2019
DOI: 10.4049/jimmunol.1900113
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A Novel Animal Model of Emphysema Induced by Anti-Elastin Autoimmunity

Abstract: Loss of immune tolerance to self-antigens can promote chronic inflammation and disrupt the normal function of multiple organs, including the lungs. Degradation of elastin, a highly insoluble protein and a significant component of the lung structural matrix, generates proinflammatory molecules. Elastin fragments (EFs) have been detected in the serum of smokers with emphysema, and elastin-specific T cells have also been detected in the peripheral blood of smokers with emphysema. However, an animal model that cou… Show more

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Cited by 8 publications
(1 citation statement)
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“…These models may be more relevant for the initial assessment of alveolar damage mechanisms. Recently, Gu et al [178] demonstrated the use of a murine model of anti-elastin autoimmunity resulting in emphysema that could be used to examine the role of immune tolerance in diseases, such as COPD, and enhance the clinical relevance of elastase-based models.…”
Section: Elastase Instillationmentioning
confidence: 99%
“…These models may be more relevant for the initial assessment of alveolar damage mechanisms. Recently, Gu et al [178] demonstrated the use of a murine model of anti-elastin autoimmunity resulting in emphysema that could be used to examine the role of immune tolerance in diseases, such as COPD, and enhance the clinical relevance of elastase-based models.…”
Section: Elastase Instillationmentioning
confidence: 99%