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Analysis of the chemical composition of the needles of Cedrus deodara (Roxb.) G. Don and its influence on endogenous metabolites by mass spectrometry imaging

化学 化学成分 代谢组学 质谱法 内生 化学成像 代谢物 代谢组 暴露的 质谱成像 植物化学 生物化学 体内 环境化学 化学结构 气相色谱-质谱法 抗氧化剂 初级代谢物
作者
Guanjie Wu,Yawen Du,Ling Zhao,Quhuan Ma,Xiaofeng Shi,Xinyue Chen
出处
期刊:Results in chemistry [Elsevier BV]
卷期号:20: 103030-103030
标识
DOI:10.1016/j.rechem.2026.103030
摘要

This study developed a method based on mass spectrometry imaging (MSI) technology, initially addressing the chemical spatial heterogeneity of the needles of Cedrus deodara (Roxb.) G. Don (NCD). Meanwhile, based on the theory of meridians, the spatial metabolomics of NCD in cardiac tissue was studied. We first established phytochemical profiles of NCD and achieved in situ visualization of metabolite distribution. Comparative analysis across geographic origins and Pinaceae species revealed environmental modulation of secondary metabolism. Importantly, traditional meridian theory reported that NCD had the property of meridian tropism in the heart where it played a role in cardio protection. Spatial metabolomics analysis revealed that several mechanisms play an important role in cardioprotection, including the reactivation of TCA cycle energetics, the enhancement of glutathione-mediated antioxidant defenses, and the localized regulation of spermine metabolism. We conducted a reasoned regions of interest (ROI) analysis based on the physiological structure of the heart, and in combination with its own important physiological activities, providing a comprehensive study on spatial metabolomics. This “component identification-spatial imaging-meridian tropism analysis” framework systematically studied the characteristics of NCD from both in vivo and in vitro, providing a new idea for the research of natural products. • Established a MALDI-MSI method for in-situ visual detection of NCD ingredients. • Study impact of growth environment & species difference on NCD's chemical profile. • Study NCD's region-specific cardioprotective mechanisms via spatial metabolomics.
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