Effects of thermosensitivity of poly (N-isopropylacrylamide) hydrogel upon the duration of a lag phase at the beginning of drug release from the hydrogel.

The release rates of three kinds of drugs, with different charges, from poly (N-isopropylacrylamide) hydrogels were studied. The release rate was observed to be temperature dependent for the types of drug. When the temperature was lower than the phase transition temperature, the release rate was higher at lower temperatures and increased as the temperature rose. The amount of drugs released from a poly (N-isopropylacrylamide) hydrogel disk was plotted against the square root of time. It was found that the amount of drugs released was proportional to the square root of time over a certain time interval. A lag phase was observed before the amount of drug released became proportional to the square root of time. The longest time lag was observed at the phase transition temperature of poly (N-isopropylacrylamide); LCST (33 degrees C). This suggests that the penetration rate of water into the hydrogels is lowest at the phase transition temperature and drastically changes around it. The release rates of drugs was also affected by the charges of the drug molecules. This may be caused by the interaction of drug molecules with polymer chains. When anionic drugs are released, the electrostatic repulsion seems to act between polymer chains and drug molecules. Therefore, the lag phase observed at the beginning of the release of anionic drugs was shorter, as compared with other kinds of drugs at any temperatures between 25 and 40 degrees C. On the other hand, when cationic drugs are released, the time lag was longer at temperatures higher than 33 degrees C as compared with the time lag at lower temperatures. At temperatures higher than 33 degrees C, drugs are released from the surface skin layer of the hydrogel where water molecules are less mobile than those in bulk distilled water. The drug release thus shows a long lag phase.

Giant hornet (Vespa mandarinia) venomous phospholipases. The purification, characterization and inhibitory properties by biscoclaurine alkaloids.

Two species of giant hornet phospholipase B (PLB), alpha and beta, were purified from the venom of Vespa mandarinia. The purification procedure was simplified by two steps of column chromatographies, Sephadex G-100 and SP-Sepharose. The molecular sizes of PLB alpha and beta were 29.5 and 26.0 kDa, respectively. The isoelectric point of alpha and beta enzymes were pH 10.6 and 10.7, respectively. The temperature optimum for egg yolk lecithin was a broad peak at 40-60 degrees C for both enzymes. Amino acid compositions of both enzymes were high contents of aspartic acid, glycine, leucine, lysine and other aliphatic amino acids. Cystine was similar amounts to other species of phospholipases (PLs). The K(m) values of alpha and beta enzymes were 8.29 and 7.53 mg/ml for egg yolk lecithin, respectively. In the catalytic specificity for L-alpha-phosphatidylcholine-beta-oleoil-gamma-palmitoil, the K(m) values of alpha enzyme for gamma-palmitoil and beta-oleoil residues were 0.528 and 1.392 mM, respectively. While the K(m) values of beta enzyme for gamma-palmitoil and beta-oleoil residues were 7.91 and 2. 68 mM, respectively. Both alpha and beta enzymes were inhibited strongly by cepharanthine. The lecithin hydrolysis of alpha enzyme was competitively inhibited, but beta enzyme was uncompetitive. Cepharanthine also inhibited noncompetitively PLA(2)s of bovine pancreas, bee venom and Naja mossambica mossambica.