Modulation of gut microbiota on intestinal permeability: A novel strategy for treating gastrointestinal related diseases.

Accumulating evidence emphasizes the critical reciprocity between gut microbiota and intestinal barrier function in maintaining the gastrointestinal homeostasis. Given the fundamental role caused by intestinal permeability, which has been scrutinized as a measurable potential indicator of perturbed barrier function in clinical researches, it seems not surprising that recent decades have been marked by augmented efforts to determine the interaction between intestinal microbes and permeability of the individual. However, despite the significant progress in characterizing intestinal permeability and the commensal bacteria in the intestine, the mechanisms involved are still far from being thoroughly revealed. In the present review, based on multiomic methods, high-throughput sequencing and molecular biology techniques, the impacts of gut microbiota on intestinal permeability as well as their complex interaction networks are systematically summarized. Furthermore, the diseases related to intestinal permeability and main causes of changes in intestinal permeability are briefly introduced. The purpose of this review is to provide a novel prospection to elucidate the correlation between intestinal microbiota and permeability, and to explore a promising solution for diagnosis and treatment of gastrointestinal related diseases.

Exploring the mechanism of Icariin in the treatment of depression through BDNF-TrkB pathway based on network pharmacology.

Depression has increasingly become a disease that seriously harms people's mental health around the world. Icariin is the main active component of Epimedii Herba and effective on protecting the central nervous system. The purpose of this study was to explore the mechanism of icariin against depression based on network pharmacology and molecular docking. The potential targets related to icariin and depression were obtained by accessing network databases. The Metascape database was used for the enrichment analysis of GO function and KEGG pathways. A common target-pathway network was constructed using Cytoscape 3.9.0 software. Schrödinger Maestro 12.8 was adopted to evaluate the binding ability of icariin to core targets. Mice were induced by the chronic unpredictable mild stress (CUMS) model, and the prediction results of this study were verified by in vivo experiments. A total of 109 and 3294 targets were identified in icariin and depression, respectively. The common target-pathway network was constructed, and 7 core target genes were obtained. The molecular docking results of the 7 core target genes with icariin showed good affinity. In a CUMS-induced depression model, we found that icariin could effectively improve depression-like behavior of mice, increase the expression of monoamine neurotransmitters 5-hydroxytryptamine, dopamine, and norepinephrine, decrease the secretion of inflammatory factors tumor necrosis factor-α, interleukin-6, and interleukin-1ß, and upregulate the relative expression levels of BDNF, p-TrkB/TrkB, p-Akt/Akt, p-CREB/CREB, MAPK3, MAPK1, Bcl-2, EGFR, and mTOR. The results suggest that icariin has certain antidepressant effects, and may be mediated by the BDNF-TrkB signaling pathway. It provides new ideas for the treatment of depression in the future.

Icariin improves learning and memory function in Aß1-42-induced AD mice through regulation of the BDNF-TrκB signaling pathway.

ETHNOPHARMACOLOGICAL RELEVANCE: Epimedium brevicornu Maxim. is a traditional medicinal Chinese herb that is enriched with flavonoids, which have remarkably high medicinal value. Icariin (ICA) is a marker compound isolated from the total flavonoids of Epimedium brevicornu Maxim. It has been shown to improve Neurodegenerative disease, therefore, ICA is probably a potential drug for treating AD. MATERIALS AND METHODS: The 6-8-week-old SPF-class male ICR mice were randomly divided into 8 groups for modeling, and then the mice were administered orally with ICA for 21 days. The behavioral experiments were conducted to evaluate if learning and memory behavior were absent in mice, confirming that infusion of Amyloid ß-protein (Aß)1-42 caused significant memory impairment. The morphological changes and damage of neurons in the mice's brains were observed by HE and Nissl staining. The spinous protrusions (dendritic spines) on neuronal dendrites were investigated by Golgi-Cox staining. The molecular mechanism of ICA was examined by Western Blot. The protein docking of ICA and Donepezil with BDNF were analyzed to determine their interaction. RESULTS: The behavioral experimental results showed that in Aß1-42-induced AD mice, the learning and memory abilities were improved after using ICA. At the same time, the low, medium, and high doses of ICA could reduce the content of Aß1-42 in the hippocampus of AD mice, repair neuronal damage, enhance synaptic plasticity, as well as increase the expression of BDNF, TrκB, CREB, Akt, GAP43, PSD95, and SYN proteins in the hippocampus of mice. However, the effect with high doses of ICA is more pronounced. The high-dose administration of ICA has the best therapeutic effect on AD mice. After administering the inhibitor k252a, the therapeutic effect of ICA was reversed. The macromolecular docking results of ICA and BDNF protein demonstrated a strong interaction of -7.8 kcal/mol, which indicates that ICA plays a therapeutic role in AD mice by regulating the BDNF-TrκB signaling pathway. CONCLUSIONS: The results confirm that ICA can repair neuronal damage, enhance synaptic plasticity, as well as ultimately improve learning and memory impairment through the regulation of the BDNF-TrκB signaling pathway.

Comparative Study on Medicinal Natures (qi) of Black Ginseng, Red Ginseng, and Ginseng Leaves Based on Typical Deficiency-Heat Syndrome Rat Model.

To elucidate the medicinal nature of black ginseng (BG) by comparison of the effects of four Chinese herbs with different medicinal natures on the deficiency-heat syndrome rat model which was established by intragastric administration of traditional Chinese drugs with hot nature, the appearance indexes, biochemical indexes, and pathological sections of thyroid and stomach were examined. In addition, the seven short-chain fatty acids (SCFAs) in rat feces were also determined by headspace gas chromatography-mass spectrometry to reveal the action mechanism of the drugs with different natures. Results indicated that all the 4 drugs could exhibit similar actions in regulating the biochemical indexes of triiodothyronine (T3), thyroxine (T4), thyrotropin-releasing hormone (TRH), thyroid-stimulating hormone (TSH), and corticosterone (CORT) representing the hypothalamus-pituitary-thyroid (HPT) and hypothalamus-pituitary-adrenal (HPA) axes of the animal. However, cold-natured cortex phellodendri (HB) and ginseng leaves (GLs) showed stronger downregulation of the AChE activity of the nervous system. Red ginseng (RG) and BG tested exhibited stronger upregulation of the liver Na+-K+-ATPase activity. Principal component analysis (PCA) showed that GLs are similar to those of HB which belongs to the cold-nature drug, whereas BG showed closer to RG which attributes to a warm-nature drug. Thus, BG could be ascribed to a warm-nature drug. Further research disclosed that RG and BG mainly regulated the acetic acid and GL and HB primarily modulated the isovaleric acid and hexanoic acid in rat feces, which could be the features of drugs with warm or cold nature on the regulation of SCFAs in rats. It is for the first time that the medicinal nature of BG and its effect on the SCFAs were examined.