The Therapeutic Effects of Magnolia Officinalis Extraction on an Antibiotics-Induced Intestinal Dysbacteriosis in Mice.

Magnolia officinalis bark is a traditional Chinese medicine for gastrointestinal tract disorders. In this study, we explored the effects of M. officinalis extraction on intestinal flora to reveal its mechanism. Thirty SPF mice were divided into five groups: C (control), M (M. officinalis), A (antibiotics: cefradine and gentamicin sulfate), A&M (antibiotics + M. officinalis) and A&N (antibiotics + natural recovery). Faecal samples of all groups were collected and the taxonomic composition and diversity of bacteria was characterized using the 16S rRNA gene (16S). Alpha diversity showed gut bacteria diversity significantly decreased in the A group of mice but increased markedly after administration of M. officinalis extract. Beta diversity indicated that C, M and A&M shared similar bacterial community structure while A and A&N exhibited a different bacterial community. Furthermore, RDA combined with spearman correlation heatmap suggested the five physiological indicators (weight, fur, activity and feces) were highly correlated with bacterial community structure and diversity. Finally, functional categorization of the assigned OTUs was performed using the PICRUSt tool. The changes in PICRUSt inferred that function profile and metabolic pathways were observed in A and A&M, therefore the M. officinalis extract improved the intestinal flora of A&M and normalized its metabolic pathways gradually, improving mouse weight, fur quality, activity and feces qualities.

Yin yang 1 directly regulates the transcription of RE-1 silencing transcription factor.

The RE-1 silencing transcription factor (REST) is a master transcription factor that plays a critical role in embryo development, especially during the process of neurogenesis and neural plasticity. However, the mechanism of REST gene transcription regulation is still an open question. Here, by combining bioinformatics analysis and experimental studies, we report that the transcription factor Yin Yang 1 (YY1) bound to a conserved YY1 binding site in the promoter of the mouse REST gene and positively regulated activity of this promoter in SH-SY5Y cells. Furthermore, analysis of microarray data revealed a significant correlation between the expression of YY1 and REST genes. Overall, this study suggests that YY1 directly regulates expression of the REST gene.