Study on tanshinones regulating root-associated microbiomes of Salvia miltiorrhiza / 中国中药杂志

The plant root-associated microbiomes include root microbiome and rhizosphere microbiome, which are closely related to plant life activities. Nearly 30% of photosynthesis products of plants are used to synthesize root compounds, there is evidence that root compounds regulate and significantly affect the root microbiome Tanshinones are the main hydrophobic components in Salvia miltiorrhiza. In order to study whether these compounds can regulate the root-associated microbiomes of S. miltiorrhiza, our study first identified a white root S. miltiorrhiza(BG) which contains little tanshinones. Retain of the fifth intron of tanshinones synthesis key enzyme gene SmCPS1 leading to the early termination of the SmCPS1 gene, and a stable white root phenotype. Further, wild type(WT) and BG were planted in greenhouse with nutrient soil(Pindstrup, Denmark) and Shandong soil(collected from the S. miltiorrhiza base in Weifang, Shandong), then high-throughput sequencing was used to analyze the root-associated microbiomes. The results showed that the tanshinones significantly affected the root-associated microbiomes of S. miltiorrhiza, and the impact on root microbiomes was more significant. There are significant differences between WT and BG root microbiomes in species richness, dominant strains and co-occurrence network. Tanshinones have a certain repelling effect on Bacilli which belongs to Gram-positive, while specifically attract some Gram-negative bacteria such as Betaproteobacteria and some specific genus of Alphaproteobacteria. This study determined the important role of tanshinones in regulating the structure of root-associated microbiomes from multiple angles, and shed a light for further improving the quality and yield of S. miltiorrhiza through microenvironment regulation.

Effect of notoginseng radix on expression quantity of TGF-beta1/ Smads and CTGF mRNA in rats with alcoholic liver disease / 中国中药杂志

<p><b>OBJECTIVE</b>To evaluate the effect of Notoginseng Radix on hepatic expression of transforming growth factor beta1 (TGF-beta1) and connective tissue growth factor (CTGF) in rats with alcoholic liver disease (ALD), in order to discuss its protective effect on alcoholic cirrhosis.</p><p><b>METHOD</b>Fifty SD male rats were divided into the normal control group, the model group, the high-dose and low-dose Notoginseng Radix groups (3.0, 12.0 g x kg(-1)) and the magnesium isoglycyrrhizinate group (24 mg x kg(-1)), with 10 rats in each group. Apart from the control group, other groups were administered with ethanol-cornoil-pyrazole for 14 weeks to establish the alcoholic liver disease model. During the establishment of the model, the high-dose and low-dose Notoginseng Radix groups were administered with 12 g x kg(-1) x d(-1) Notoginseng Radix for 14 weeks, once everyday. Efforts were made to detect liver function, pathology with Masson staining, and the expressions of TGF-beta1, Smad3, Smad7 and CTGF mRNA.</p><p><b>RESULT</b>Compared with the rats in model group, rats in Notoginseng Radix groups showed significant reduction in liver ALT, AST, collagen fiber deposition, and TGF-beta1, Smad3 and CTGF mRNA expressions in liver tissues, with the increase in the expression quantity of Smad7 mRNA. There were differences between the Notoginseng Radix groups. No significant difference was observed between the high-dose Notoginseng Radix group and the magnesium isoglycyrrhizinate group.</p><p><b>CONCLUSION</b>Notoginseng Radix can affect TGF-beta1/Smads signaling pathway and reduce the expression of CTGF.</p>