Activation of ribosomal S6 kinase (RSK) during porcine oocyte maturation.

The normal kinetics of ribosomal S6 kinase (RSK) during the meiotic maturation of porcine oocytes were examined. The phosphorylation states of RSK and extracellular signal-regulated kinase (ERK), major mitogen-activated protein (MAP) kinases in maturating porcine oocytes, were detected by Western blotting analysis. The S6 protein kinase activity was assayed using a specific substrate peptide which contained the major phosphorylation sites of S6 kinase. Full phosphorylation of RSK was correlated with ERK phosphorylation and was observed before germinal vesicle breakdown. S6 kinase activity was low in both freshly isolated and 20 h cultured oocytes. S6 kinase activity was significantly elevated in matured oocytes to a level about 6 times higher than that in freshly isolated oocytes. Furthermore, full phosphorylation of RSK was inhibited when oocytes were treated with U0126, a specific MAP kinase kinase inhibitor, in dose-dependent manner, indicating that RSK is one of the substrates of MAP kinase. These results suggest that the activation of RSK is involved in the regulation of meiotic maturation of porcine oocytes.

Effects of coffee cherry, the residue left after removal of the beans from the coffee fruit, on mammary glands, automatic behavior and related parameters in mice.

To clarify the mechanisms of the anti-mammary tumor activity of coffee cherry (CC), the residue left after the removal of beans from the fruit, the effects in SHN mice of CC on plasma and urine component levels, mammary gland growth, spontaneous motor activity and several related parameters were examined. Hot water extract of CC was given to 2-month-old mice in drinking water (0.5%) for 60 days. The treatment prevented the elevation of plasma and urine levels of alanin amino-transferase and asparate aminotransferase, indicating that CC can protect against metabolic abnormality, which is a cause of the high mammary tumor susceptibility of SHN mice. It also resulted in an inhibition of the formation of precancerous mammary hyperplastic alveolar nodules. Neither food and water intake nor spontaneous motor activity was affected by CC. The findings provide novel information on the mechanism of the protective effect of CC on mammary tumorigenesis and confirm the usefulness of CC as a safe chemopreventive agent of mammary and other types of tumors.

Degradation kinetics of (+/-)-4'-ethyl-2-methyl-3-(1-pyrrolidinyl)propiophenone hydrochloride (HY-770) and structure-stability relationship among its analogues in aqueous solution.

The kinetics and pathways for degradation of (+/-)-4'-ethyl-2-methyl-3-(1-pyrrolidinyl)propiophenone hydrochloride (HY-770; 1), a newly developed muscle-relaxing agent, and its analogues were studied in aqueous solution at 50 degrees C, ionic strength 0.5 M, and pH 8.0-12.0. Compound 1 and its four analogues followed pseudo-first-order degradation kinetics at constant pH and temperature. From the analysis of the pH degradation-rate profiles, it is evident that specific hydroxide ion-catalyzed degradations of ionized and un-ionized species occur for 1 and its structural analogue, 3'-fluoro-2-methyl-3-(1-pyrrolidinyl)propiophenone hydrochloride (HN-961; 5). The hydroxide ion-catalyzed degradation of the ionized species was found to be 100 times faster than that of the un-ionized species and to be the major process at pH less than 9.0. On the contrary, 1 was extremely stable in 0.5 M HCl at 50 degrees C, suggesting that the hydronium ion-catalyzed degradation and the spontaneous degradation of the ionized species is negligible. The Arrhenius plot for the degradation of 1 at 35-50 degrees C and pH 9.0 showed that the apparent energy of activation was 22.0 kcal/mol. The degradation rates of the five structural analogues were significantly dependent on the electron withdrawing effect of the benzene substituents of the molecule.