A Q-marker screening strategy based on ADME studies and systems biology for Chinese herbal medicine, taking Qianghuo Shengshi decoction in treating rheumatoid arthritis as an example†

IF 3 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular omics Pub Date : 2023-07-11 DOI:10.1039/D3MO00029J

Jiao Wang, Cimin Tao, Guangzheng Xu, Jiawei Ling, Jie Tong, Bey Hing Goh, Yipeng Xu, Linghui Qian, Yong Chen, Xuesong Liu, Yongjiang Wu and Tengfei Xu

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Abstract

Chinese herbal medicine (CHM) exhibits a broad spectrum of clinical applications and demonstrates favorable therapeutic efficacy. Nonetheless, elucidating the underlying mechanism of action (MOA) of CHM in disease treatment remains a formidable task due to its inherent characteristics of multi-level, multi-linked, and multi-dimensional non-linear synergistic actions. In recent years, the concept of a Quality marker (Q-marker) proposed by Liu et al. has significantly contributed to the monitoring and evaluation of CHM products, thereby fostering the advancement of CHM research. Within this study, a Q-marker screening strategy for CHM formulas has been introduced, particularly emphasising efficacy and biological activities, integrating absorption, distribution, metabolism, and excretion (ADME) studies, systems biology, and experimental verification. As an illustrative case, the Q-marker screening of Qianghuo Shengshi decoction (QHSSD) for treating rheumatoid arthritis (RA) has been conducted. Consequently, from a pool of 159 compounds within QHSSD, five Q-markers exhibiting significant in vitro anti-inflammatory effects have been identified. These Q-markers encompass notopterol, isoliquiritin, imperatorin, cimifugin, and glycyrrhizic acid. Furthermore, by employing an integrated analysis of network pharmacology and metabolomics, several instructive insights into pharmacological mechanisms have been gleaned. This includes the identification of key targets and pathways through which QHSSD exerts its crucial roles in the treatment of RA. Notably, the inhibitory effect of QHSSD on AKT1 and MAPK3 activation has been validated through western blot analysis, underscoring its potential to mitigate RA-related inflammatory responses. In summary, this research demonstrates the proposed strategy's feasibility and provides a practical reference model for the systematic investigation of CHM formulas.

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基于ADME研究和系统生物学的中药q标记筛选策略——以强活生食汤治疗类风湿性关节炎为例

中草药具有广泛的临床应用和良好的治疗效果。然而，由于中药具有多层次、多环节、多维非线性协同作用的固有特点，阐明其在疾病治疗中的潜在作用机制(MOA)仍是一项艰巨的任务。近年来，Liu等人提出的质量标记(Quality marker, Q-marker)概念对中药材产品的监测和评价做出了重大贡献，从而促进了中药材研究的进步。在本研究中，介绍了中草药配方的q标记筛选策略，特别强调功效和生物活性，整合吸收、分布、代谢和排泄(ADME)研究、系统生物学和实验验证。以强火生食汤(QHSSD)治疗类风湿关节炎(RA)为例，进行了q标记物筛选。因此，从QHSSD中的159个化合物中，鉴定出5个具有显著体外抗炎作用的q标记物。这些q标记包括诺特酚、异芥子素、欧前胡素、cimifugin和甘草酸。此外，通过对网络药理学和代谢组学的综合分析，已经收集了一些对药理机制有指导意义的见解。这包括确定QHSSD在类风湿关节炎治疗中发挥关键作用的关键靶点和途径。值得注意的是，QHSSD对AKT1和MAPK3激活的抑制作用已通过western blot分析得到验证，强调了其减轻ra相关炎症反应的潜力。综上所述，本研究证明了所提出策略的可行性，并为系统研究中药配方提供了实用的参考模型。

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来源期刊

Molecular omics Biochemistry, Genetics and Molecular Biology-Biochemistry

CiteScore

5.40

自引率

3.40%

发文量

期刊介绍： Molecular Omics publishes high-quality research from across the -omics sciences. Topics include, but are not limited to: -omics studies to gain mechanistic insight into biological processes – for example, determining the mode of action of a drug or the basis of a particular phenotype, such as drought tolerance -omics studies for clinical applications with validation, such as finding biomarkers for diagnostics or potential new drug targets -omics studies looking at the sub-cellular make-up of cells – for example, the subcellular localisation of certain proteins or post-translational modifications or new imaging techniques -studies presenting new methods and tools to support omics studies, including new spectroscopic/chromatographic techniques, chip-based/array technologies and new classification/data analysis techniques. New methods should be proven and demonstrate an advance in the field. Molecular Omics only accepts articles of high importance and interest that provide significant new insight into important chemical or biological problems. This could be fundamental research that significantly increases understanding or research that demonstrates clear functional benefits. Papers reporting new results that could be routinely predicted, do not show a significant improvement over known research, or are of interest only to the specialist in the area are not suitable for publication in Molecular Omics.