Antioxidants from Lespedeza homoloba. (I).

The stems of Lespedeza homoloba yielded eight new and three known phenolic compounds. Their structures have been elucidated on the basis of their spectral data. These compounds had strong antioxidative activity against lipid peroxidation in the rat brain homogenate test. 3,9-Dihydroxypterocarp-6a-en and lespedezol A2 showed significant antiallergic activity in allergic (type I) mice.

O/W lipid emulsions for parenteral drug delivery. I. Pharmacokinetics of the oil particles and incorporated sudan II.

The potential usefulness of oil in water (O/W) lipid emulsions as parenteral drug delivery system for lipophilic drugs was examined in tumor-bearing rats. A model lipophilic drug, sudan II (PCoct = 226000), was formulated in five lipid emulsions consisting of soybean oil and various surfactants. Compared with HCO-60 micellar and plasma solutions of sudan II, the blood concentration of sudan II was markedly elevated by administration as a lipid emulsion. However, the distribution of sudan II to the liver, lungs, spleen, and adipose tissue was not altered, and that to the brain, heart, kidneys, muscle, and tumor was slightly decreased. To understand these results, pharmacokinetic analysis was performed using a newly derived compartmental model, and moreover, the organ distribution clearance was analyzed. It was suggested that the oil particles deliver the incorporated drug selectively to the liver, lungs, and spleen, and the speed of delivery could be surpressed by using HCO-60. However, in the case of sudan II, its rapid release from the oil particles after i.v. injection prevented a drastic alteration in the distribution of sudan II. The simulation studies suggested that a considerable decrease in the release rate or an increase in partition coefficient (experimentally more than 10(8) would be required for delivery.

Anticaries effects of polyphenolic compounds from Japanese green tea.

The dental caries inhibiting effect of the extract from Japanese green tea, one of the most popular drinks in Japan, was studied both in vitro and in vivo. The crude tea polyphenolic compounds (designated Sunphenon) from the leaf of Camellia sinensis were found to effectively inhibit the attachment of Streptococcus mutans strain JC-2 (serotype c) to saliva-coated hydroxyapatide discs. Sunphenon was also inhibitory to water-insoluble glucan formation from sucrose by crude glucosyltransferase of S. mutans JC-2 (c). Among the tea catechins tested, (-)-epigallocatechin gallate and (-)-epicatechin gallate showed the most potent inhibition of the glucosyltransferase activity. Finally, significantly lower caries scores were observed in specific pathogen free rats infected with S. mutans JC-2 (c) and fed a cariogenic diet and/or drinking water containing 0.05% Sunphenon as compared with control rats not receiving polyphenolic compounds.

2,5,2',5'-Tetrachlorobiphenyl impairs the bioenergetic functions of isolated rat liver mitochondria.

The effects of 2,5,2',5'-tetrachlorobiphenyl (25TCB) on parameters related to the bioenergetic functions of isolated rat liver mitochondria were investigated. State 3 respiration was inhibited by 25TCB with both succinate and glutamate/malate as the respiratory substrates. The extent of inhibition with succinate was larger than that observed with glutamate/malate. The concentration of 25TCB required to cause 50% inhibition for succinate was 51 microM, but with glutamate/malate, only 53% inhibition was observed at 200 microM. 25TCB stimulated state 4 respiration after 1-2 min lag period; state 4 respiration in the presence of glutamate/malate was more intensely stimulated by 25TCB than in the presence of succinate. 25TCB dissipated the membrane potential across the mitochondrial membranes. Isolated rat liver mitochondria accumulate large amounts of Ca2+ at the expense of respiration-linked energy (substrate oxidation) or of that provided by the hydrolysis of ATP by the mitochondrial ATPase. The Ca2+ accumulation by mitochondria was severely depressed by 25TCB when the energy was supplied by respiration. Furthermore, the inhibition of Ca2+ accumulation by 25TCB with succinate was greater than that produced with glutamate/malate. On the other hand, with ATP as the source of energy, 25TCB inhibited Ca2+ accumulation at high concentrations. 25TCB also released Ca2+ from mitochondria that had already accumulated Ca2+, indicating that mitochondrial membrane integrity was damaged by the intercalation of 25TCB. These results show that 25TCB impairs mitochondrial energy production, and inhibits Ca2+ sequestration by mitochondria.