Kawasaki disease (KD) is the most common cause of acquired cardiac disease and acute vasculitis in children in the developed world. Injection of a cell wall extract isolated from Lactobacillus casei (LCCWE) into mice causes a focal coronary arteritis that histopathologically mimics the coronary lesions observed in KD patients. In this study we used this model to investigate the participation of T cells, B cells, and dendritic cells (DC) in the development of coronary arteritis. RAG1(-/-), B cell(null), and wild-type (WT) mice were injected with a single dose of LCCWE (500 mu g/mouse i.p.). None of the RAG1(-/-) mice developed coronary arteritis, whereas 70% of WT and 100% of B cell(null) mice developed coronary lesions, indicating that T cells were required for lesion formation. When splenocytes isolated from LCCWE-treated mice were restimulated with LCCWE, we observed significant IFN-gamma secretion in WT but not in RAG1(-/-) mice. Immunohistochemical staining showed F4/80(+) macrophages, activated MIDC-8(+) myeloid DCs (mDC), plasmacytoid DCs, and colocalization of CD3(+) T cells with mDCs in coronary artery lesions, suggesting an Ag-driven process. T cells but not B cells are required for LCCWE-induced coronary arteritis. Similar to human lesions, the coronary lesions contain macrophages, activated mDCs, and plaslmacytoid DCs all in close proximity to T cells, further strengthening the relevance of this mouse model to the immunopathology of coronary disease in KD. These studies are consistent with the interpretation that macrophages and DCs may collaborate with T cells in the pathological mechanisms of coronary arteritis.

Involvement of Innate and Adaptive Immunity in a Murine Model of Coronary Arteritis Mimicking Kawasaki Disease

SORRENTINO, ROSALINDA;
2009-01-01

Abstract

Kawasaki disease (KD) is the most common cause of acquired cardiac disease and acute vasculitis in children in the developed world. Injection of a cell wall extract isolated from Lactobacillus casei (LCCWE) into mice causes a focal coronary arteritis that histopathologically mimics the coronary lesions observed in KD patients. In this study we used this model to investigate the participation of T cells, B cells, and dendritic cells (DC) in the development of coronary arteritis. RAG1(-/-), B cell(null), and wild-type (WT) mice were injected with a single dose of LCCWE (500 mu g/mouse i.p.). None of the RAG1(-/-) mice developed coronary arteritis, whereas 70% of WT and 100% of B cell(null) mice developed coronary lesions, indicating that T cells were required for lesion formation. When splenocytes isolated from LCCWE-treated mice were restimulated with LCCWE, we observed significant IFN-gamma secretion in WT but not in RAG1(-/-) mice. Immunohistochemical staining showed F4/80(+) macrophages, activated MIDC-8(+) myeloid DCs (mDC), plasmacytoid DCs, and colocalization of CD3(+) T cells with mDCs in coronary artery lesions, suggesting an Ag-driven process. T cells but not B cells are required for LCCWE-induced coronary arteritis. Similar to human lesions, the coronary lesions contain macrophages, activated mDCs, and plaslmacytoid DCs all in close proximity to T cells, further strengthening the relevance of this mouse model to the immunopathology of coronary disease in KD. These studies are consistent with the interpretation that macrophages and DCs may collaborate with T cells in the pathological mechanisms of coronary arteritis.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11386/2280781
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