Protective effects of Re-yan-ning mixture on Streptococcus pneumonia in rats based on network pharmacology.

CONTEXT: Re-yan-ning mixture (RYNM) is a new national drug approved by China's State Food and Drug Administration for the treatment of colds, simple pneumonia and acute bronchitis. OBJECTIVE: To determine the mechanism of action of RYNM in the treatment of bacterial pneumonia. MATERIALS AND METHODS: Using the network pharmacology approach, the multiple components, component candidate targets and multiple therapeutic targets of RYNM were screened and functionally enriched. Also, we established a rat Streptococcus pneumonia model to verify the results of network pharmacology enrichment analysis. Forty male SPF Sprague Dawley rats were divided into four groups of 10 rats: control (normal saline), model (normal saline), levofloxacin-intervened and RYNM-intervened groups. IL-10, NOS2, COX-1, IL-6, TNF-α and NF-κB in serum and BALF were detected by ELISA. Western blot detected IL-17, IL-6, TNF-α, COX-2 and Bcl-2. RESULTS: The network pharmacology approach successfully identified 48 bioactive components in RYNM, and 65 potential targets and 138 signal pathways involved in the treatment of Streptococcus pneumonia with RYNM. The in vivo experiments indicated that model group has visible inflammation and lesions while RYNM and levofloxacin groups have not. The RYNM exhibited its therapeutic effects on Streptococcus pneumonia mainly via the regulation of cell proliferation and survival through the IL-6/IL-10/IL-17, Bax/Bcl-2, COX-1/COX-2, NF-κB and TNF-α signalling pathways. DISCUSSION AND CONCLUSIONS: The present study demonstrated the protective effects of RYNM on Streptococcus pneumonia, providing a potential mechanism for the treatment of bacterial pneumonia with RYNM.

The therapeutic efficacy of Huashi Baidu Formula combined with antiviral drugs in the treatment of COVID-19: A protocol for systematic review and meta-analysis.

BACKGROUND: The Corona Virus Disease 2019 (COVID-19) is a new acute respiratory infectious disease that has become a major global public health event. In China, the combination of Huashi Baidu Formula (HBF) and antiviral drugs is used in the clinical treatment of severe patients with new coronary pneumonia, but there is still a lack of evidence-based medical evaluation. METHODS: We search for research in PubMed/MEDLINE, China National Knowledge Infrastructure (CNKI), Wanfang Database, VIP Database, Cochrane Library, Embase, China Biomedical Database (CBM), and Chinese Science Citation Database (CSCD). For "Huashi Baidu Formula" and "COVID-19," we screened suitable articles without language restrictions on keywords, and recorded and analyzed the screened literature with RevMan 5.3 and STATA 14.2 software. RESULTS: This systematic review and meta-analysis will evaluate the efficacy and safety of HBF combined with antiviral drugs in the treatment of COVID-19, and provide the rationality of clinical drug application. CONCLUSION: Our findings will provide references for clinical diagnosis and treatment and guidance programs for COVID-19. INPLASY REGISTRATION NUMBER: INPLASY202080098.

Design, Preparation, and Characterization of Dioscin Nanosuspensions and Evaluation of Their Protective Effect against Carbon Tetrachloride-Induced Acute Liver Injury in Mice.

The purpose of this study was to prepare a dioscin nanosuspension (Dio-NS) that has a better distance and high solubility for oral administration and to evaluate its hepatoprotective effects. Optimal primary manufacture parameters, including shear time, shear speed, emulation temperature, pressure, and cycles of homogenization, were determined by single-factor experiments. The concentrations of dioscin, SDS, and soybean lecithin were optimized using the central composite design-response surface method, and their effects on the mean particle size (MPS) and particle size distribution of Dio-NS were investigated. Characterization of the Dio-NS formulations included examinations of the surface morphology and physical status of dioscin in Dio-NS, the stability of Dio-NS at different temperatures, in vitro solubility, and liver protective effect in vivo. Under optimal conditions, Dio-NS had an MPS of 106.72 nm, polydispersity index of 0.221, and zeta potential of -34.27 mV. Furthermore, the proportion of dioscin in Dio-NS was approximately 21.26%. The observation of particles with a spherical shape and the disappearance of crystalline peaks indicated that the physical and chemical properties of Dio-NS were altered. Furthermore, we observed that the dissolution of Dio-NS was superior to that of a physical mixture and Dio-GZF. Moreover, Dio-NS was demonstrated to have a protective effect against CCl4-induced acute liver damage in mice that was equivalent to that of silymarin (a positive control drug) at the same dose. The good hepatoprotective effect of our Dio-NS preparation can provide a theoretical basis for investigating its absorption mechanisms in the body.

[Preparation and evaluation of dioscin nanostructured lipid carriers].

In this report, a heat and high-pressure homogenization method was used to prepare dioscin nanostructured lipid carriers, and the formulation of dioscin nanostructured lipid carriers was optimized by central composite design-response surface methodology. In vitro evaluation data showed that the preparation of dioscin nanostructured lipid carriers under optimal process by central composite design-response surface methodology had a spherical shape and homogeneous size distribution, with a particle size of (90.9±0.6) nm, a polydispersity index of (0.253±0.07), Zeta potential of (-45.7±0.5) mV, encapsulation efficiency of (90.2±0.5)%, and the drug loading of (23.30±0.10)%. These results clearly indicate that the preparation of dioscin nanostructured lipid carriers made with the heat and high-pressure homogenization method have very good physical and chemical properties, suitable for therapeutic applications.