ABSTRACT
We studied the effect of aqueous extract from Huang qi on gene expression profile of doxorubicin induced nephropathy in rats, and explored the molecular mechanism of the intervention. The gene expression profiles of control group, model group and aqueous extract from Huang qi group were detected by using transcriptome sequencing technique. The differentially expressed genes (DEGs) were screened by STEM trend analysis software. GO function enrichment and KEGG pathway analysis were performed for DEGs, and the gene expression level was verified by real-time fluorescence quantitative PCR (RT-qPCR). The results showed that, compared with the control group, 432 DEGs were obtained in doxorubicin nephropathy model group; compared with the model group, 811 DEGs were obtained due to aqueous extract of Huang qi. The results of GO function enrichment and KEGG enrichment analysis indicated that PI3K-AKT pathway (Col6a6, Nr4a1, Sgk1, Gng7) and lipid metabolism-related genes (Cpt1b, Pcsk9, Abca1, Ascm5) were the key pathways and genes in the treatment of doxorubicin induced nephropathy by aqueous extract from Huang qi, which played a protective role in kidney. In conclusion, the molecular mechanism of aqueous extract from Huang qi in protection against doxorubicin induced nephropathy rats is closely related to apoptosis-related genes and lipid metabolism-related genes, suggesting for the need of follow-up study for key gene validation and mechanism of action of aqueous extract from Huang qi for prevention of doxorubicin induced nephropathy.
ABSTRACT
Adriamycin-induced nephritic model is one of the well-recognized models in simulating human nephropathy, whose clinical manifestations of animal models are similar to human nephrotic syndrome, and its cell models are widely used in the pathological mechanism study of nephropathy because of the well-simulated basic function of glomerular podocyte. Based on the animal models and cell models in vitro of adriamycin nephropathy, this study aims at reviewing the modelling method and pathological mechanism of adriamycin-induced nephritic model in order to provide a scientific and rational pharmacological experimental model reference for drug research and development based on kidney disease, and provide evidence for the research of the mechanism of Chinese herbal compound in the treatment of nephropathy.
ABSTRACT
Microspheres (MS) are an excellent transarterial chemoembolization carrier for cancer treatment. Then the Bletilla striata polysaccharide (BSP) that was isolated from the rattan of Bletilla striata was used as skeleton material, and the matrine (ME) loaded Bletilla striata polysaccharide microspheres (ME-BSPMS) were prepared by emulsify-chemical crosslinking method. ME-BSPMS was characterized for appearance shape, particle size, drug loading, swelling ratio, suspension property, drug entrapment condition and in vitro release characteristics. The results showed that the ME-BSPMS appeared as round spherical and smooth shape by SEM, with an average size of (85 ±7) μm. ME-BSPMS with a good suspension in physiological saline and the swelling ratio could reach upwards of (53 ±4.2)% in 20 minutes, also with a large amount of drug loading of (30.12 ±3.25)%. The results of DSC scanning indicate that good compatibility exists between the ME and BSP, and the ME could be embedded fully in the matrix of the ME-BSPMS. The accumulation drug release from ME-BSPMS was (25.38 ±1.57)% at 12 h, this suggests that the ME-BSPMS has a good sustained release effect. These results indicate that the ME-BSPMS may be a promising transarterial chemoembolization carrier for cancer treatment.