An EtOAc-soluble fraction from a 50% EtOH extract of the roots of Angelica keiskei inhibited phenylephrine-induced vasoconstriction in rat aortic rings, while an EtOAc-insoluble fraction had no effect at 100 micrograms/ml. Five active substances isolated from the EtOAc-soluble fraction of the roots were identified as xanthoangelol (1), 4-hydroxyderricin (2), and xanthoangelols B (3), E (4) and F (5), which inhibited phenylephrine-induced vasoconstriction at the concentrations of 10-100 micrograms/ml. It was found that xanthoangelol (1), 4-hydroxyderricin (2), and xanthoangelols E (4) and F (5) inhibited the phenylephrine-induced vasoconstriction through endothelium-dependent endothelium-derived relaxing factor (EDRF) production and/or nitric oxide (NO) production. Among the five chalcones, xanthoangelol B (3) inhibited the phenylephrine-induced vasoconstriction most strongly, and it inhibited the phenylephrine-induced vasoconstriction in the presence or absence of endothelium and in the presence or absence of NG-monomethyl-L-arginine (L-NMMA) (an NO synthetase inhibitor). Furthermore, 4-hydroxyderricin (2) and xanthoangelol B (3) at concentrations of 10-100 micrograms/ml concentration-dependently inhibited the elevation of intracellular free calcium [Ca2+]i induced by phenylephrine. These results demonstrate that compounds 1, 2, 4 and 5 inhibit phenylephrine-induced vasoconstriction through endothelium-dependent production of EDRF/NO and/or through the reduction of the [Ca2+]i elevation induced by phenylephrine. On the other hand, the inhibitory mechanism of compound 3 on phenylephrine-induced vasoconstriction might involve the direct inhibition of smooth muscle functions through the reduction of [Ca2+]i elevation without affecting EDRF/NO production.
Transparent HfO2–8 mol%Y2O3 films were prepared on
amorphous quartz glass substrates by sol-gel processes using HfCl4 and
YCl3·6H2O as starting materials. Oriented and
non-oriented films were obtained by varying the firing conditions. The oriented films
were formed by maintaining the firing temperature in the electric furnace above
490°C. Depth profiles of the crystals in the films and transmission electron
microscopy of the films revealed that oriented crystals grew near the surface of the
films.
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