Diabetes mellitus is a chronic disease that is characterized by hyperglycemia caused by insufficient insulin action. We have explored the edible ingredients from folk medicines in Japan that contain substances complementing insulin action, such as the induction of adipocyte differentiation and the enhancement of glucose uptake. We eventually found that the ethanol extract from a Japanese herb "Ashitaba", Angelica keiskei, contained two major chalcones of 4-hydroxyderricin (4-HD) and xanthoangelol that showed strong insulin-like activities via a pathway independent of the peroxisome proliferator-activated receptor-gamma activation. The 4-HD especially showed the preventive effects on the progression of diabetes in genetically diabetic KK-Ay mice.
Under physiological circumstances, cell membrane damage is not evident in biliary systems, despite the fact that hydrophobic bile salts are known to induce such damage by their detergent effects. The aim of this study was to determine the cytoprotective effects of liposomes and hydrophilic bile salts against hydrophobic bile salt-induced cell membrane damage, with the use of hemolysis of erythrocytes as a model of cytotoxicity. Washed human erythrocytes were incubated for 10, 30, 60, 90, and 120 min in buffered media (pH 7.45) containing increasing concentrations of different bile salts (1, 2.5, 5, 25, 50 mM). The cytotoxicity of the bile salts was found to be dose and time dependent and was correlated to the degree of the hydrophobicity of the bile salts as determined by the retention factor in reversed-phase high-performance liquid chromatography. Hydrophobic bile salt-induced hemolysis was reduced by liposomes and hydrophilic bile salts. Cytoprotection by liposomes was related to the degree of saturation of the fatty acyl chains, and cytoprotection by hydrophilic bile salts was related to their hydrophilicity. These in vitro findings indicate that vesicles may play a role in protection against cell membrane damage by hydrophobic bile salts in biliary systems and that such damage may be caused by an imbalance between hydrophobic and hydrophilic bile salts.
A deletion mutant of influenza virus haemagglutinin (HA; headless HA) lacking the globular region was expressed in CV-I cells and detected with a monoclonal antibody, C179, which recognizes a conformational epitope in the middle of the stem region of HA and neutralizes all H 1 and H2 subtypes. The cDNA coding for the headless HA was constructed from influenza virus A/Okuda/57 (H2N2), which was also used to select C179. The conformational epitope recognized by C 179 was highly stable even after removal of the globular region. The survival rate of mice immunized with the headless HA and challenged with lethal influenza virus A/FM/1/47 (HIN1) was significantly higher than that of the control mice. The headless HA has the potential to induce cross-protection against influenza virus infection.
Metabolome analysis using capillary electrophoresis (CE) coupled with high-resolution mass spectrometry (HRMS) has the potential to improve coverage of metabolite detection because of its high selectivity and sensitivity. Configuration of the interface between CE and HRMS to meet the ground connection is essential for enabling independent regulation of the electrical currents in the CE and electrospray field. In the present study, we applied an electrospray-ionization adapter equipped with a grounded nebulizer to CE-HRMS and tested the analytical performance for 34 charged compounds. The extracted-ion electropherograms, consisting of seven sets of isomers, showed reasonable peak shapes and separation for the annotation of each metabolite. The levels of 34 target analytes in a standard mixture were determined with a dynamic range of at least 10 2 , maintaining linearity with r 2 > 0.9. The repeatability and intermediate precision above the lower limit of quantification showed the relative standard deviation to be lower than 20%. In the spike-recovery experiment, 27 of the 34 metabolites in plasma extract were recovered at a rate of 80 to 120%, suggesting high accuracy. Furthermore, we assessed the feasibility of our platform in metabolome analysis using human-plasma extract. The results showed successful detection of 270 metabolites, indicating the potential of our platform to yield higher coverage of the metabolome. In addition, analysis of dilution integrity demonstrated the quantitative ability of metabolome analysis with CE-HRMS, although the existence of saturation or matrix effects were seen in the case of 33 of the metabolites. This study indicates that our platform has great potential for largescale metabolome analysis of plasma for biological studies and clinical biomarker screening.
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