Abstract
Extracellular matrix (ECM) degradation is a hallmark of many chronic inflammatory diseases that can lead to a loss of function, aging, and disease progression. Ultraviolet light (UV) irradiation from the sun is widely considered as the major cause of visible human skin aging, causing increased inflammation and enhanced ECM degradation. Granzyme B (GzmB), a serine protease that is expressed by a variety of cells, accumulates in the extracellular milieu during chronic inflammation and cleaves a number of ECM proteins. We hypothesized that GzmB contributes to ECM degradation in the skin after UV irradiation through both direct cleavage of ECM proteins and indirectly through the induction of other proteinases. Wild-type and GzmB-knockout mice were repeatedly exposed to minimal erythemal doses of solar-simulated UV irradiation for 20 weeks. GzmB expression was significantly increased in wild-type treated skin compared to nonirradiated controls, colocalizing to keratinocytes and to an increased mast cell population. GzmB deficiency significantly protected against the formation of wrinkles and the loss of dermal collagen density, which was related to the cleavage of decorin, an abundant proteoglycan involved in collagen fibrillogenesis and integrity. GzmB also cleaved fibronectin, and GzmB-mediated fibronectin fragments increased the expression of collagen-degrading matrix metalloproteinase-1 (MMP-1) in fibroblasts. Collectively, these findings indicate a significant role for GzmB in ECM degradation that may have implications in many age-related chronic inflammatory diseases.
Highlights
Aging is a complex and time-dependent biological process that affects all organ systems and is characterized by a decline in function and a reduced ability of the body to respond to stress due to physical, biological, and chemical agents
Using a mouse model of chronic, low-grade Ultraviolet light (UV) irradiation over 20 weeks, we demonstrated that Granzyme B (GzmB) deficiency protects against wrinkle formation and a loss in collagen density, while GzmB-mediated fibronectin and decorin cleavage contributed to increased MMP expression and collagen degradation
Wild-type (WT) and GzmB-knockout (GzmB-KO) mice were repeatedly exposed to solar-simulated UV irradiation (UVR) for 20 weeks
Summary
Aging is a complex and time-dependent biological process that affects all organ systems and is characterized by a decline in function and a reduced ability of the body to respond to stress due to physical, biological, and chemical agents. Chronic low-grade inflammation and oxidative stress have been proposed as causative agents of aging and age-related disease (Hendel et al, 2010; Chung et al, 2011). Among all the environmental factors, solar UV irradiation is the most influential in premature aging of the skin, causing 80–90% of the morphological, structural, and biochemical changes collectively termed photoaging (Gilchrest & Krutmann, 2006). Irradiated skin is metabolically hyperactive and is characterized by epidermal hyperplasia, reduced/disorganized collagen, and enhanced inflammation (Bosset et al, 2003)
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