Targeted deletion of the critical CRE in mice increased Hdac9 expression in myeloid cells to exacerbate inflammasome-dependent chronic inflammation. In human carotid endarterectomy samples, increased HDAC9 expression was associated with atheroprogression and clinical plaque instability. Incorporation of TMP195, a class IIa HDAC inhibitor, into lipoprotein-based nanoparticles to target HDAC9 at the site of myeloid-driven vascular inflammation stabilized atherosclerotic plaques, implying a lower risk of plaque rupture and cardiovascular events. Our findings link HDAC9 to atherogenic inflammation and provide a paradigm for anti-inflammatory therapeutics for atherosclerosis.

Original language	English
Pages (from-to)	555-567.e9
Journal	Immunity
Volume	58
Issue number	3
Early online date	22 Jan 2025
DOIs	https://doi.org/10.1016/j.immuni.2025.01.003
Publication status	Published - 11 Mar 2025

Keywords

atherosclerosis
cis-regulatory element
GWAS
HDAC9
inflammasome
inflammation
nanobiologics
NLRP3
stroke
therapeutics

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A cis-regulatory element controls expression of histone deacetylase 9 to fine-tune inflammasome-dependent chronic inflammation in atherosclerosisFinal published version, 8.61 MBLicence: CC BY

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Asare, Y., Yan, G., Schlegl, C., Prestel, M., van der Vorst, E. P. C., Teunissen, A. J. P., Aronova, A., Tosato, F., Naser, N., Caputo, J., Prevot, G., Azzun, A., Wefers, B., Wurst, W., Schneider, M., Forne, I., Bidzhekov, K., Naumann, R., van der Laan, S. W., ... Dichgans, M. (2025). A cis-regulatory element controls expression of histone deacetylase 9 to fine-tune inflammasome-dependent chronic inflammation in atherosclerosis. Immunity, 58(3), 555-567.e9. https://doi.org/10.1016/j.immuni.2025.01.003

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title = "A cis-regulatory element controls expression of histone deacetylase 9 to fine-tune inflammasome-dependent chronic inflammation in atherosclerosis",

abstract = "Common genetic variants in a conserved cis-regulatory element (CRE) at histone deacetylase (HDAC)9 are a major risk factor for cardiovascular disease, including stroke and coronary artery disease. Given the consistency of this association and its proinflammatory properties, we examined the mechanisms whereby HDAC9 regulates vascular inflammation. HDAC9 bound and mediated deacetylation of NLRP3 in the NACHT and LRR domains leading to inflammasome activation and lytic cell death. Targeted deletion of the critical CRE in mice increased Hdac9 expression in myeloid cells to exacerbate inflammasome-dependent chronic inflammation. In human carotid endarterectomy samples, increased HDAC9 expression was associated with atheroprogression and clinical plaque instability. Incorporation of TMP195, a class IIa HDAC inhibitor, into lipoprotein-based nanoparticles to target HDAC9 at the site of myeloid-driven vascular inflammation stabilized atherosclerotic plaques, implying a lower risk of plaque rupture and cardiovascular events. Our findings link HDAC9 to atherogenic inflammation and provide a paradigm for anti-inflammatory therapeutics for atherosclerosis.",

keywords = "atherosclerosis, cis-regulatory element, GWAS, HDAC9, inflammasome, inflammation, nanobiologics, NLRP3, stroke, therapeutics",

author = "Yaw Asare and Guangyao Yan and Christina Schlegl and Matthias Prestel and {van der Vorst}, {Emiel P C} and Teunissen, {Abraham J P} and Arailym Aronova and Federica Tosato and Nawraa Naser and Julio Caputo and Geoffrey Prevot and Anthony Azzun and Benedikt Wefers and Wolfgang Wurst and Melanie Schneider and Ignasi Forne and Kiril Bidzhekov and Ronald Naumann and {van der Laan}, {Sander W} and Markus Brandhofer and Jiayu Cao and Stefan Roth and Rainer Malik and Steffen Tiedt and Mulder, {Willem J M} and Axel Imhof and Arthur Liesz and Christian Weber and J{\"u}rgen Bernhagen and Martin Dichgans",

