Reactive oxygen species (ROS) produced by NADPH oxidases (Nox) contribute to the development of different types of sensorineural hearing loss (SNHL), a common impairment in humans with no established treatment. Although the essential role of Nox3 in otoconia biosynthesis and its possible involvement in hearing have been reported in rodents, immunohistological methods targeted at detecting Nox3 expression in inner ear cells reveal ambiguous results. Therefore, the mechanism underlying Nox3-dependent SNHL remains unclear and warrants further investigation.We generated Nox3-Cre knock-in mice, in which Nox3 was replaced with Cre recombinase (Cre). Using Nox3-Cre;tdTomato mice of either sex, in which tdTomato is expressed under the control of the Nox3 promoter, we determined Nox3-expressing regions and cell types in the inner ear. Nox3expressing cells in the cochlea included various types of supporting cells (SC), outer hair cells (OHC), inner hair cells (IHC), and spiral ganglion neurons (SGN). Nox3 expression increased with cisplatin, age, and noise insults. Moreover, increased Nox3 expression in SC and OHC, especially at the basal turn of the cochlea, played essential roles in ROS-related SNHL. The extent of Nox3 involvement in SNHL follows the following order: cisplatin-induced HL (CIHL) > age-related HL (ARHL) > noise-induced HL (NIHL). Here, on the basis of Nox3-Cre;tdTomato, which can be used as a reporter system (Nox3-Cre +/− ;tdTomato +/+ and Nox3-Cre +/+ ;tdTomato +/+ ), and Nox3-KO (Nox3-Cre +/+ ;tdTomato +/+ ) mice, we demonstrate that Nox3 inhibition in the cochlea is a promising strategy for ROS-related SNHL, such as CIHL, ARHL, and NIHL.
Significance StatementWe found Nox3-expressing regions and cell-types in the inner ear, especially in the cochlea, using 3 Nox3-Cre;tdTomato mice, a reporter system generated in this study. Nox3 expression increased with cisplatin, age, and noise insults in specific cell-types in the cochlea and resulted in the loss (apoptosis) of outer hair cells. Thus, Nox3 might serve as a molecular target for the development of therapeutics for sensorineural hearing loss, particularly cisplatin-induced, age-related, and noiseinduced hearing loss.