Research progress on in vitro models of cardiomyocyte injury / 中国中药杂志

Cardiovascular diseases seriously endanger human health and life. The accompanying myocardial injury has been a focus of attention in society. Chinese medicine,serving as a natural and precious reservoir for the research and development of new drugs,is advantageous in resisting myocardial injury due to its multi-component,multi-pathway,and multi-target characteristics. In recent years,with the extensive application of culture method for isolated cardiomyocytes,a cost-effective,controllable in vitro model of cardiomyocyte injury with uniform samples is becoming a key tool for mechanism research on cardiomyocyte injury and drug development.A good in vitro model can reduce experimental and manpower cost,and also accurately stimulate clinical changes to reveal the mechanism. Therefore,the selection and establishment of in vitro model are crucial for the in-depth research. This study summarized the modeling principles,evaluation indicators,and application of more than ten models reflecting different clinical conditions,such as injuries induced by hypoxia-reoxygenation,hypertrophy,oxidative stress,inflammation,internal environmental disturbance,and toxicity. Furthermore,we analyzed advantages and technical difficulties,aiming to provide a reference for in-depth research on myocardial injury mechanism and drug development.

Perfusion enzyme affinity selection system based on hollow fiber for screening active compounds from total saponins of Kudingcha / 药学学报

Atherosclerosis is one of the causes of many cardiovascular diseases. Lipid metabolism disorder is an important risk factor for atherosclerosis. Lipase-targeted screening may help discovery of hypolipidemic and anti-atherosclerotic drugs. Traditional methods for enzyme-based screening exhibit drawbacks of tedious operation steps, reduced enzyme activity, slow mass transfer, as well as high false positive rate. In this paper, an integrated perfusion enzyme affinity selection system based on hollow fiber was constructed to screen hypolipidemic and anti-atherosclerotic compounds from traditional Chinese medicines, and the total saponins of Kudingcha were taken as a case. First, we built a hollow fiber based perfusion system and optimized the methodology for enzyme affinity selection. Then, two active compounds of kudinosides A and C were identified as potential lipase inhibitors from the total saponins of Kudingcha by the proposed system. Last, the activity of kudinosides A and C was verified by lipase inhibitory assay and formation of foam cell model induced by low density lipoprotein aggregates, exhibiting the reliability of the system. This platform shows the advantages of integration, fast mass transfer, simple operation, low cost, as well as improved throughput and efficiency, which is especially suitable for rapid screening active components from traditional Chinese medicine.

TCM chemical biology--emerging interdiscipline of "TCM chemistry" and "biology" / 中国中药杂志

Traditional Chinese medicine(TCM) is a research area with highly original innovation features,and is also a Chinese name card to the world. However,TCM owns a unique theoretical system which is quite different from western modern medicine,leading to an awkward situation of deficient modern social identity as well as poor international spread. Therefore,how to establish a research strategy in line with the characteristics of TCM itself to systematically interpret the unique scientific connotation of TCM is always a public hot topic. Based on persistent practical exploration and scientific consideration in TCM,our group firstly promoted the concept of traditional Chinese medicine chemical biology(TCM chemical biology,TCMCB). The major idea of TCMCB is to clarify the nature of TCM regulating life progress to link TCM to modern medicine by using TCM components as chemical tools. Notably,TCMCB mainly focuses on TCM target identification and TCM-guided disease molecular mechanism exploration,further to clarify the basic law of TCM mediating disease process. Finally,TCMCB-guided scientific studies can help explain TCM theory and promote the developmentof modern innovative drugs based on identified targets using TCM active components. Moreover,TCMCB is of vital importance for investigating the scientific nature of biological progress and the pattern of disease occurrence and development,indicating a key significance for modern life science and medicine. This review introduces the definition of TCMCB as well as its academic thought,research method,technology system and scientific significance,for providing new research ideas and scientific thoughts for TCM development.

Toxicogenomics and its application in safety evaluation of traditional Chinese medicine / 中国中药杂志

Toxicogenomics (TGx) refers to a set of technologies that assess genome-wide responses after toxic agent exposure. Altered gene expression patterns that are caused by specific exposures reveal how toxicants may disrupt cellular processes and lead to side effects. Development and application of " omics" technology facilitate the toxicogenomic research which sharing and interpretation of the enormous amount of biological information generated in toxicologic field. In recent years TGx has been widely valued and successfully applied as an effective research tool to evaluate the toxic effects of traditional Chinese medicine (TCM). Here we reviewed current progress in the field of TGx and focused on its application in traditional Chinese medicine safety evaluation, especially in revealing the mechanism, finding potential toxic biomarkers and studying compatibility detoxification of TCM.

Dissecting functional chemome of Xiaoqinglong decoction analogous formulae using network formulaology approach / 中国中药杂志

Analogous formulae (AF) refer to a set of traditional Chinese medicine (TCM) formulae sharing similar herbs and/or indications. Dissecting functional chemome of analogous formulae could enhance the understanding of the intrinsic nature of TCM. In this study, taking 5 Xiaoqinglong decoction analogous formulae (XQL AF) including Xiaoqinglong decoction, Mahuang Xingren Shigao Gancao decoction, Mahuang Fuzi decoction, Houpu Mahuang decoction and Daqinglong decoction as example, we systematically investigated the relationship between compounds and indications using network formulaology approach. The functional chemome of XQL AF were revealed by network analysis and molecular docking. This successful application in XQL AF suggests network formulaology could be a useful tool for AF-related research and therefore provide a new way to discover the scientific foundation of Zhang Zhongjing's herbal formulae.