ORC-13661 protects sensory hair cells from aminoglycoside and cisplatin ototoxicity
Siân R. Kitcher, Nerissa K. Kirkwood, Esra D. Camci, Patricia Wu, Robin M. Gibson, Van A. Redila, Roberto Ogelman, Julian A. Simon, Edwin W. Rubel, David W. Raible, Guy P. Richardson, Corné J. Kros
Siân R. Kitcher, Nerissa K. Kirkwood, Esra D. Camci, Patricia Wu, Robin M. Gibson, Van A. Redila, Roberto Ogelman, Julian A. Simon, Edwin W. Rubel, David W. Raible, Guy P. Richardson, Corné J. Kros
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Research Article Neuroscience Therapeutics

ORC-13661 protects sensory hair cells from aminoglycoside and cisplatin ototoxicity

Abstract

Aminoglycoside (AG) antibiotics are widely used to prevent life-threatening infections, and cisplatin is used in the treatment of various cancers, but both are ototoxic and result in loss of sensory hair cells from the inner ear. ORC-13661 is a new drug that was derived from PROTO-1, a compound first identified as protective in a large-scale screen utilizing hair cells in the lateral line organs of zebrafish larvae. Here, we demonstrate, in zebrafish larvae and in mouse cochlear cultures, that ORC-13661 provides robust protection of hair cells against both ototoxins, the AGs and cisplatin. ORC-13661 also prevents both hearing loss in a dose-dependent manner in rats treated with amikacin and the loading of neomycin-Texas Red into lateral line hair cells. In addition, patch-clamp recordings in mouse cochlear cultures reveal that ORC-13661 is a high-affinity permeant blocker of the mechanoelectrical transducer (MET) channel in outer hair cells, suggesting that it may reduce the toxicity of AGs by directly competing for entry at the level of the MET channel and of cisplatin by a MET-dependent mechanism. ORC-13661 is therefore a promising and versatile protectant that reversibly blocks the hair cell MET channel and operates across multiple species and toxins.

Authors

Siân R. Kitcher, Nerissa K. Kirkwood, Esra D. Camci, Patricia Wu, Robin M. Gibson, Van A. Redila, Roberto Ogelman, Julian A. Simon, Edwin W. Rubel, David W. Raible, Guy P. Richardson, Corné J. Kros

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Figure 4

ORC-13661 protects zebrafish lateral line hair cells from cisplatin toxicity in vivo.

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ORC-13661 protects zebrafish lateral line hair cells from cisplatin toxi...
Hair cell (HC) survival in wild-type *AB zebrafish at 5–7 dpf treated with cisplatin (25–200 μM) for 24 hours with (0.10–8.33 μM) or without (control) ORC-13661. Values were determined by counting the number of α parvalbumin–positive HCs in 4 neuromasts/fish after treatment, with 9–11 fish/treatment group. Percentages reflect the number of HCs remaining in treated fish, relative to HCs remaining in vehicle control fish (n = 30–33 per dosage group). For statistical analyses 2-way ANOVA was used. Error bars represent SD. Results demonstrate that ORC-13661 protects against cisplatin toxicity in a dose-dependent manner.