Ginsenoside 24-OH-PD from red ginseng inhibits acute T-lymphocytic leukaemia by activating the mitochondrial pathway.

Ginsenoside 24-hydroxy-ginsengdiol (24-OH-PD), extracted from red ginseng, is a novel diol-type ginsenoside, strongly inhibits the growth of human T-cell acute lymphoblastic leukaemia (T-ALL) CCRF-CEM cells. Our research aimed at investigating the mechanism underlying this inhibition. Cell viability was determined using the cell counting kit-8 (CCK-8) assay, and NOD/SCID mice bearing CCRF-CEM cells were used to verify the therapeutic effect of 24-OH-PD on T-ALL in vivo. We equally analysed pathways related to 24-OH-PD in CCRF-CEM cells using RNA-Seq analysis. Cell apoptosis, reactive oxygen species (ROS), mitochondrial membrane potential (ΔΨm), and mitochondrial permeability transition pore (mPTP) levels were detected by flow cytometry. The activity of caspase3 and caspase9 was detected by enzyme activity detection kits. The expression levels of apoptosis-related proteins and mRNA were determined through western blotting and quantitative reverse-transcription PCR assays (qRT-PCR). CCK-8 assay and animal xenograft experiments confirmed that 24-OH-PD significantly inhibited T-ALL in a dose-dependent manner, both in vivo and in vitro. RNA-Seq results suggest that mitochondria-mediated apoptosis pathway plays an important role in this process. Furthermore, intracellular ROS levels increased, mPTP opened, and ΔΨm decreased following 24-OH-PD treatment. Pretreatment with the antioxidant, NAC, reversed the effects of 24-OH-PD on apoptosis and ROS generation. Moreover, 24-OH-PD treatment increased the expression of Bax and caspase family members, thereby releasing cytochrome c (Cytc) and inducing apoptosis. Our findings showed that, 24-OH-PD induces apoptosis in CCRF-CEM cells by activating the mitochondrial-dependent apoptosis pathway through ROS accumulation. This inhibitory effect implies that 24-OH-PD could be further developed as treatment of T-ALL.

Rapid Screening of Lipase Inhibitors in Scutellaria baicalensis by Using Porcine Pancreatic Lipase Immobilized on Magnetic Core-Shell Metal-Organic Frameworks.

As for ligand fishing, the current immobilization approaches have some potential drawbacks such as the small protein loading capacity and difficult recycle process. The core-shell metal-organic frameworks composite (Fe3O4-COOH@UiO-66-NH2), which exhibited both magnetic characteristics and large specific surface area, was herein fabricated and used as magnetic support for the covalent immobilization of porcine pancreatic lipase (PPL). The resultant composite Fe3O4-COOH@UiO-66-NH2@PPL manifested a high loading capacity (247.8 mg/g) and relative activity recovery (101.5%). In addition, PPL exhibited enhanced tolerance to temperature and pH after immobilization. Then, the composite Fe3O4-COOH@UiO-66-NH2@PPL was incubated with the extract of Scutellaria baicalensis to fish out the ligands. Eight lipase inhibitors were obtained and identified by UPLC-Q-TOF-MS/MS. The feasibility of the method was further confirmed through an in vitro inhibitory assay and molecular docking. The proposed ligand fishing technique based on Fe3O4-COOH@UiO-66-NH2@PPL provided a feasible, selective, and effective platform for discovering enzyme inhibitors from natural products.

Systems biology analysis of the effect and mechanism of total flavonoids of Astragali Radix against cyclophosphamide-induced leucopenia in mice.

This study aimed to demonstrate the pharmacological mechanism of total flavonoids extracted from Astragali Radix (AR) on cyclophosphamide (Cy)-induced leucopenia in mice. First, flow cytometry, network pharmacology and plasma metabolomics were integrated to investigate the pharmacological mechanism of total flavonoids, the targets from network pharmacology and metabolites from metabolomics were analyzed by DAVID. Then, the key cytokines were validated to confirm the predicted metabolic pathway results. The results showed that total flavonoids significantly increased body weight, routine blood indices, bone marrow DNA cells, and also markedly caused lymphocyte proliferation by increasing the percentages of CD4+ and CD8+. Using network pharmacology and metabolomics methods, the study identified 13 signal-related pathways regulated by total flavonoids including PI3K-Akt signaling pathway, Jak-STAT signaling pathway, Sphingolipid signaling pathway, and so on. Total flavonoids also reversed changes in serum cytokines IL-2, IL-6, and GM-CSF. Total flavonoids exhibits protective effects against leucopenia probably by modulating immunologic functions, promoting cell proliferation, and regulating related metabolic pathways at the system level.

