Hye Jung Park1, Eun-Yi Oh2, Yoon Hee Park2, Misuk Yang2, Kyung Hee Park2,3, Jung-Won Park2,3, Jae-Hyun Lee2,3. 1. a Department of Internal Medicine , Gangnam Severance Hospital, Yonsei University College of Medicine , Seoul , Korea. 2. b Institute of Allergy , Yonsei University College of Medicine , Seoul , Korea. 3. c Division of Allergy and Immunology, Department of Internal Medicine , Yonsei University College of Medicine , Seoul , Korea.
Abstract
BACKGROUND: CD93 is a membrane-associated glycoprotein, which can be released in a soluble form (sCD93) into the serum. CD93 has received renewed attention as a candidate biomarker of inflammation in various inflammatory and immune-mediated diseases, including asthma. OBJECTIVE: We aimed to evaluate the effects of airway inflammation on CD93 levels in murine models. METHODS: We established an ovalbumin (OVA)-induced acute asthma murine model (OVA model) and a lipopolysaccharide (LPS)-induced airway inflammation murine model (LPS model). Dexamethasone was administered by gavage to attenuate the airway inflammation. RESULTS: The OVA model demonstrated typical allergic asthma features with increased airway hyper-responsiveness, inflammatory cell infiltration, increased Th2 cytokine levels, compared to the control group. CD93 levels were decreased in lung homogenates and, respiratory epithelial cells, whereas serum sCD93 levels were increased in the OVA model, as compared to the control group. Dexamethasone reversed these effects of OVA. In contrast, in the LPS model, CD93 levels were not affected in neither respiratory epithelial cells nor serum. CONCLUSIONS: Our findings demonstrate the potential of using sCD93 as a biomarker for allergic asthma.
BACKGROUND:CD93 is a membrane-associated glycoprotein, which can be released in a soluble form (sCD93) into the serum. CD93 has received renewed attention as a candidate biomarker of inflammation in various inflammatory and immune-mediated diseases, including asthma. OBJECTIVE: We aimed to evaluate the effects of airway inflammation on CD93 levels in murine models. METHODS: We established an ovalbumin (OVA)-induced acute asthmamurine model (OVA model) and a lipopolysaccharide (LPS)-induced airway inflammationmurine model (LPS model). Dexamethasone was administered by gavage to attenuate the airway inflammation. RESULTS: The OVA model demonstrated typical allergic asthma features with increased airway hyper-responsiveness, inflammatory cell infiltration, increased Th2 cytokine levels, compared to the control group. CD93 levels were decreased in lung homogenates and, respiratory epithelial cells, whereas serum sCD93 levels were increased in the OVA model, as compared to the control group. Dexamethasone reversed these effects of OVA. In contrast, in the LPS model, CD93 levels were not affected in neither respiratory epithelial cells nor serum. CONCLUSIONS: Our findings demonstrate the potential of using sCD93 as a biomarker for allergic asthma.