ABSTRACT: Background This study aimed at investigating whether NLRP 3 (the Nod like receptor family, pyrin domain-containing 3 protein) inflammasome activation induced HMGB 1 (high mobility group box-1 protein) secretion and foam cell formation in human vascular smooth muscle cells ( VSMC s) and atherosclerosis in ApoE-/- mice. Methods and Results VSMC s or ApoE-/- mice were treated with lipopolysaccharides ( LPS ) and/or ATP or LPS and high-fat diet to induce NLRP 3 inflammasome activation. HMGB 1 distribution and foam cell formation in VSMC s were characterized. Liver X receptor α and ATP -binding cassette transporter expression were determined. The impact of NLRP 3 or receptor for advanced glycation end product silencing, ZYVAD - FMK (caspase-1 inhibitor), glycyrrhizin ( HMGB 1 inhibitor) or receptor for advanced glycation end product antagonist peptide on HMGB 1 secretion, foam cell formation, liver X receptor α and ATP -binding cassette transporter expression was examined. Expression level of HMGB 1 in human atherosclerosis obliterans arterial tissues was characterized. Our results found that NLRP 3 inflammasome activation promoted foam cell formation and HMGB 1 secretion in VSMC s. Extracellular HMGB 1 was a key signal molecule in inflammasome activation-mediated foam cell formation. Furthermore, inflammasome activation-induced HMGB 1 activity and foam cell formation were achieved by receptor for advanced glycation end product/liver X receptor α / ATP -binding cassette transporter glycyrrhizin. Experiments in vivo found glycyrrhizin significantly attenuated the LPS /high-fat diet-induced atherosclerosis and serum HMGB 1 levels in mice. Finally, levels of HMGB 1 and NLRP 3 were increased in tunica media adjacent to intima of atherosclerosis obliteran arteries. Conclusions Our results revealed that HMGB1 is a key downstream signal molecule of NLRP 3 inflammasome activation and plays an important role in VSMC s foam cell formation and atherogenesis by downregulating liver X receptor α and ATP -binding cassette transporter expression through receptor for advanced glycation end product.