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

year = "2025",

month = mar,

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doi = "10.1016/j.immuni.2025.01.003",

language = "English",

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Asare, Y, Yan, G, Schlegl, C, Prestel, M, van der Vorst, EPC, Teunissen, AJP, Aronova, A, Tosato, F, Naser, N, Caputo, J, Prevot, G, Azzun, A, Wefers, B, Wurst, W, Schneider, M, Forne, I, Bidzhekov, K, Naumann, R, van der Laan, SW, Brandhofer, M, Cao, J, Roth, S, Malik, R, Tiedt, S, Mulder, WJM, Imhof, A, Liesz, A, Weber, C, Bernhagen, J & Dichgans, M 2025, 'A cis-regulatory element controls expression of histone deacetylase 9 to fine-tune inflammasome-dependent chronic inflammation in atherosclerosis', Immunity, vol. 58, no. 3, pp. 555-567.e9. https://doi.org/10.1016/j.immuni.2025.01.003

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AU - Asare, Yaw

AU - Yan, Guangyao

AU - Schlegl, Christina

AU - Prestel, Matthias

AU - van der Vorst, Emiel P C

AU - Teunissen, Abraham J P

AU - Aronova, Arailym

AU - Tosato, Federica

AU - Naser, Nawraa

AU - Caputo, Julio

AU - Prevot, Geoffrey

AU - Azzun, Anthony

AU - Wefers, Benedikt

AU - Wurst, Wolfgang

AU - Schneider, Melanie

AU - Forne, Ignasi

AU - Bidzhekov, Kiril

AU - Naumann, Ronald

AU - van der Laan, Sander W

AU - Brandhofer, Markus

AU - Cao, Jiayu

AU - Roth, Stefan

AU - Malik, Rainer

AU - Tiedt, Steffen

AU - Mulder, Willem J M

AU - Imhof, Axel

AU - Liesz, Arthur

AU - Weber, Christian

AU - Bernhagen, Jürgen

AU - Dichgans, Martin

PY - 2025/3/11

Y1 - 2025/3/11

N2 - Common genetic variants in a conserved cis-regulatory element (CRE) at histone deacetylase (HDAC)9 are a major risk factor for cardiovascular disease, including stroke and coronary artery disease. Given the consistency of this association and its proinflammatory properties, we examined the mechanisms whereby HDAC9 regulates vascular inflammation. HDAC9 bound and mediated deacetylation of NLRP3 in the NACHT and LRR domains leading to inflammasome activation and lytic cell death. Targeted deletion of the critical CRE in mice increased Hdac9 expression in myeloid cells to exacerbate inflammasome-dependent chronic inflammation. In human carotid endarterectomy samples, increased HDAC9 expression was associated with atheroprogression and clinical plaque instability. Incorporation of TMP195, a class IIa HDAC inhibitor, into lipoprotein-based nanoparticles to target HDAC9 at the site of myeloid-driven vascular inflammation stabilized atherosclerotic plaques, implying a lower risk of plaque rupture and cardiovascular events. Our findings link HDAC9 to atherogenic inflammation and provide a paradigm for anti-inflammatory therapeutics for atherosclerosis.

AB - Common genetic variants in a conserved cis-regulatory element (CRE) at histone deacetylase (HDAC)9 are a major risk factor for cardiovascular disease, including stroke and coronary artery disease. Given the consistency of this association and its proinflammatory properties, we examined the mechanisms whereby HDAC9 regulates vascular inflammation. HDAC9 bound and mediated deacetylation of NLRP3 in the NACHT and LRR domains leading to inflammasome activation and lytic cell death. Targeted deletion of the critical CRE in mice increased Hdac9 expression in myeloid cells to exacerbate inflammasome-dependent chronic inflammation. In human carotid endarterectomy samples, increased HDAC9 expression was associated with atheroprogression and clinical plaque instability. Incorporation of TMP195, a class IIa HDAC inhibitor, into lipoprotein-based nanoparticles to target HDAC9 at the site of myeloid-driven vascular inflammation stabilized atherosclerotic plaques, implying a lower risk of plaque rupture and cardiovascular events. Our findings link HDAC9 to atherogenic inflammation and provide a paradigm for anti-inflammatory therapeutics for atherosclerosis.

KW - atherosclerosis

KW - cis-regulatory element

KW - GWAS

KW - HDAC9

KW - inflammasome

KW - inflammation

KW - nanobiologics

KW - NLRP3

KW - stroke

KW - therapeutics

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U2 - 10.1016/j.immuni.2025.01.003

DO - 10.1016/j.immuni.2025.01.003

M3 - Article

C2 - 39879983

SN - 1074-7613

VL - 58

SP - 555-567.e9

JO - Immunity

JF - Immunity

IS - 3

ER -

A cis-regulatory element controls expression of histone deacetylase 9 to fine-tune inflammasome-dependent chronic inflammation in atherosclerosis

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