Methanol-involved heterogeneous transformation of ginsenoside Rb1 to rare ginsenosides using heteropolyacids embedded in mesoporous silica with HPLC-MS investigation

IF 6.8 2区 医学 Q1 CHEMISTRY, MEDICINAL Journal of Ginseng Research Pub Date : 2024-02-08 DOI:10.1016/j.jgr.2024.01.007
Mengya Zhao, Yusheng Xiao, Yanyan Chang, Lu Tian, Yujiang Zhou, Shuying Liu, Huanxi Zhao, Yang Xiu
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Abstract

Background

The biological activity and pharmacological effects of rare ginsenosides have been proven to be superior to those of the major ginsenosides, but they are rarely found in ginseng.

Methods

Ginsenoside Rb1 was chemically transformed with the involvement of methanol molecules by a synthesized heterogeneous catalyst 12-HPW@MeSi, which was obtained by the immobilization of 12-phosphotungstic acid on a mesoporous silica framework. High-performance liquid chromatography coupled with mass spectrometry was used to identify the transformation products.

Results

A total of 18 transformation products were obtained and identified. Methanol was found to be involved in the formation of 8 products formed by the addition of methanol molecules to the C-24 (25), C-20 (21) or C-20 (22) double bonds of the aglycone. The transformation pathways of ginsenoside Rb1 involved deglycosylation, addition, elimination, cycloaddition, and epimerization reactions. These pathways could be elucidated in terms of the stability of the generated carbenium ion. In addition, 12-HPW@MeSi was able to maintain a 60.5% conversion rate of Rb1 after 5 cycles.

Conclusion

Tandem and high-resolution mass spectrometry analysis allowed rapid and accurate identification of the transformation products through the characteristic fragment ions and neutral loss. Rare ginsenosides with methoxyl groups grafted at the C-25 and C-20 positions were obtained for the first time by chemical transformation using the composite catalyst 12-HPW@MeSi, which also enabled cyclic heterogeneous transformation and facile centrifugal separation of ginsenosides. This work provides an efficient and recyclable strategy for the preparation of rare ginsenosides with the involvement of organic molecules.

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利用包埋在介孔二氧化硅中的杂多酸将人参皂苷 Rb1 通过甲醇异构转化为稀有人参皂苷并进行 HPLC-MS 研究
背景稀有人参皂苷的生物活性和药理作用已被证实优于主要人参皂苷,但在人参中却很少发现。方法利用合成的异相催化剂12-HPW@MeSi,在甲醇分子的参与下对人参皂苷Rb1进行化学转化。结果 共获得并鉴定了 18 种转化产物。发现甲醇参与了 8 种产物的形成,这些产物是通过甲醇分子与苷元的 C-24 (25)、C-20 (21) 或 C-20 (22) 双键相加而形成的。人参皂苷 Rb1 的转化途径包括脱糖基化反应、加成反应、消除反应、环加成反应和表聚合反应。这些途径可根据生成的硒离子的稳定性加以阐明。此外,12-HPW@MeSi 能够在 5 个循环后保持 60.5% 的 Rb1 转化率。结论串联和高分辨率质谱分析能够通过特征碎片离子和中性损失快速准确地鉴定转化产物。通过使用 12-HPW@MeSi 复合催化剂进行化学转化,首次获得了在 C-25 和 C-20 位接枝了甲氧基的稀有人参皂苷,并实现了人参皂苷的循环异构转化和简便离心分离。这项工作为在有机分子参与下制备稀有人参皂苷提供了一种高效、可循环的策略。
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来源期刊
Journal of Ginseng Research
Journal of Ginseng Research CHEMISTRY, MEDICINAL-INTEGRATIVE & COMPLEMENTARY MEDICINE
CiteScore
11.40
自引率
9.50%
发文量
111
审稿时长
6-12 weeks
期刊介绍: Journal of Ginseng Research (JGR) is an official, open access journal of the Korean Society of Ginseng and is the only international journal publishing scholarly reports on ginseng research in the world. The journal is a bimonthly peer-reviewed publication featuring high-quality studies related to basic, pre-clinical, and clinical researches on ginseng to reflect recent progresses in ginseng research. JGR publishes papers, either experimental or theoretical, that advance our understanding of ginseng science, including plant sciences, biology, chemistry, pharmacology, toxicology, pharmacokinetics, veterinary medicine, biochemistry, manufacture, and clinical study of ginseng since 1976. It also includes the new paradigm of integrative research, covering alternative medicinal approaches. Article types considered for publication include review articles, original research articles, and brief reports. JGR helps researchers to understand mechanisms for traditional efficacy of ginseng and to put their clinical evidence together. It provides balanced information on basic science and clinical applications to researchers, manufacturers, practitioners, teachers, scholars, and medical doctors.
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