Xinyuan Li1, Ying Shao1, Xiaojin Sha1, Pu Fang1, Yin-Ming Kuo1, Andrew J Andrews1, Yafeng Li1, William Y Yang1, Massimo Maddaloni1, David W Pascual1, Jin J Luo1, Xiaohua Jiang1, Hong Wang1, Xiaofeng Yang2. 1. From the Centers for Metabolic Disease Research, Cardiovascular Research, and Thrombosis Research (X.L., Y.S., X.S., P.F., Y.L., W.Y.Y., X.J., H.W., X.Y.), Department of Pharmacology (X.L., Y.S., X.S., P.F., Y.L., W.Y.Y., X.J., H.W., X.Y.), and Department of Neurology (J.J.L.), Temple University Lewis Katz School of Medicine, Philadelphia, PA; Department of Cancer Biology, Fox Chase Cancer Center, Temple University Health System, Philadelphia, PA (Y.-M.K., A.J.A.); and Department of Infectious Diseases and Pathology, College of Veterinary Medicine, University of Florida, Gainesville (M.M., D.W.P.). 2. From the Centers for Metabolic Disease Research, Cardiovascular Research, and Thrombosis Research (X.L., Y.S., X.S., P.F., Y.L., W.Y.Y., X.J., H.W., X.Y.), Department of Pharmacology (X.L., Y.S., X.S., P.F., Y.L., W.Y.Y., X.J., H.W., X.Y.), and Department of Neurology (J.J.L.), Temple University Lewis Katz School of Medicine, Philadelphia, PA; Department of Cancer Biology, Fox Chase Cancer Center, Temple University Health System, Philadelphia, PA (Y.-M.K., A.J.A.); and Department of Infectious Diseases and Pathology, College of Veterinary Medicine, University of Florida, Gainesville (M.M., D.W.P.). xfyang@temple.edu.
Abstract
OBJECTIVE: IL-35 (interleukin-35) is an anti-inflammatory cytokine, which inhibits immune responses by inducing regulatory T cells and regulatory B cells and suppressing effector T cells and macrophages. It remains unknown whether atherogenic stimuli induce IL-35 and whether IL-35 inhibits atherogenic lipid-induced endothelial cell (EC) activation and atherosclerosis. EC activation induced by hyperlipidemia stimuli, including lysophosphatidylcholine is considered as an initiation step for monocyte recruitment and atherosclerosis. In this study, we examined the expression of IL-35 during early atherosclerosis and the roles and mechanisms of IL-35 in suppressing lysophosphatidylcholine-induced EC activation. APPROACH AND RESULTS: Using microarray and ELISA, we found that IL-35 and its receptor are significantly induced during early atherosclerosis in the aortas and plasma of ApoE (apolipoprotein E) knockout mice-an atherosclerotic mouse model-and in the plasma of hypercholesterolemic patients. In addition, we found that IL-35 suppresses lysophosphatidylcholine-induced monocyte adhesion to human aortic ECs. Furthermore, our RNA-sequencing analysis shows that IL-35 selectively inhibits lysophosphatidylcholine-induced EC activation-related genes, such as ICAM-1 (intercellular adhesion molecule-1). Mechanistically, using flow cytometry, mass spectrometry, electron spin resonance analyses, and chromatin immunoprecipitation-sequencing analyses, we found that IL-35 blocks lysophosphatidylcholine-induced mitochondrial reactive oxygen species, which are required for the induction of site-specific H3K14 (histone 3 lysine 14) acetylation, increased binding of proinflammatory transcription factor AP-1 in the promoter of ICAM-1, and induction of ICAM-1 transcription in human aortic EC. Finally, IL-35 cytokine therapy suppresses atherosclerotic lesion development in ApoE knockout mice. CONCLUSIONS: IL-35 is induced during atherosclerosis development and inhibits mitochondrial reactive oxygen species-H3K14 acetylation-AP-1-mediated EC activation.
