| Experiment Id | E-GEOD-72722 | Series Id | GSE72722 |
| Name | Hypervulnerability to sound-exposure through impaired adaptive proliferation of peroxisomes | Experiment Type | transcription profiling by array |
| Study Type | WT vs. Mutant | Source | ArrayExpress |
| Curation Date | 2019-03-28 |
| description | A deficiency of pejvakin, a protein of unknown function, causes a strikingly heterogeneous form of deafness. Pejvakin-deficient (Pjvk-/-) mice also exhibited variable auditory phenotypes. Correlation between their hearing thresholds and the number of pups per cage suggested a possible harmful effect of pup vocalizations. Direct sound or electrical stimulation showed that the cochlear sensory hair cells and auditory pathway neurons of Pjvk-/- mice and patients were exceptionally vulnerable to sound. Pjvk-/- cochleas displayed features of marked oxidative stress and impaired anti-oxidant defenses. We showed that pejvakin is associated with peroxisomes, and is required for the oxidative stress-induced proliferation of these organelles. In Pjvk-/- hair cells, peroxisomes displayed structural abnormalities after the onset of hearing. Noise-exposure of wild-type mice rapidly upregulated Pjvk cochlear transcription, and triggered peroxisome proliferation in hair cells and primary auditory neurons. Our results reveal that the anti-oxidant activity of peroxisomes protects the auditory system against noise-induced damage. Three RNA samples was extracted from dissected organ of Corti (OC) for each genotype (Pjvk-/- and Pjvk+/+ mice) and analyzed (triplicate OCmm-1, OCmm-2, and OCmm-3 for Pjvk-/-, and triplicate OCpp-1, OCpp-2, and OCpp-3 for Pjvk+/+). |
