Chronic skin inflammation accelerates macrophage cholesterol crystal formation and atherosclerosis
Yvonne Baumer, Qimin Ng, Gregory E. Sanda, Amit K. Dey, Heather L. Teague, Alexander V. Sorokin, Pradeep K. Dagur, Joanna I. Silverman, Charlotte L. Harrington, Justin A. Rodante, Shawn M. Rose, Nevin J. Varghese, Agastya D. Belur, Aditya Goyal, Joel M. Gelfand, Danielle A. Springer, Christopher K.E. Bleck, Crystal L. Thomas, Zu-Xi Yu, Mårten C.G. Winge, Howard S. Kruth, M. Peter Marinkovich, Aditya A. Joshi, Martin P. Playford, Nehal N. Mehta
Yvonne Baumer, Qimin Ng, Gregory E. Sanda, Amit K. Dey, Heather L. Teague, Alexander V. Sorokin, Pradeep K. Dagur, Joanna I. Silverman, Charlotte L. Harrington, Justin A. Rodante, Shawn M. Rose, Nevin J. Varghese, Agastya D. Belur, Aditya Goyal, Joel M. Gelfand, Danielle A. Springer, Christopher K.E. Bleck, Crystal L. Thomas, Zu-Xi Yu, Mårten C.G. Winge, Howard S. Kruth, M. Peter Marinkovich, Aditya A. Joshi, Martin P. Playford, Nehal N. Mehta
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Research Article Cardiology Inflammation

Chronic skin inflammation accelerates macrophage cholesterol crystal formation and atherosclerosis

Abstract

Inflammation is critical to atherogenesis. Psoriasis is a chronic inflammatory skin disease that accelerates atherosclerosis in humans and provides a compelling model to understand potential pathways linking these diseases. A murine model capturing the vascular and metabolic diseases in psoriasis would accelerate our understanding and provide a platform to test emerging therapies. We aimed to characterize a new murine model of skin inflammation (Rac1V12) from a cardiovascular standpoint to identify novel atherosclerotic signaling pathways modulated in chronic skin inflammation. The RacV12 psoriasis mouse resembled the human disease state, including presence of systemic inflammation, dyslipidemia, and cardiometabolic dysfunction. Psoriasis macrophages had a proatherosclerotic phenotype with increased lipid uptake and foam cell formation, and also showed a 6-fold increase in cholesterol crystal formation. We generated a triple-genetic K14-RacV12–/+/Srb1–/–/ApoER61H/H mouse and confirmed psoriasis accelerates atherogenesis (~7-fold increase). Finally, we noted a 60% reduction in superoxide dismutase 2 (SOD2) expression in human psoriasis macrophages. When SOD2 activity was restored in macrophages, their proatherogenic phenotype reversed. We demonstrate that the K14-RacV12 murine model captures the cardiometabolic dysfunction and accelerates vascular disease observed in chronic inflammation and that skin inflammation induces a proatherosclerotic macrophage phenotype with impaired SOD2 function, which associated with accelerated atherogenesis.

Authors

Yvonne Baumer, Qimin Ng, Gregory E. Sanda, Amit K. Dey, Heather L. Teague, Alexander V. Sorokin, Pradeep K. Dagur, Joanna I. Silverman, Charlotte L. Harrington, Justin A. Rodante, Shawn M. Rose, Nevin J. Varghese, Agastya D. Belur, Aditya Goyal, Joel M. Gelfand, Danielle A. Springer, Christopher K.E. Bleck, Crystal L. Thomas, Zu-Xi Yu, Mårten C.G. Winge, Howard S. Kruth, M. Peter Marinkovich, Aditya A. Joshi, Martin P. Playford, Nehal N. Mehta

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Figure 3

Psoriasis-induced chronic inflammation accelerates atherogenesis.

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Psoriasis-induced chronic inflammation accelerates atherogenesis. K14-Ra...
K14-Rac1V12–/+ mice were backcrossed into Srb1–/–/ApoeR61H/H mice and an atherosclerosis study conducted. (A) Psoriasis severity of Srb1–/–/ApoeR61H/H/K14-Rac1V12–/+ mice increased due to HFD for 2 weeks. After 2 weeks of HFD, detection of atherosclerotic plaques in whole aorta (B, images presented of the aortic arch) and aortic root sections (C) using Oil Red O staining showed a significant increase in atherosclerosis development in psoriatic mice vs. LMC mice. (D) Macrophage (MOMA-2), smooth muscle cell (SM22α) and cholesterol crystal content, necrotic core area, general collagen and elastin (Movat) deposition, and calcification (Van Kossa) in the aortic root of animals presenting plaque formation in C are shown to compare the anatomy and quality of the developed atherosclerotic lesions. Quantifications (E) were done using ImageJ software and are displayed as percentage of total plaque area. (F) Sirius Red staining was performed and visualized using bright field and polarized light microscopy. Content of different collagen fiber thicknesses was determined using ImageJ. Green/yellow indicates thinner collagen fibers, while orange/red indicates thick collagen fibers. (Data are expressed as mean ±SEM, Mann-Whitney test with *P < 0.05, **P < 0.005, n = 9/ 4 for Oil Red O staining, n = 6/4 for plaque characterization staining, scale bar: 500 μm) (PL, polarized light; CC, cholesterol crystals; HFD, high-fat diet; PSO, psoriasis; rVSMC, resident vascular smooth muscle cells [indicated by the arrows]. Arrow heads indicate plaque/infiltrated VSMC).