OBJECTIVE: IL-35 (interleukin-35) is an anti-inflammatory cytokine, which inhibits immune responses by inducing regulatory T cells and regulatory B cells and suppressing effector T cells and macrophages. It remains unknown whether atherogenic stimuli induce IL-35 and whether IL-35 inhibits atherogenic lipid-induced endothelial cell (EC) activation and atherosclerosis. EC activation induced by hyperlipidemia stimuli, including lysophosphatidylcholine is considered as an initiation step for monocyte recruitment and atherosclerosis. In this study, we examined the expression of IL-35 during early atherosclerosis and the roles and mechanisms of IL-35 in suppressing lysophosphatidylcholine-induced EC activation. APPROACH AND RESULTS: Using microarray and ELISA, we found that IL-35 and its receptor are significantly induced during early atherosclerosis in the aortas and plasma of ApoE (apolipoprotein E) knockout mice-an atheroscleroticmouse model-and in the plasma of hypercholesterolemicpatients. In addition, we found that IL-35 suppresses lysophosphatidylcholine-induced monocyte adhesion to human aortic ECs. Furthermore, our RNA-sequencing analysis shows that IL-35 selectively inhibits lysophosphatidylcholine-induced EC activation-related genes, such as ICAM-1 (intercellular adhesion molecule-1). Mechanistically, using flow cytometry, mass spectrometry, electron spin resonance analyses, and chromatin immunoprecipitation-sequencing analyses, we found that IL-35 blocks lysophosphatidylcholine-induced mitochondrial reactive oxygen species, which are required for the induction of site-specific H3K14 (histone 3 lysine 14) acetylation, increased binding of proinflammatory transcription factor AP-1 in the promoter of ICAM-1, and induction of ICAM-1 transcription in human aortic EC. Finally, IL-35 cytokine therapy suppresses atherosclerotic lesion development in ApoE knockout mice. CONCLUSIONS: IL-35 is induced during atherosclerosis development and inhibits mitochondrial reactive oxygen species-H3K14 acetylation-AP-1-mediated EC activation.
Authors: Laura A Sena; Sha Li; Amit Jairaman; Murali Prakriya; Teresa Ezponda; David A Hildeman; Chyung-Ru Wang; Paul T Schumacker; Jonathan D Licht; Harris Perlman; Paul J Bryce; Navdeep S Chandel Journal: Immunity Date: 2013-02-15 Impact factor: 31.745
Authors: Ying Yin; Xinyuan Li; Xiaojin Sha; Hang Xi; Ya-Feng Li; Ying Shao; Jietang Mai; Anthony Virtue; Jahaira Lopez-Pastrana; Shu Meng; Douglas G Tilley; M Alexandra Monroy; Eric T Choi; Craig J Thomas; Xiaohua Jiang; Hong Wang; Xiao-Feng Yang Journal: Arterioscler Thromb Vasc Biol Date: 2015-02-19 Impact factor: 8.311
Authors: Joanna Wegrzyn; Ramesh Potla; Yong-Joon Chwae; Naresh B V Sepuri; Qifang Zhang; Thomas Koeck; Marta Derecka; Karol Szczepanek; Magdalena Szelag; Agnieszka Gornicka; Akira Moh; Shadi Moghaddas; Qun Chen; Santha Bobbili; Joanna Cichy; Jozef Dulak; Darren P Baker; Alan Wolfman; Dennis Stuehr; Medhat O Hassan; Xin-Yuan Fu; Narayan Avadhani; Jennifer I Drake; Paul Fawcett; Edward J Lesnefsky; Andrew C Larner Journal: Science Date: 2009-01-08 Impact factor: 47.728
Authors: Ya-Feng Li; Xiao Huang; Xinyuan Li; Ren Gong; Ying Yin; Jun Nelson; Erhe Gao; Hongyu Zhang; Nicholas E Hoffman; Steven R Houser; Muniswamy Madesh; Douglas G Tilley; Eric T Choi; Xiaohua Jiang; Cong-Xin Huang; Hong Wang; Xiao-Feng Yang Journal: Front Biosci (Landmark Ed) Date: 2016-01-01
Authors: Hong S Lu; Ann Marie Schmidt; Robert A Hegele; Nigel Mackman; Daniel J Rader; Christian Weber; Alan Daugherty Journal: Arterioscler Thromb Vasc Biol Date: 2019-12-23 Impact factor: 8.311
Authors: Dong Ni; TingTing Tang; Yifan Lu; Keman Xu; Ying Shao; Fatma Saaoud; Jason Saredy; Lu Liu; Charles Drummer; Yu Sun; Wenhui Hu; Jahaira Lopez-Pastrana; Jin J Luo; Xiaohua Jiang; Eric T Choi; Hong Wang; Xiaofeng Yang Journal: Front Immunol Date: 2021-05-18 Impact factor: 7.561