Imidazole antifungals, but not triazole antifungals, increase membrane Zn2+ permeability in rat thymocytes Possible contribution to their cytotoxicity.

The use of zinc as a nutritional supplement has become common in many countries. Since zinc has diverse actions, it may be difficult to predict its synergistic and/or antagonistic action in simultaneous presence of drug(s). The combination of imidazole antifungals, but not triazole antifungals, with 3-30 microM ZnCl2 significantly increased the lethality of rat thymocytes. Since intracellular Zn2+ exerts various actions on the process of cell death, there is a possibility that imidazole antifungals, but not triazole antifungals, increases concentration of intracellular Zn2+ ([Zn2+]i). To test the possibility, we examined the effects of imidazole and triazole antifungals on [Zn2+]i of rat thymocytes in absence and presence of extracellular Zn2+ by the use of FluoZin-3, a fluorescent Zn2+ indicator. Imidazole antifungals (clotrimazole, econazole, and oxiconazole) increased the [Zn2+]i in the presence of extracellular Zn2+ while it was not the case for triazole antifungals (itraconazole and fluoconazole). Thus, it is suggested that imidazole antifungals increase the membrane permeability of Zn2+. The potency order in the augmentation of FluoZin-3 fluorescence by imidazole antifungals in the presence of extracellular Zn2+ was the same as that in their cytotoxic action. Therefore, the cytotoxic action of imidazole antifungals may be related to their action on membrane Zn2+ permeability.

Some characteristics of quercetin-induced cytotoxicity on rat thymocytes under in vitro condition.

Quercetin, a flavonoid found in fruits and vegetables, exerts beneficial effects that contribute to human health. Therefore, quercetin preparation is expected as complementary or alternative medicine used by general population. The plausible criterion for such medicines is to exert no toxic action on normal cells. In this study, the effects of quercetin on normal cells were examined using rat thymocytes in RPMI-1640 medium. Significant cytotoxic actions of quercetin were observed at 30 microM. Quercetin increased the populations of propidium-stained cells, shrunken cells, annexin V-positive cells, and the cells with hypodiploidal DNA. Thus, the type of cell death induced by quercetin was apoptosis. Z-VAD-FMK, a pan-inhibitor for caspases, partly attenuated the process of quercetin-induced apoptosis. It can be suggested that plasma concentration of quercetin should be below 30 microM after the digestion when quercetin preparation as complementary or alternative medicine is used.

Preventive effect of diethyldithiocarbamate on selenite-induced opacity in cultured rat lenses.

Increasing evidence suggests the involvement of reactive oxygen species in the development of cataracts. In this study, we investigated the preventive effect of diethyldithiocarbamate (DDC) on the selenite-induced opacification of cultured rat lenses. Lens opacity was produced by incubation with 0.2 mM selenite for 24 h, which resulted in an increase in selenium content in the cultured lenses. The increase in selenium content and the onset of opacification and lens membrane damage were inhibited by preincubation with DDC. It is reasonable to assume that DDC contributed to anticataract ability. In addition, selenite resulted in a significant decrease in glutathione and protein thiol content and an increase in lipid peroxidation levels in the lenses. These alterations were also depressed by DDC, suggesting a contribution of an antioxidative effect by DDC in the inhibition of lens opacification. At the same lens selenium content, DDC treatment inhibited opacification and lipid peroxide. In conclusion, we propose that the antioxidative properties of DDC play a major role in its contribution to the anticataract effect.

Comparative study of superoxide dismutase in normal and hereditary cataract (UPL) rats.

In the present study, the levels of SOD activity and Cu, Zn-SOD mRNA in the brain, kidney, liver and eye of normal and Upjohn Pharmaceutics Limited (UPL) rats, a new hereditary cataract model derived from Sprague-Dawley rats, were measured. Although the levels of SOD activity in the eye and brain of UPL rats were significantly decreased compared with those of normal rats 3 and 5 weeks after birth, the levels of SOD activities in the kidney and liver were the same in both groups. The levels of Cu, Zn-SOD mRNA in kidney and liver of UPL rats were the same as those of normal controls. The level of Cu, Zn-SOD mRNA in the brain of normal rats 5 weeks after birth was about twofold greater than that of UPL, and that in the eye of UPL rats 3 weeks after birth was significantly decreased compared with that of normal controls. The sequences of cDNA encoding Cu, Zn-SOD and the sequences of the regulatory region of the Cu, Zn-SOD gene were confirmed to be the same in normal and UPL rats. These results indicated that the decreases in levels of SOD activity and Cu, Zn-SOD mRNA in the brain and eye of UPL rat were not due to mutation of the genomic Cu, Zn-SOD gene in UPL rats or differences in the sequence of the regulatory region of the Cu, Zn-SOD gene between normal and UPL rats.