BACKGROUND: Vascular calcification is highly correlated with cardiovascular disease (CVD) morbidity and mortality, and it is associated with inflammation. Receptor activator of NF-ĸB ligand (RANKL) inhibition in vivo has been shown to reduce vascular calcification in a mouse model of atherosclerosis. Therefore, we tested the hypothesis that RANKL regulates smooth muscle cell (SMC) calcification by modulating macrophage production of pro-calcific cytokines. METHODS: We used a bone marrow-derived macrophage (BMDM)/SMC co-culture system and examined the effects of RANKL on BMDM activation and SMC matrix calcification. RESULTS: Treatment with RANKL alone did not stimulate SMC calcification induced by elevated phosphate. BMDMs differentiated with macrophage colony-stimulating factor and placed in co-culture with SMCs increased phosphate-induced SMC calcification. RANKL added to the BMDM/SMC co-cultures further enhanced SMC calcification. Treatment of BMDMs with RANKL resulted in increased expression of IL-6 and TNF-α. Thus, increased expression of these pro-calcific cytokines in macrophages may mediate RANKL-induced SMC calcification in a paracrine fashion. Addition of neutralizing IL-6 and TNF-α antibodies together with RANKL treatment significantly reduced the RANKL induction of SMC calcification. CONCLUSION: RANKL activation of pro-inflammatory and pro-calcific pathways in macrophages may contribute to vascular calcification and inflammation.
BACKGROUND:Vascular calcification is highly correlated with cardiovascular disease (CVD) morbidity and mortality, and it is associated with inflammation. Receptor activator of NF-ĸB ligand (RANKL) inhibition in vivo has been shown to reduce vascular calcification in a mouse model of atherosclerosis. Therefore, we tested the hypothesis that RANKL regulates smooth muscle cell (SMC) calcification by modulating macrophage production of pro-calcific cytokines. METHODS: We used a bone marrow-derived macrophage (BMDM)/SMC co-culture system and examined the effects of RANKL on BMDM activation and SMC matrix calcification. RESULTS: Treatment with RANKL alone did not stimulate SMC calcification induced by elevated phosphate. BMDMs differentiated with macrophage colony-stimulating factor and placed in co-culture with SMCs increased phosphate-induced SMC calcification. RANKL added to the BMDM/SMC co-cultures further enhanced SMC calcification. Treatment of BMDMs with RANKL resulted in increased expression of IL-6 and TNF-α. Thus, increased expression of these pro-calcific cytokines in macrophages may mediate RANKL-induced SMC calcification in a paracrine fashion. Addition of neutralizing IL-6 and TNF-α antibodies together with RANKL treatment significantly reduced the RANKL induction of SMC calcification. CONCLUSION:RANKL activation of pro-inflammatory and pro-calcific pathways in macrophages may contribute to vascular calcification and inflammation.
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