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1.
Rapid Commun Mass Spectrom ; 35(1): e8960, 2021 Jan 15.
Article in English | MEDLINE | ID: mdl-33002251

ABSTRACT

RATIONALE: The Maillard reaction plays an important role in food, physiology and traditional Chinese medicine, and its primary reaction products are formed through Amadori rearrangement by reducing sugars and amino acids. The analysis of the characteristic fragmentation and of the glycosidic bond configuration of Amadori compounds will promote their fast discovery and identification by mass spectrometry. METHODS: Four Amadori compounds that reduce disaccharides and proline/tryptophan were used to investigate the fragmentation mechanisms via tandem mass spectrometry (MS/MS) with different alkali metal ion adducts. Cu2+ could be used to distinguish glycosidic bond configurations of the reducing disaccharides in the full-scan mass spectra. Quantum calculations were also conducted for a single Amadori compound with Cu2+ for analysis of the most optimized configurations and binding energies of metal complexes. RESULTS: MS/MS analysis of Amadori-alkali metal complexes revealed that the radius of the alkali metal ions had profound effects on the degree of fragmentation of such compounds, among which lithium-cationized ions produced the most extensive fragmentation. Amadori compounds with different glycosidic bonds formed differently proportioned metal complexes with Cu2+ , and the complexity of the copper complexes containing tryptophan moieties was higher than that of those containing proline moieties in the mass spectra. Quantum calculations showed that Amadori compounds with ß-configurations can form more binding sites with Cu2+ than those with α-configurations, thus making the metal complex with a single ligand more stable. In addition, the chelation of tryptophan with copper ions increased the coordination binding energy, which showed that α-configured Amadori compounds were readily able to form multi-ligand copper complexes. CONCLUSIONS: Metal-ion-assisted analysis provides crucial information for structural and anomeric analysis of Amadori compounds by electrospray ionization mass spectrometry. Elucidation of binding sites and binding energies by quantum calculations has significantly improved the knowledge of metal complexes in the gas phase and provides background information for determining the glycosidic configuration of Amadori isomers.


Subject(s)
Disaccharides , Glycation End Products, Advanced , Metals/chemistry , Spectrometry, Mass, Electrospray Ionization/methods , Disaccharides/analysis , Disaccharides/chemistry , Glycation End Products, Advanced/analysis , Glycation End Products, Advanced/chemistry , Maillard Reaction , Tandem Mass Spectrometry/methods
2.
Biomed Pharmacother ; 105: 582-589, 2018 Sep.
Article in English | MEDLINE | ID: mdl-29890466

ABSTRACT

Esophageal cancer is one of the most common digestive malignant diseases worldwide and emerging evidences revealed that microRNAs (miRNAs) were implicated in the development and progression of esophageal cancer. However, the expression level and biological function of microRNA-873(miR-873) in esophageal cancer are still largely elusive. In this study, we investigated the expression and biological roles of miR-873 in human esophageal cancer. Our results revealed that miR-873 was significantly underexpressed in esophageal cancer tissues and cell lines when compared with the para-tumor tissue and primary human esophageal epithelial cells. Furthermore, overexpression of miR-873 could remarkably inhibit esophageal cancer cell growth, migration and invasion. Moreover, we validated differentiated embryonic chondrocyte expressed gene 2 (DEC2) as a direct target of miR-873 which could reverse the repressive effects of miR-873 on esophageal cancer cell. In summary, our investigation demonstrated that miR-873 was underexpressed in esophageal cancer and might act as a tumor suppressor gene by directly targeting DEC2.


Subject(s)
Basic Helix-Loop-Helix Transcription Factors/genetics , Esophageal Neoplasms/genetics , Genes, Tumor Suppressor , MicroRNAs/genetics , Cell Line, Tumor , Cell Movement/genetics , Cell Proliferation/genetics , Epithelial Cells/metabolism , Epithelial Cells/pathology , Esophageal Neoplasms/mortality , Esophageal Neoplasms/pathology , Gene Expression Regulation, Neoplastic , Humans , Kaplan-Meier Estimate
3.
Sheng Wu Gong Cheng Xue Bao ; 19(5): 603-7, 2003 Sep.
Article in Chinese | MEDLINE | ID: mdl-15969092

ABSTRACT

Aflatoxins, found in contaminated food, are potent hepatocarcinogen. The aflatoxin-detoxiczyme (ADTZ) isolated from the edible fungus Armillariella sp., detoxifies aflatoxin B1 (AFB1). This paper reports on the characterization of immobilized ADTZ using a hydrophobic adsorption method. The ADTZ was isolated from cryo-homogenated fungus, previously cultivated at 24 - 28 degrees C for 20 - 30 days, using n-alkyl amino-agar beads. Various adsorption conditions of the enzyme to n-alkyl or n-octyl amino-agar beads were carried out. The effects of enzyme immobilization on different alkyl amino-agar beads, at different pH values (5.5 - 7.5), at different temperature (20 - 40 degrees C) and at different salt concentrations were investigated. The enzyme activity was measured at OD360 by reacting 133.3 ng/mL of AFB1 at 30 degrees C for 30 min with the immobilized ADTZ. The Km value of the immobilized enzyme, determined using Schematic Linewearver-Burk plot, is 3.308 x 10(-3) mol/L, lower than that of free enzyme, which is 2.16 x 10(-6) mol/L. This indicated the affinity of the detoxiczyme to AFB1 decreased after immobilization. The immobilized enzyme activity in oil-phase (n-hexane) was also studied with different concentration of water. After the treatment of the immobilized ADTZ, the toxin no longer causes liver toxicity in the rat toxicity test, no longer causes mutagenicity in Ames test and is no longer toxic in the chicken embryo test. Results also indicated that the pH stability, the thermostability and the freezing stability of ADTZ were improved after the immobilization.


Subject(s)
Enzymes, Immobilized/chemistry , Enzymes, Immobilized/metabolism , Multienzyme Complexes/chemistry , Multienzyme Complexes/metabolism , Absorption , Aflatoxin B1/metabolism , Aflatoxin B1/toxicity , Animals , Chickens , Enzyme Stability , Hydrogen-Ion Concentration , Hydrophobic and Hydrophilic Interactions , Rats , Temperature , Toxicity Tests
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