Abstract
Cisplatin has been regarded as an effective and versatile chemotherapeutic agent for nearly 40 years. Though the associated dose-dependent ototoxicity is known, the cellular mechanisms by which cochleovestibular hair cell death occur are not well understood. We have previously shown that aminoglycoside ototoxicity is mediated in part by cytosolic protein synthesis inhibition. Despite a lack of molecular similarity, aminoglycosides were shown to elicit similar stress pathways to cisplatin. We therefore reasoned that there may be some role of protein synthesis inhibition in cisplatin ototoxicity. Employing a modification of the bioorthogonal noncanonical amino acid tagging (BONCAT) method, we evaluated the effects of cisplatin on cellular protein synthesis. We show that cisplatin inhibits cellular protein synthesis in organ of Corti explant cultures. Similar to what was found after gentamicin exposure, cisplatin activates both the c-Jun N-terminal kinase (JNK) and mammalian target of rapamycin (mTOR) pathways. In contrast to aminoglycosides, cisplatin also inhibits protein synthesis in all cochlear cell types. We further demonstrate that the multikinase inhibitor sorafenib completely prevents JNK activation, while providing only moderate hair cell protection. Simultaneous stimulation of cellular protein synthesis by insulin, however, significantly improved hair cell survival in culture. The presented data provides evidence for a potential role of protein synthesis inhibition in cisplatin-mediated ototoxicity.
Highlights
Cisplatin is a long-established therapeutic agent for a variety of malignant diseases (Rybak, 2007; Langer et al, 2013; Landier, 2016)
Cisplatin inhibited protein synthesis in all cell types in the organ of Corti, including hair cells and supporting cells. This is in contrast to the pattern of protein synthesis inhibition elicited by aminoglycosides, which is restricted to hair cells (Figure 1C, bottom panels)
The reduction of protein synthesis was evident in immunoblot experiments of organ of Corti explant lysates, in which AHA-biotin was detected with SA-horseradish peroxidase (HRP) (Figure 1D)
Summary
Cisplatin is a long-established therapeutic agent for a variety of malignant diseases (Rybak, 2007; Langer et al, 2013; Landier, 2016). It is associated with dose-dependent nephro- and ototoxicity, though the cellular mechanisms by which these processes occur are poorly understood (Humes, 1999; Karasawa and Steyger, 2015). Cisplatin uptake results in the degradation of outer hair cells with subsequent loss of inner hair cells and supporting cells within the organ of Corti at higher doses (Hawkins, 1976). The incidence of ototoxicity among those receiving cisplatin ranges from 35% to 100% (Benedetti Panici et al, 1993; Nitz et al, 2013; Malgonde et al, 2015).
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