NADPH oxidase produces reactive oxygen species (ROS).Drosophila melanogaster has two homologs of NADPH oxidase, dNox and dDuox, with functions that remain unclear in vivo. To clarify these functions, two independent transgenic fly lines expressing dsRNA targeted for different portions of dDuox mRNA were used. In both flies, en-GAL4> UAS-dDuoxIR 976 -1145 and en-GAL4> UAS-dDuoxIR 370 -518 , in which dDuox was knocked down selectively in the posterior area of the wing disc, the posterior compartment of the adult wings became paler and more fragile with wing veins that were indistinct by comparison with the anterior one. Fluorescence staining of the en-GAL4> UASdDuoxIR 976 -1145 adult wings revealed that the ROS concentration in the posterior compartment was significantly lower than that in the anterior compartment. Moreover, in these flies, the posterior compartment of the wing imaginal disc showed a greater number of apoptotic cells detected by immunostaining with anti-cleaved caspase-3 antibody than those in the anterior compartment. Respective knockdown of tyrosine hydroxylase or dopa-decarboxylase showed paler wing blades in the posterior compartment similar to the phenotype of dDuox-knockdown files. Along with this observation, analysis of the catecholic and dityrosine components in the wings of adult flies proved that dDuox plays important roles in the stabilization of the cuticle structure of the wings via tyrosine cross-linking, the sclerotization and melanization processes possibly through ROS production. These dDuox-knockdown fly lines would be useful tools for further studying dDuox functions during the development of Drosophila.
NADPH oxidase is the major source of non-mitochondrial cellular reactive oxygen species (ROS), and also is reported to be a major cause of various diseases including atherosclerosis and hypertension. In order to screen a new curative reagent that can suppress NADPH oxidase activity, we developed a Drosophila melanogaster fly that would overexpress human Dual oxidase 2 (hDuox2), a member of the NADPH oxidase family, as a screening model. These flies (GMR-GAL4/UAS-hDuox2) had a high generation of ROS in the posterior region of the eye discs along with an easily recognizable rough-eye phenotype, which is an ideal and convenient marker for further screening steps. Moreover, the hDuox2-induced rough-eye phenotype can be rescued by feeding with a culture medium containing mulberry leaves (MLs), which reportedly have an antimetabolic effect. Some commercially available antioxidants such as quercetin-3-O-D-glucoside or quercetin-3-O-glucose-6''-acetate, or the naringin contained in MLs and other herbs, also have shown a similar suppressing effect on the rough-eye phenotype. Our results suggest that flavonoid glycoside is absorbed from the intestine and functions in the body of D. melanogaster as it does in mammalian models such as rats. Thus, the GMR-GAL4/UAS-hDuox2 fly line is a promising model for the screening of novel drugs such as NADPH oxidase inhibitors and/or antioxidants.
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