Archive/Process-Induced Metabolite Remodeling of Tripterygium Glycosides and Its Association with Circulating Prototype Constituents
Process-Induced Metabolite Remodeling of Tripterygium Glycosides and Its Association with Circulating Prototype Constituents
Tao Zhang, Junchao Liu, Huiyi Wen et al.
7 de julio de 2026
en

Abstract

Background/Objectives: Tripterygium glycosides (TG) are used to treat inflammatory and autoimmune diseases, but their clinical application is limited by toxicity and the lack of process-responsive quality markers. This study examined whether roasting and dealkalization remodel the TG metabolite profile and alter the post-dose serum profile of circulating prototype constituents. Methods: Self-prepared TG, roasted TG (RTG), roasted–dealkalized TG (RDTG), and five marketed products were profiled by ultra-performance liquid chromatography coupled with quadrupole time-of-flight tandem mass spectrometry (UPLC-Q-TOF-MS/MS). Seven representative compounds were quantified by validated high-performance liquid chromatography (HPLC). Rat serum after oral administration was analyzed to compare circulating prototype constituents. Results: We characterized 243 constituents in material samples and 63 circulating prototype constituents in serum. Roasting primarily reshapes the profiles of diterpenoids and triterpenoids. Celastrol was not detected in the RTG and RDTG material samples, nor in the corresponding single-time-point serum profiles under the current analytical conditions. In contrast, wilforlide A exhibited an increase in material samples. Dealkalization preferentially reduced alkaloid-related constituents, including wilforine in material samples and tripterygiumine T in serum. Conclusions: Integrated material profiling, targeted quantification, and serum prototype analysis identified candidate process-responsive markers for processed TG preparations. Because the serum study was based on relative signal intensities rather than full pharmacokinetics, these markers require further pharmacokinetic and toxicological validation.

IPC Classification

G06A61C07

Keywords

process-inducedmetaboliteremodelingtripterygiumglycosidesassociationcirculatingprototypeconstituentsmetabolitesbackgroundobjectivesusedtreatinflammatoryautoimmunediseasesclinicalapplicationlimitedtoxicitylackprocess-responsivequality
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