OBJECTIVE: The proatherogenic effect of IL-18 is shown to be dependent on IFN-gamma production. It is believed that activated T cells play a proatherogenic role through secretion of IFN-gamma. However, recent studies in vitro have shown that macrophages, NK cells, and even vascular smooth muscle cells may also secrete IFN-gamma after stimulation by cytokines like IL-18. We therefore investigated whether cells other than activated T cells can play a proatherogenic role via IFN-gamma secretion under the stimulation of IL-18 in vivo. METHODS AND RESULTS: SCID/apoE knockout mice were injected intraperitoneally with either IL-18 or phosphate-buffered saline 3 times per week for 7 weeks. Our results show that administration of IL-18 leads to 3-fold larger lesions and 2-fold higher circulating IFN-gamma despite the absence of T cells. In addition, increased IFN-gamma, accompanied by elevation of the scavenger receptor/chemokine CXCL16, was observed in both lesions and spleens. Furthermore, our findings revealed that macrophages, NK cells, and vascular cells were the source of IFN-gamma under the stimulation of IL-18 in the absence of T cells in vivo. CONCLUSIONS: The current data suggest that the proatherogenic effect of IL-18 can occur in the absence of T cells and that IFN-gamma secreted by macrophages, NK cells, and vascular cells is sufficient for the disease progression.
OBJECTIVE: The proatherogenic effect of IL-18 is shown to be dependent on IFN-gamma production. It is believed that activated T cells play a proatherogenic role through secretion of IFN-gamma. However, recent studies in vitro have shown that macrophages, NK cells, and even vascular smooth muscle cells may also secrete IFN-gamma after stimulation by cytokines like IL-18. We therefore investigated whether cells other than activated T cells can play a proatherogenic role via IFN-gamma secretion under the stimulation of IL-18 in vivo. METHODS AND RESULTS:SCID/apoE knockout mice were injected intraperitoneally with either IL-18 or phosphate-buffered saline 3 times per week for 7 weeks. Our results show that administration of IL-18 leads to 3-fold larger lesions and 2-fold higher circulating IFN-gamma despite the absence of T cells. In addition, increased IFN-gamma, accompanied by elevation of the scavenger receptor/chemokine CXCL16, was observed in both lesions and spleens. Furthermore, our findings revealed that macrophages, NK cells, and vascular cells were the source of IFN-gamma under the stimulation of IL-18 in the absence of T cells in vivo. CONCLUSIONS: The current data suggest that the proatherogenic effect of IL-18 can occur in the absence of T cells and that IFN-gamma secreted by macrophages, NK cells, and vascular cells is sufficient for the disease progression.
Authors: Sokrates Stein; Christine Lohmann; Christoph Handschin; Elin Stenfeldt; Jan Borén; Thomas F Lüscher; Christian M Matter Journal: PLoS One Date: 2010-10-22 Impact factor: 3.240
Authors: Merav Darash-Yahana; John W Gillespie; Stephen M Hewitt; Yun-Yun K Chen; Shin Maeda; Ilan Stein; Satya P Singh; Roble B Bedolla; Amnon Peled; Dean A Troyer; Eli Pikarsky; Michael Karin; Joshua M Farber Journal: PLoS One Date: 2009-08-19 Impact factor: 3.240