Targeting macrophage Histone deacetylase 3 stabilizes atherosclerotic lesions

Marten A Hoeksema; Marion JJ Gijbels; Jan Van den Bossche; Saskia van der Velden; Ayestha Sijm; Annette E Neele; Tom Seijkens; J Lauran Stöger; Svenja Meiler; Marieke CS Boshuizen; Geesje M Dallinga‐Thie; Johannes HM Levels; Louis Boon; Shannon E Mullican; Nathanael J Spann; Jack P Cleutjens; Chris K Glass; Mitchell A Lazar; Carlie JM de Vries; Erik AL Biessen; Mat JAP Daemen; Esther Lutgens; Menno PJ de Winther

doi:10.15252/emmm.201404170

EMBO Molecular Medicine (Jul 2014)

Targeting macrophage Histone deacetylase 3 stabilizes atherosclerotic lesions

Marten A Hoeksema,
Marion JJ Gijbels,
Jan Van den Bossche,
Saskia van der Velden,
Ayestha Sijm,
Annette E Neele,
Tom Seijkens,
J Lauran Stöger,
Svenja Meiler,
Marieke CS Boshuizen,
Geesje M Dallinga‐Thie,
Johannes HM Levels,
Louis Boon,
Shannon E Mullican,
Nathanael J Spann,
Jack P Cleutjens,
Chris K Glass,
Mitchell A Lazar,
Carlie JM de Vries,
Erik AL Biessen,
Mat JAP Daemen,
Esther Lutgens,
Menno PJ de Winther

Affiliations

Marten A Hoeksema: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Marion JJ Gijbels: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Jan Van den Bossche: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Saskia van der Velden: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Ayestha Sijm: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Annette E Neele: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Tom Seijkens: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
J Lauran Stöger: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Svenja Meiler: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Marieke CS Boshuizen: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Geesje M Dallinga‐Thie: Department of Vascular and Experimental Vascular Medicine, Academic Medical Center, University of Amsterdam
Johannes HM Levels: Department of Vascular and Experimental Vascular Medicine, Academic Medical Center, University of Amsterdam
Louis Boon: Bioceros BV
Shannon E Mullican: Division of Endocrinology, Diabetes and Metabolism, Department of Medicine, Institute for Diabetes, Obesity and Metabolism, Perelman School of Medicine, University of Pennsylvania
Nathanael J Spann: Department of Cellular and Molecular Medicine, University of California
Jack P Cleutjens: Department of Pathology, Maastricht University
Chris K Glass: Department of Cellular and Molecular Medicine, University of California
Mitchell A Lazar: Division of Endocrinology, Diabetes and Metabolism, Department of Medicine, Institute for Diabetes, Obesity and Metabolism, Perelman School of Medicine, University of Pennsylvania
Carlie JM de Vries: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Erik AL Biessen: Department of Pathology, Maastricht University
Mat JAP Daemen: Department of Pathology, Academic Medical Center, University of Amsterdam
Esther Lutgens: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam
Menno PJ de Winther: Department of Medical Biochemistry, Experimental Vascular Biology, Academic Medical Center, University of Amsterdam

DOI: https://doi.org/10.15252/emmm.201404170
Journal volume & issue: Vol. 6, no. 9
pp. 1124 – 1132

Abstract

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Abstract Macrophages are key immune cells found in atherosclerotic plaques and critically shape atherosclerotic disease development. Targeting the functional repertoire of macrophages may hold novel approaches for future atherosclerosis management. Here, we describe a previously unrecognized role of the epigenomic enzyme Histone deacetylase 3 (Hdac3) in regulating the atherosclerotic phenotype of macrophages. Using conditional knockout mice, we found that myeloid Hdac3 deficiency promotes collagen deposition in atherosclerotic lesions and thus induces a stable plaque phenotype. Also, macrophages presented a switch to anti‐inflammatory wound healing characteristics and showed improved lipid handling. The pro‐fibrotic phenotype was directly linked to epigenetic regulation of the Tgfb1 locus upon Hdac3 deletion, driving smooth muscle cells to increased collagen production. Moreover, in humans, HDAC3 was the sole Hdac upregulated in ruptured atherosclerotic lesions, Hdac3 associated with inflammatory macrophages, and HDAC3 expression inversely correlated with pro‐fibrotic TGFB1 expression. Collectively, we show that targeting the macrophage epigenome can improve atherosclerosis outcome and we identify Hdac3 as a potential novel therapeutic target in cardiovascular disease.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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Abstract

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