Liupao tea is a postfermented dark tea with hypolipidemic activity. Research on the active substances in Liupao tea has primarily focused on those derived from the tea itself, overlooking the secondary metabolites produced by its predominant fungus, Euirotium cristatum. In this study, E. cristatum CPCC 401251, the predominant strain found in Liupao tea under investigation, was isolated and analyzed. A total of 19 representative metabolites, including prenylbenzaldehydes, diketopiperazines, and anthraquinones, were obtained from its culture. Subsequent analysis revealed the presence of multiple secondary metabolites of E. cristatum CPCC 401251 in Liupao tea. The 19 compounds significantly reduced the lipid content in free fatty acid (FFA)-stimulated hepatocyte AML-12 cells to varying degrees. Considering the content, chemical class, and biological activity of secondary metabolites from E. cristatum CPCC 401251, compounds 1, 7, and 13 were selected to detect their hypolipidemic activities and potential mechanisms in hyperlipidemia golden hamsters. Compound 1 exerted a hypolipidemic effect by activating the AMPK signaling pathway, decreasing Scd1, and improving intestinal flora. Compounds 7 and 13 played a role in the hypolipidemic activity by regulating the gene expression related to lipid synthesis and degradation, including upregulating the mRNA levels of Pparα, Hsl, and Atgl, and decreasing the mRNA level of Scd1. These findings help us understand the dominant fungus E. cristatum secondary metabolites presenting in Liupao tea and their potential hypolipidemic contributions. This work improves the understanding of the active substances in Liupao tea and highlights the health-promoting effects of microorganisms in the fermented tea.
Keywords: Euirotium cristatum; Liupao tea; dark tea; gut microbiota; hypolipidemic activity; secondary metabolites.