Integrated metabolomics and network pharmacology to reveal the therapeutic mechanism of Dingkun Pill on polycystic ovary syndrome.

ETHNOPHARMACOLOGICAL RELEVANCE: Dingkun Pill (DKP), a traditional Chinese medicine prescription, was modified from Bujing decoction and Xusijiangsheng pill by the imperial physician in the Qing dynasty (1700' s). It was believed to treat various gynecological diseases by nourishing qi and blood. Accumulating evidence indicates that it is effective in treating polycystic ovary syndrome (PCOS). However, the therapeutic efficacy and mechanism of action DKP against PCOS need to be further elucidated. AIM OF THE STUDY: To investigate the therapeutic effect and action mechanism of DKP against PCOS using an integrated approach of metabolomics and network pharmacology. MATERIALS AND METHODS: The rat model of PCOS was established by dehydroepiandrosterone. An integrated metabolomics and network pharmacology strategy was applied to systemically clarify the mechanism of DKP against PCOS. Theca cells were prepared to evaluate the effect of DKP and its ingredients on testosterone synthesis in vitro. RESULTS: The pharmacological experiments demonstrated that DKP could effectively convert the disordered estrous cyclicity, decrease the level of testosterone and the luteinizing hormone/follicle stimulating hormone ratio, and inhibit abnormal follicle formation in PCOS rats. By metabolomics analysis, 164 serum endogenous differential metabolites and 172 urine endogenous differential metabolites were tentatively identified. Steroid hormone biosynthesis and ovarian steroidogenesis were the most significantly impacted pathways. Based on network pharmacology and metabolomics studies, the ingredient-target-pathway network of DKP in the treatment of PCOS was constructed. Among the 10 key targets, CYP17A1, CYP19A1, STS, AR, ESR1, and MYC were closely involved in ovarian androgen synthesis. In theca cell-based assay of testosterone synthesis, DKP and its two active compounds (ligustilide and picrocrocin) showed inhibitory effects. CONCLUSION: DKP effectively improved symptoms in rats with dehydroepiandrosterone-induced PCOS. The mechanism of DKP in the treatment of PCOS is related to the CYP17A1 enzyme required for androgen synthesis.

[Comparative study on short and long-term intervention impacts of six Chinese herbs with cold or heat property on lipid and energy metabolism in mice].

This study selected three typical Chinese herbs with cold property(Rhei Radix et Rhizoma, Scutellariae Radix, and Coptidis Rhizoma) and another three with heat property(Cinnamomi Cortex, Zingiberris Rhizoma, and Aconiti Lateralis Radix Praeparata) to observe their regulatory effects on metabolism in animal organism, especially on lipid and energy metabolism in mice after a short-(7 d) and long-term(35 d) intervention. The mRNA expression levels of lipid metabolism genes in epididymal adipose tissue and liver were determined by real-time PCR. The oxygen consumption, carbon dioxide production, and energy consumption were detected by metabolic system. After the short-term intervention, the Chinese herbs with heat property significantly reduced epididymal adipose tissue index and elevated the expression levels of acetyl-CoA carboxylase(ACC), lipoprotein lipase(LPL), and carnitine-palmityl transferase 1(CPT-1) in liver and epididymal adipose tissues. However, those with cold property promoted the expression of above-mentioned genes in epididymal adipose tissue. After the long-term intervention, cold and heat Chinese herbs had no significant effect on epididymal adipose tissue index of animals, while cold Chinese herbs could increase carbon dioxide production and energy consumption and reduce activity. These findings demonstrated that the short-term intervention effects of cold and heat Chinese herbs on animal metabolism were significantly stronger than the long-term intervention effects. Specifically, the short-term intervention with cold Chinese herbs enhanced the lipid metabolism in epididymal adipose tissue, while the heat Chinese herbs promoted lipid metabolism in epididymal adipose tissue and liver. The long-term intervention with cold and heat Chinese herbs resulted in no obvious change in lipid level, but long-term intervention with cold Chinese herbs accelerated energy consumption of the body. This study preliminarily observed the effects of cold and heat Chinese herbs on normal animal physiology from lipid and energy metabolism, which would provide reference for explaining the biological basis of Chinese herbs with cold or heat property based on biological response.

