A tyrosine catabolic intermediate 4-hydroxyphenylpyruate attenuates murine endotoxic shock by blocking NLRP3 inflammasome activation
Yanxia Wei, Mengnan Liu, Jinzhi Han, Haohan Huang, Shihong Xu, Shenghan Zhang, Qiyue Jing, Hanying Wang, Huimin Bu, Yanbo Kou, Zhuanzhuan Liu, Kuiyang Zheng, Yugang Wang
Abstract
The metabolic alterations of amino acid metabolism are closely associated with inflammatory response. However, relatively little is known about the roles of phenylalanine (Phe)/tyrosine (Tyr) catabolites during inflammation. Nitisinone (NTBC) is an orphan drug used to treat hereditary tyrosinemia type I potentially by changing Phe/Tyr metabolic flow. In this study, we used NTBC as a tool to investigate the potential role of the Phe/Tyr catabolic pathway in inflammatory responses. We found that NTBC was effective in tempering the bacterial endotoxin lipopolysaccharide (LPS)-induced septic shock in mice. Mechanistically, the protective effect was related to the accumulation of a Phe/Tyr catabolic intermediate, 4-hydroxyphenylpyruvate (4-HPP), induced by the NTBC treatment. 4-HPP could inhibit NLRP3 inflammasome priming and activation processes and therefore reduce IL-1β release and pyroptosis. Like NTBC, 4-HPP was also effective in attenuating endotoxic shock in mice. Our results suggest the Phe/Tyr catabolic pathway as a potential immunoregulatory hub that may be exploited therapeutically to alleviate inflammation.