Cathepsin S Deficiency Mitigated Chronic Stress-Related Neointimal Hyperplasia in Mice

Background Exposure to chronic psychosocial stress is a risk factor for atherosclerosis-based cardiovascular disease. We previously demonstrated the increased expressions of cathepsin S (CatS) in atherosclerotic lesions. Whether CatS participates directly in stress-related neointimal hyperplasia has...

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Published in:Journal of the American Heart Association 2019-07, Vol.8 (14), p.e011994-e011994
Main Authors: Wang, Hailong, Meng, Xiangkun, Piao, Limei, Inoue, Aiko, Xu, Wenhu, Yu, Chenglin, Nakamura, Kae, Hu, Lina, Sasaki, Takeshi, Wu, Hongxian, Unno, Kazumasa, Umegaki, Hiroyuki, Murohara, Toyoaki, Shi, Guo-Ping, Kuzuya, Masafumi, Cheng, Xian Wu
Format: Article
Language:English
Subjects:
Animals
Carotid Arteries - drug effects
Carotid Arteries - metabolism
Carotid Arteries - pathology
Carotid Artery Injuries - genetics
Carotid Artery Injuries - metabolism
Carotid Artery Injuries - pathology
Cathepsins - antagonists & inhibitors
Cathepsins - genetics
Cell Movement - genetics
Cell Proliferation - drug effects
Cell Proliferation - genetics
Elastin - metabolism
Hyperplasia
hypertension
Ligation
Macrophages
Matrix Metalloproteinases - genetics
Matrix Metalloproteinases - metabolism
Mice
Mice, Knockout
Myocytes, Smooth Muscle
Neointima - genetics
Neointima - pathology
Original Research
Plaque, Atherosclerotic - genetics
Plaque, Atherosclerotic - metabolism
Plaque, Atherosclerotic - pathology
protease
Restraint, Physical
RNA, Messenger - metabolism
stress
Stress, Psychological - genetics
Stress, Psychological - pathology
vascular disease
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Summary:Background Exposure to chronic psychosocial stress is a risk factor for atherosclerosis-based cardiovascular disease. We previously demonstrated the increased expressions of cathepsin S (CatS) in atherosclerotic lesions. Whether CatS participates directly in stress-related neointimal hyperplasia has been unknown. Methods and Results Male wild-type and CatS-deficient mice that underwent carotid ligation injury were subjected to chronic immobilization stress for morphological and biochemical studies at specific times. On day 14 after stress/surgery, stress enhanced the neointima formation. At the early time points, the stressed mice had increased plaque elastin disruption, cell proliferation, macrophage accumulation, mRNA and/or protein levels of vascular cell adhesion molecule-1, angiotensin II type 1 receptor, monocyte chemoattractant protein-1, gp91 , stromal cell-derived factor-1, C-X-C chemokine receptor-4, toll-like receptor-2, toll-like receptor-4, SC 35, galectin-3, and CatS as well as targeted intracellular proliferating-related molecules (mammalian target of rapamycin, phosphorylated protein kinase B, and p-glycogen synthase kinase-3α/β). Stress also increased the plaque matrix metalloproteinase-9 and matrix metalloproteinase-2 mRNA expressions and activities and aorta-derived smooth muscle cell migration and proliferation. The genetic or pharmacological inhibition of CatS by its specific inhibitor (Z- FL -COCHO) ameliorated the stressed arterial targeted molecular and morphological changes and stressed aorta-derived smooth muscle cell migration. Both the genetic and pharmacological interventions had no effect on increased blood pressure in stressed mice. Conclusions These results demonstrate an essential role of CatS in chronic stress-related neointimal hyperplasia in response to injury, possibly via the reduction of toll-like receptor-2/toll-like receptor-4-mediated inflammation, immune action, and smooth muscle cell proliferation, suggesting that CatS will be a novel therapeutic target for stress-related atherosclerosis-based cardiovascular disease.
ISSN:2047-9980
2047-9980
DOI:10.1161/JAHA.119.011994