Abstract
Phillyrin, a well-known bisepoxylignan, has been shown to have many critical pharmacological activities. In this study, a novel strategy for the extensive acquisition and use of data was established based on UHPLC-Q-Exactive mass spectrometry to analyze and identify the in vivo metabolites of phillyrin and to elucidate the in vivo metabolic pathways of phillyrin. Among them, the generation of data sets was mainly due to multichannel data mining methods, such as high extracted ion chromatogram (HEIC), diagnostic product ion (DPI), and neutral loss filtering (NLF). A total of 60 metabolites (including the prototype compound) were identified in positive and negative ion modes based on intuitive and useful data such as the standard's cleavage rule, accurate molecular mass, and chromatographic retention time. The results showed that a series of biological reactions of phillyrin in vivo mainly included methylation, hydroxylation, hydrogenation, sulfonation, glucuronidation, demethylation, and dehydrogenation and their composite reactions. In summary, this study not only comprehensively explained the in vivo metabolism of phillyrin, but also proposed an effective strategy to quickly analyze and identify the metabolites of natural pharmaceutical ingredients in nature.
Highlights
Phillyrin, as an essential bisepoxylignan, is the main component of Forsythia suspensa Vahl in plants belongs to the family Oleaceae [1,2,3]
UHPLC-Q-Exactive MS can thoroughly and extensively obtain the structural information of compounds by using the functions of positive and negative ion scanning mode, full scanning, and automatic triggering of secondary mass spectrometry scanning. e superior resolution based on Orbitrap technology can quickly achieve the measurement of high-accuracy mass
The ESI-MSn data set of the samples in both positive and negative ion modes were obtained by using the data-dependent scanning (DDS) acquisition method
Summary
As an essential bisepoxylignan, is the main component of Forsythia suspensa ( unb.) Vahl in plants belongs to the family Oleaceae [1,2,3]. Phillyrin has been reported to improve insulin resistance in the body [9, 10], and it can reduce the weight of obese mice through specific pathways [11]. Phillyrin can decrease the formation and function of osteoclasts and prevent LPS-induced osteolysis in mice [12]. There are still many deficiencies in the comprehensive research on phillyrin metabolism in vivo. Erefore, revealing the metabolites and metabolic pathways of phillyrin is of great significance for its further development and utilization. UHPLC-Q-Exactive MS (ultra high-performance liquid chromatography coupled with hybrid quadrupole-Orbitrap mass spectrometry) can thoroughly and extensively obtain the structural information of compounds by using the functions of positive and negative ion scanning mode, full scanning, and automatic triggering of secondary mass spectrometry scanning. UHPLC-Q-Exactive MS (ultra high-performance liquid chromatography coupled with hybrid quadrupole-Orbitrap mass spectrometry) can thoroughly and extensively obtain the structural information of compounds by using the functions of positive and negative ion scanning mode, full scanning, and automatic triggering of secondary mass spectrometry scanning. e superior resolution based on Orbitrap technology can quickly achieve the measurement of high-accuracy mass
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