Preservation of hair cells is critical for maintaining hearing function, as damage to sensory cells potentially leads to irreparable sensorineural hearing loss. Hair cell loss is often associated with inflammation and oxidative stress. One promising class of bioactive peptides is mitochondrial-derived peptides (MDPs), which have already been proven to protect various tissues from cellular stresses and delay aging processes. Humanin (HN) is one of the best-known members of this family, and recently, we have shown its protective effect in hair cells. The synthetic derivate HN S14G (HNG) has a more potent protective effect than natural HN making it a more useful peptide candidate to promote cytoprotection. A less-known MDP is small humanin-like peptide 3 (SHLP3), which has cytoprotective effects similar to HN, but likely acts through different signaling pathways. Therefore, we examined the effect of exogenous HNG and SHLP3 in auditory hair cells and investigated the molecular mechanisms involved. For this purpose, explants of the organ of Corti (OC) were treated with gentamicin in the presence and absence of HNG or SHLP3. Administration of HNG and SHLP3 reduced gentamicin-induced hair cell loss. The protective mechanisms of HNG and SHLP3 in OC explants included, in part, modulation of AKT and AMPKα. In addition, treatment with HNG and SHLP3 reduced gentamicin-induced oxidative stress and inflammatory gene overexpression. Overall, our data show that HNG and SHLP3 protect hair cells from gentamicin-induced toxicity. This offers new perspectives for the development of therapeutic strategies with MDPs against hearing loss.
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