The roles of NADPH oxidases during adult zebrafish fin regeneration

ABSTRACT

Sustained elevated levels of reactive oxygen species (ROS) have been shown to be essential for whole body, appendage and organ regeneration in various organisms, including planarians, Hydra, zebrafish, axolotl, Xenopus, geckos and mice. In the majority of cases these roles have been shown via the use of NADPH oxidase pharmacological inhibitors, which generally target all NAPDH oxidases (NOXes). To identify the specific NOX or NOXes essential for ROS production during adult fin regeneration in zebrafish, we generated nox mutants for duox, nox5 and cyba (a key subunit of NOXes 1-4). We also crossed these mutant lines to a transgenic line ubiquitously expressing HyPer, which permits the measurement of ROS levels in adult zebrafish fins. Using this approach, we found that homozygous duox mutants have significantly attenuated ROS levels following fin amputation, and this correlated with a significantly diminished rate of fin regeneration. While the other nox homozygous mutants (nox5 and cyba) showed less of an effect on ROS levels or adult fin regeneration, duox/cyba double mutants showed a more diminished rate of fin regeneration than duox mutants alone, suggesting that Nox1-4 do play a role during regeneration, but one that is secondary to that of Duox. This work also serendipitously found that ROS levels in amputated adult zebrafish fins oscillate during the day with a circadian rhythm.