Silybin A from Reprograms Lipid Metabolism to Induce a Cell Fate-dependent Class Switch from Triglycerides to Phospholipids

Overview

Journal Theranostics

Date 2025 Feb 3

PMID 39897559

Authors

Solveigh C Koeberle

Maria Thurmer

Fengting Su

Markus Werner

Julia Grander

Laura Hofer

Andre Gollowitzer

Loc Le Xuan

Felix J Benscheid

Ehsan Bonyadi Rad

Armando Zarrelli

Giovanni Di Fabio

Oliver Werz

Valeria Romanucci

Amelie Lupp

Andreas Koeberle

Affiliations

Soon will be listed here.

Abstract

is used to protect against degenerative liver damage. The molecular mechanisms of its bioactive component, silybin, remained enigmatic, although membrane-stabilizing properties, modulation of membrane protein function, and metabolic regulation have been discussed for decades. : Experiments were performed with hepatocyte cell lines and primary monocytes under both basal and stressed conditions, and in mice . Quantitative lipidomics was used to detect changes in phospholipids and triglycerides. Key findings were confirmed by Western blotting, quantitative PCR, microscopy, enzyme activity assays, metabolic flux studies, and functional relationships were investigated using selective inhibitors. : We show that specifically the stereoisomer silybin A decreases triglyceride levels and lipid droplet content, while enriching major phospholipid classes and maintaining a homeostatic phospholipid composition in human hepatocytes and in mouse liver under normal and pre-disease conditions. Conversely, in cell-based disease models of lipid overload and lipotoxic stress, silybin treatment primarily depletes triglycerides. Mechanistically, silymarin/silybin suppresses phospholipid-degrading enzymes, induces phospholipid biosynthesis to varying degrees depending on the conditions, and down-regulates triglyceride remodeling/biosynthesis, while inducing complex changes in sterol and fatty acid metabolism. Structure-activity relationship studies highlight the importance of the 1,4-benzodioxane ring configuration of silybin A in triglyceride reduction and the saturated 2,3-bond of the flavanonol moiety in phospholipid accumulation. Enrichment of hepatic phospholipids and intracellular membrane expansion are associated with a heightened biotransformation capacity. : Our study deciphers the structural features of silybin contributing to hepatic lipid remodeling and suggests that silymarin/silybin protects the liver in individuals with mild metabolic dysregulation, involving a lipid class switch from triglycerides to phospholipids, whereas it may be less effective in disease states associated with severe metabolic dysregulation.

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