Nuclear magnetic resonance based metabolomic differentiation of different Astragali Radix.

Astragali Radix (AR) is one of the most popular herbal medicines in traditional Chinese medicine (TCM). Wild AR is believed to be of high quality, and substitution with cultivated AR is frequently encountered in the market. In the present study, two types of ARs (wild and cultivated) from Astragalus membranaceus (Fisch.) Bge. and A. membranaceus var. mongholicus (Bge.) Hsiao, growing in different regions of China, were analyzed by NMR profiling coupled with multivariate analysis. Results showed that both could be differentiated successfully and cultivation patterns or growing years might have greater impact on the metabolite compositions than the variety; the metabolites responsible for the separation were identified. In addition, three extraction methods were compared and the method (M1) was used for further analysis. In M1, the extraction solvent composed of water, methanol, and chloroform in the ratio of 1 : 1 : 2 was used to obtain the aqueous methanol (upper layer) and chloroform (lower layer) fractions, respectively, showing the best separation. The differential metabolites among different methods were also revealed. Moreover, the sucrose/glucose ratio could be used as a simple index to differentiate wild and cultivated AR. Meanwhile, the changes of correlation pattern among the differential metabolites of the two varieties were found. The work demonstrated that NMR-based non-targeted profiling approach, combined with multivariate statistical analysis, can be used as a powerful tool for differentiating AR of different cultivation types or growing years.

A metabonomic analysis reveals novel regulatory mechanism of Huangqi injection on leucopenia mice.

CONTEXT: Huangqi injection (HQI), extracted from Astragali Radix, which has capability on treating the leucopenia. However, the potential metabolic mechanism is poorly understood. OBJECTIVE: To investigate the effect of HQI on cyclophosphamide (Cy)-induced leucopenia in mice, the nuclear magnetic resonance (NMR)-based metabolomic profiling technique coupled with multivariate statistical analysis was applied. MATERIALS AND METHODS: NMR analysis was used to identify the various compounds of HQI, and high-performance liquid chromatography was applied to determine the contents of major compounds. A experimental mice model of leucopenia induced by Cy and NMR-based metabolomic approach was used to evaluate the pharmacological effect of HQI and to investigate its probable acting mechanism on leucopenia. RESULTS: HQI increased body weight and elevated the white blood cell (WBC), monocytes (MO), neutrophils (NE), and lymphocyte (LY) levels of Cy-treated mice. In addition, the levels of most perturbed endogenous metabolites could be reversed after HQI treatment. Correlations between WBC, MO, NE, LY, and altered metabolite profiles in spleen were greater than that in serum, and the correlation in MO was more evident than those for WBC, NE, and LY. DISCUSSION AND CONCLUSION: HQI showed obvious efficacy on the mice model of leucopenia. And the drug action of HQI on leucopenia was probably related with regulating metabolic pathways of energy metabolism, amino acids metabolism, oxidative stress, and choline metabolism. However, various compounds were present in the HQI, and the bioactive compounds responsible for the drug actions should be further investigated.

[~1H NMR fingerprints of Huangqi injection solution].

The study established the 1H NMR-based fingerprinting and analyzed 8 batches of Huangqi injection solution.1H NMR-based fingerprinting of both primary and secondary metabolites of Huangqi injection were established, and the 1H-1H chemical shift correlation spectroscopy (COSY) and 1H-13C chemical shift correlation spectroscopy (HSQC) were used to identify the chemical components in Huangqi injection solution. Coupled with similarity analysis and relative content determination,8 batches of Huangqi injection solution were analyzed. Twenty-five metabolites (both primary and secondary) were identified, and the significant differences were found in the chemical composition among these Huangqi samples. The content and content variation of the primary metabolites were much higher than those of the secondary metabolites, which was the major cause of the uniformity of the Huangqi injections. The results on the quality variations of Huangqi injections in this study will serve as a basis for improving the quality control.