[Investigation of modulating effect of Qingfei Paidu Decoction on host metabolism and gut microbiome in rats].

This study is to explore the effect of Qingfei Paidu Decoction(QPD) on the host metabolism and gut microbiome of rats with metabolomics and 16 S rDNA sequencing. Based on 16 S rDNA sequencing of gut microbiome and metabolomics(GC-MS and LC-MS/MS), we systematically studied the serum metabolites profile and gut microbiota composition of rats treated with QPD for continued 5 days by oral gavage. A total of 23 and 43 differential metabolites were identified based on QPD with GC-MS and LC-MS/MS, respectively. The involved metabolic pathways of these differential metabolites included glycerophospholipid metabolism, linoleic acid metabolism, TCA cycle and pyruvate metabolism. Meanwhile, we found that QPD significantly regulated the composition of gut microbiota in rats, such as enriched Romboutsia, Turicibacter, and Clostridium_sensu_stricto_1, and decreased norank_f_Lachnospiraceae. Our current study indicated that short-term intervention of QPD could significantly regulate the host metabolism and gut microbiota composition of rats dose-dependently, suggesting that the clinical efficacy of QPD may be related with the regulation on host metabolism and gut microbiome.

Metabolomics and its application in the treatment of coronary heart disease with traditional Chinese medicine.

Traditional Chinese Medicine (TCM) is the treasure of Chinese Nation and gained the gradual acceptance of the international community. However, the methods and theories of TCM understanding of diseases are lack of appropriate modern scientific characterization systems. Moreover, traditional risk factors cannot promote to detection and prevent those patients with coronary artery disease (CAD) who have not developed acute myocardial infarction (MI) in time. To sum up, there is still no objective systematic evaluation system for the therapeutic mechanism of TCM in the prevention and cure of cardiovascular disease. Thus, new ideas and technologies are needed. The development of omics technology, especially metabolomics, can be used to predict the level of metabolites in vivo and diagnose the physiological state of the body in time to guide the corresponding intervention. In particular, metabolomics is also a very powerful tool to promote the modernization of TCM and the development of TCM in personalized medicine. This article summarized the application of metabolomics in the early diagnosis, the discovery of biomarkers and the treatment of TCM in CAD.

[Isolation and identification of xanthones from Gentianella acuta].

Twelve xanthones compounds were isolated from the ethanol extract of Gentianella acuta by means of reversed-phase preparative HPLC and various kinds of column chromatography including silica gel and ODS . Their structures were fully elucidated on the basis of MS, 1D and 2D-NMR data. The structures of xanthones were identified as 1, 7-dihydroxy-3-methoxyxanthone-7-O-ß-D-glucopyranoside (1), swertiapuniside (2), 1, 3, 8- trihydroxy -4, 5-dimethoxyxanthone-1-O-ß-D-glucopyranosyl(6→1)-O-ß-D-glucopyranoside (3), 1, 2, 8-trihydroxy-5, 6-dimethoxyxanthone-2-O-ß-D-glucopyranoside (4), 1, 3, 7, 8-tetrahydroxyxanthone-1-O-ß-D-glucopyranoside (5), 1, 3, 5, 8-tetrahydroxy-5, 6, 7, 8-tetrahydroxanthone (6), 1, 3, 5-thihydroxyxanthone (7),1, 3, 5, 8-tetrahydroxyxanthone (8), 1, 2, 8-trihydroxy-5, 6-dimethoxyxanthone (9), bellidifolin (10), mangiferin (11), swertianolin (12). Compounds 1-9 were isolated from Gentianella genus for the first time.