The network pharmacology integrated with pharmacokinetics to clarify the pharmacological mechanism of absorbed components from Viticis fructus extract.

ETHNOPHARMACOLOGICAL RELEVANCE: Viticis fructus (VF) has been widely used in alleviating the swelling and pain, owning to its pharmacologically active components including agnuside, 10-O-vanilloylaucubin, luteolin and casticin. AIM OF THE STUDY: The pharmacokinetic profiles of the absorbed components from aqueous and ethanolic extracts of VF in rat plasma were performed, and explored the molecular mechanisms of absorbed components via network pharmacology. MATERIALS AND METHODS: Ultra-performance liquid chromatography-tandem mass spectroscopy (UHPLC-MS/MS) was employed to identify the absorbed components from rat plasma. Liquid-liquid extraction with ethyl acetate was used to purify the plasma samples. Plasma pharmacokinetics parameters of the components absorbed were analyzed after oral administration of both extracts. Network pharmacology was used to predict the biological functions and potential signaling pathways of VF. The anti-cancer effects of VF extract and absorbed components have been confirmed by in vitro experiments. RESULTS: The method was very sensitive with lower limit of quantification (LLOQ) of 1.0, 2.5, 0.2 and 0.5 ng/mL for agnuside, 10-O-vanilloylaucubin, luteolin and casticin, respectively. With the exception of 10-O-vanilloylaucubin which was not detected in the ethanolic extract of VF, all other components were detected in both extracts in plasma. The pharmacokinetic parameters of the four components from rat plasma were significantly different between the two extracts. According to the results of network pharmacology, the absorption components of VF are enriched in 32 key pathways, and 15 pathways are related to cancer. Ultimately, the anti-cancer effects, as well as the signaling pathways of VF ethanolic extract and absorbed components were verified by in vitro experiments. CONCLUSION: The optimized, sensitive and validated UHPLC-MS/MS method was successfully applied for the plasma pharmacokinetics comparison analysis of the two VF extracts. The combination of network pharmacology and pharmacokinetics provides a useful method to elucidate the biological effects and molecular mechanism of the absorbed components of VF.

A Rapid High Throughput Vibration and Vortex-Assisted Matrix Solid Phase Dispersion for Simultaneous Extraction of Four Isoflavones for Quality Evaluation of Semen Sojae Praeparatum.

Isoflavones (daidzein, daidzin, genistein and genistin) were main chemical components and usually selected as markers for quality control of Traditional Chinese Medicine semen sojae praeparatum (SSP). High throughput vibration and vortex-assisted matrix solid phase dispersion and high performance liquid chromatography with diode array detection were developed to simultaneously extract and quantify four isoflavones in SSP. Some parameters influencing extraction efficiency of isoflavones by vortex-assisted matrix solid phase dispersion such as sorbent type, ratio of sample to sorbent, crushing time, vibration frequency, methanol concentration, eluting solvent volume and vortex time were optimized. It was found that the best extraction yields of four isoflavones were obtained when the sample (20 mg) and SBA-3 (40 mg) was crushed by ball mill machine for 2 min at vibration frequency of 800 times per minute. Methanol/water (1.5 ml, 8:2, v/v) solution was dropped into the treated sample and vortexed for 3 min. The recoveries of the four isoflavones ranged from 86.1 to 94.8% and all relative standard deviations were less than 5%. A good linearity (r > 0.9994) was achieved within the range 0.5-125 µg/ml. It was concluded that the high throughput vibration and vortex-assisted matrix solid-phase dispersion coupled with high performance liquid chromatography was user-friendly extraction and quantification method of multiple isoflavones for quality evaluation of SSP.

Study on Structure Activity Relationship of Natural Flavonoids against Thrombin by Molecular Docking Virtual Screening Combined with Activity Evaluation In Vitro.

Thrombin, a key enzyme of the serine protease superfamily, plays an integral role in the blood coagulation cascade and thrombotic diseases. In view of this, it is worthwhile to establish a method to screen thrombin inhibitors (such as natural flavonoid-type inhibitors) as well as investigate their structure activity relationships. Virtual screening using molecular docking technique was used to screen 103 flavonoids. Out of this number, 42 target compounds were selected, and their inhibitory effects on thrombin assayed by chromogenic substrate method. The results indicated that the carbon-carbon double bond group at the C2, C3 sites and the carbonyl group at the C4 sites of flavones were essential for thrombin inhibition, whereas the methoxy and O-glycosyl groups reduced thrombin inhibition. Noteworthy, introduction of OH groups at different positions on flavonoids either decreased or increased anti-thrombin potential. Myricetin exhibited the highest inhibitory potential against thrombin with an IC50 value of 56 µM. Purposively, the established molecular docking virtual screening method is not limited to exploring flavonoid structure activity relationships to anti-thrombin activity but also usefully discovering other natural active constituents.