Gastric protective effect of Alpinia officinarum flavonoids: mediating TLR4/NF-κB and TRPV1 signalling pathways and gastric mucosal healing.

CONTEXT: Our previous studies have found that total flavonoid of Alpinia officinarum Hance (Zingiberaceae) (F.AOH) had protective effects on gastric ulcer (GU). OBJECTIVE: To investigate the protective mechanism of F.AOH on acetic acid-induced chronic GUs in rats and ethanol-induced GES-1 cells damage. MATERIALS AND METHODS: In vivo: Gastric damage was induced in SD rats by administering acetic acid after oral treatment with F-AOH at 54, 27 and 13.5 mg/kg (2 weeks of continuous gavage). After a comprehensive evaluation of rats' serum and gastric tissue-related indicators, gene transcriptome sequencing, qPCR and Western blotting were used to investigate the mechanism further. In vivo: GES-1 cells were incubated with F-AOH (8, 4 and 2 µg/mL) for 16 h and treated with 7% ethanol for 4 h. Transwell and flow cytometry were employed to detect migration and apoptosis of cells. RESULTS: F.AOH effectively reduced the area of GUs in rats (from 11.2 ± 1.89 to 2.19 ± 0.95), reversing ethanol-induced cells apoptosis (from 23 ± 1.3 to 8.11 ± 0.93%). It also inhibited the expression of endothelin-1 (ET-1) and iNOS proteins, decreasing the levels of TNF-α IL-6 in serum, improving oxidative stress levels and increasing the expression of Bcl-2/Bax dimer genes. In addition, 4005 differentially expressed genes between the acetic acid model and the drug groups. Through experimental verification, F.AOH can inhibit the activation of TLR4/NF-κB signalling pathway and TRPV1 receptor. CONCLUSIONS: F.AOH, as an effective gastric protective plant component, had potential therapeutic value in anti-inflammatory pain and antioxidative stress gastrointestinal diseases.

Chemical Constituents and Anti-Gastric Ulcer Activity of Essential Oils of Alpinia officinarum (Zingiberaceae), Cyperus rotundus (Cyperaceae), and Their Herbal Pair.

The essential oil (EO) of the herbal pair (HP), Alpinia officinarum-Cyperus rotundus (HP G-X) has been conventionally used in traditional Chinese medicine (TCM) for 'warming the stomach' and relieving pain. However, its pharmacologically active compounds, as well as the mechanism of its anti-gastric ulcer properties remain unclear. In this study, the EOs obtained from HP G-X and its corresponding single herbs were analyzed using GC/MS. A total of 74, 56, and 85 compounds were detected in A. officinarum (GLJ), C. rotundus (XF), and HP G-X, accounting for 93.2 %, 89.5 %, and 92.0 % of the total content, respectively. GLJ mainly contains 1,8-cineol (22.0 %) and α-terpineol (11.8 %), whereas cyperenone (22.4 %) and cyperene (12.3 %) were the major constituents in XF. These four compounds were also detected in the HP G-X with relatively high composition as 11.8 %, 5.5 %, 11.8 %, and 10.6 %, respectively. Although no new compounds were detected in HP G-X, the relative concentration of some compounds increased, while others decreased or even disappeared. HP G-X showed the lowest toxicity (TC50 >800 µg/mL) against human gastric mucosal epithelial cells (GES-1) and had the best protective effect against ethanol-induced GES-1 cell damage compared to the individual herbs. In vitro studies demonstrated that HP G-X and the corresponding single herbs significantly reduced IL-6, TNF-α, and COX-2. In addition, in vivo investigations indicated that HP G-X can protect the gastric mucosa of mice from ethanol-induced damage by inhibiting the inflammatory reaction and providing analgesia. It can also inhibit the expression of NF-κBp65, COX-2, and TRPV1 protein, reduce the concentrations of IL-6 and TNF-α, and relieve heat-induced pain. This study further substantiated the traditional application of HP G-X against gastric ulcers through both in vivo and in vitro investigations.

Ultrabroad supercontinuum generated from a highly nonlinear Ge-Sb-Se fiber.

We report the fabrication of a novel high nonlinear fiber made of Ge-Sb-Se chalcogenide glasses with high numerical aperture (∼1.0), where the core and the cladding glasses consist of Ge15Sb25Se60 and Ge15Sb20Se65 (mol. %), respectively. The nonlinear refractive index (n2) of the core glass is 19×10-18 m2/W at 1.55 µm, and its laser-induced damage threshold under irradiation of 3.0 µm fs laser is approximately 3674 GW/cm2. By pumping a 20-cm-long fiber with a core diameter of 23 µm using 150 fs pulses at 6.0 µm, supercontinuum spanning from ∼1.8 to ∼14 µm was generated.

Components study on gastroprotective effect and holistic mechanism of the herbal pair Alpinia officinarum - Cyperus rotundus based on spectrum-effect relationship and integrated transcriptome and metabolome analyses.

ETHNOPHARMACOLOGICAL RELEVANCE: The herbal pair Alpinia officinarum-Cyperus rotundus (HPAC) has an extended history of use in the treatment of gastric ulcers, and its curative effect is definite. AIM OF THE STUDY: To explore the material basis and holistic mechanism of HPAC on ethanol-induced gastric ulcers. MATERIALS AND METHODS: Three chemometrics, GRA, OPLS, and BCA, were used to construct the spectrum-effect relationship between the HPLC fingerprints of HPAC extracts and the bioactivity indices (cell viability; the levels of TNF-α, IL-6, COX-2, and PGE2; and wound healing rate) against GES-1 cell damage to screen the bioactive ingredients. The bioactive components were isolated and validated in vitro. Simultaneously, the effects of HPAC with concentrated bioactive ingredients was tested on ethanol-induced gastric ulcers in vivo, and the mechanism was investigated using transcriptomics and metabolomics. The mechanism was further validated by Western blotting. Finally, the contents of the main components of HPAC were determined before and after compatibility. RESULTS: Twelve bioactive components were screened, and the structures of nine compounds were confirmed. An in vitro verification test showed that DPHA and galangin could protect GES-1 cells from injury, and that their content increased after compatibility. The CH2Cl2 fraction of HPAC (HP-CH2Cl2) can protect mice from ethanol-induced gastric mucosal injury by reducing hemorrhage and decreasing inflammatory cell infiltration. Western blot analysis indicated that this fraction may up-regulate TRPV1 protein and down-regulate PI3K and AKT proteins. CONCLUSIONS: DPHA and galangin may be the bioactive components against ethanol-induced GES-1 cell injury. HP-CH2Cl2 may exert gastroprotective effects by regulating PI3K, AKT and TRPV1 proteins.