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itemprop="headline">Aminoglycoside- and Cisplatin-Induced Ototoxicity: Mechanisms and Otoprotective Strategies</h1> <div class="contributors"> <ol class="contributor-list" id="contrib-group-1"> <li class="contributor" id="contrib-1" itemprop="author" itemscope="itemscope" itemtype="http://schema.org/Person"><span class="name" itemprop="name"><a class="name-search" href="/search?author1=Corn%C3%A9+J.+Kros&amp;sortspec=date&amp;submit=Submit">Corné J. Kros</a></span><a id="xref-aff-1-1" class="xref-aff" href="#aff-1">1</a> and </li> <li class="last" id="contrib-2"><span class="name"><a class="name-search" href="/search?author1=Peter+S.+Steyger&amp;sortspec=date&amp;submit=Submit">Peter S. Steyger</a></span><a id="xref-aff-2-1" class="xref-aff" href="#aff-2">2</a><span class="xref-sep">,</span><a id="xref-aff-3-1" class="xref-aff" href="#aff-3">3</a></li> </ol> <ol class="affiliation-list"> <li class="aff"><a id="aff-1" name="aff-1"></a><address>¹Sussex Neuroscience, School of Life Sciences, University of Sussex, Falmer, Brighton BN1 9QG, United Kingdom </address> </li> <li class="aff"><a id="aff-2" name="aff-2"></a><address>²Oregon Hearing Research Center, Oregon Health &amp; Science University, Portland, Oregon 97239 </address> </li> <li class="aff"><a id="aff-3" name="aff-3"></a><address>³National Center for Rehabilitative Auditory Research, VA Portland Health Care System, Portland, Oregon 97239 </address> </li> </ol> <ol class="corresp-list"> <li class="corresp" id="corresp-1"><em>Correspondence:</em> <span class="em-link"><span class="em-addr">c.j.kros{at}sussex.ac.uk</span></span>; <span class="em-link"><span class="em-addr">steygerp{at}ohsu.edu</span></span></li> </ol> </div> <div class="section abstract" id="abstract-1" itemprop="description"> <div class="section-nav"> <div class="nav-placeholder"> </div><a href="#sec-1" title="TRAFFICKING OF CLINICAL OTOTOXINS INTO THE INNER EAR" class="next-section-link"><span>Next Section</span></a></div> <h2>Abstract</h2> <p id="p-3">Ototoxicity refers to damage of inner ear structures (i.e., the cochlea and vestibule) and their function (hearing and balance) following exposure to specific in-hospital medications (i.e., aminoglycoside antibiotics, platinum-based drugs), as well as a variety of environmental or occupational exposures (e.g., metals and solvents). This review provides a narrative derived from relevant papers describing factors contributing to (or increasing the risk of) aminoglycoside and cisplatin-induced ototoxicity. We also review current strategies to protect against ototoxicity induced by these indispensable pharmacotherapeutic treatments for life-threatening infections and solid tumors. We end by highlighting several interventional strategies that are currently in development, as well as the diverse challenges that still need to be overcome to prevent drug-induced hearing loss. </p> </div> <p id="p-4">Specific medications to treat life-threatening conditions as well as several other compounds can cause a debilitating side effect—ototoxicity (i.e., the permanent loss of hearing or balance) (<a id="xref-table-wrap-1-1" class="xref-table" href="#T1">Table 1</a>). The socioeconomic cost of ototoxicity has to be weighed against the benefits of surviving severe infections or cancer. In this review, we focus on two clinically essential drugs, the aminoglycosides and cisplatin, both of which remain widely used despite the risk of ototoxicity. </p> <div id="T1" class="table pos-float"> <div class="table-inline"> <div class="callout"><span>View this table:</span><ul class="callout-links"> <li><a href="a033548/T1.expansion.html">In this window</a></li> <li><a class="in-nw" href="a033548/T1.expansion.html">In a new window</a></li> </ul> </div> </div> <div class="table-caption"><span class="table-label">Table 1.</span> <p id="p-5" class="first-child">Major classes of therapeutic agents inducing permanent hearing loss (with examples and citations)</p> <div class="sb-div caption-clear"></div> </div> </div> <p id="p-6">Aminoglycosides, including gentamicin, amikacin, kanamycin, and tobramycin, are broad-spectrum antibiotics used for treating suspected or confirmed acute serious infections, and the long-term management of recurrent respiratory infections in cystic fibrosis and multidrug-resistant tuberculosis (<a id="xref-ref-34-1" class="xref-bibr" href="#ref-34">Escobar et al. 2000</a>; <a id="xref-ref-41-1" class="xref-bibr" href="#ref-41">Garinis et al. 2017a</a>; <a id="xref-ref-65-1" class="xref-bibr" href="#ref-65">Jiang et al. 2017</a>). The ototoxicity of the first aminoglycoside discovered, streptomycin (<a id="xref-ref-125-1" class="xref-bibr" href="#ref-125">Schatz et al. 1944</a>), was recognized soon after its initial use (<a id="xref-ref-58-1" class="xref-bibr" href="#ref-58">Hinshaw and Feldman 1945</a>). Newer aminoglycosides have varying degrees of cochleotoxicity and vestibulotoxicity (<a id="xref-ref-100-1" class="xref-bibr" href="#ref-100">Miller 1985</a>). Estimates of the incidence of hearing loss after aminoglycoside treatment vary widely, due to differing dosing regimens and sensitivities of audiological tests, yet may be as high as 20%–50% of recipients (<a id="xref-ref-62-1" class="xref-bibr" href="#ref-62">Huth et al. 2015</a>). Vestibulotoxicity can occur in up to 60% of treatment courses (<a id="xref-ref-144-1" class="xref-bibr" href="#ref-144">van Hecke et al. 2017</a>), and patients often self-report balance issues (and tinnitus) before any perceived cochleotoxicity. The lack of appropriate vestibulometric, compared to audiometric, testing facilities means that vestibulotoxicity remains woefully underreported. Furthermore, most audiometric diagnosis is within the 500–8000 Hz (conventional) testing range, underestimating the incidence of cochleotoxicity at higher frequencies where the onset of hearing loss typically occurs (<a id="xref-ref-124-1" class="xref-bibr" href="#ref-124">Schacht et al. 2012</a>). Aminoglycoside-induced ototoxicity is dose dependent in preclinical models and, likely, also in humans (<a id="xref-ref-156-1" class="xref-bibr" href="#ref-156">Wu et al. 2001</a>; <a id="xref-ref-41-2" class="xref-bibr" href="#ref-41">Garinis et al. 2017a</a>,<a id="xref-ref-42-1" class="xref-bibr" href="#ref-42">b</a>). </p> <p id="p-7">Aminoglycosides are polycationic molecules with molar masses between 300 and 600 g/mol, with a maximal cross-sectional diameter of ∼0.8 nm (<a id="xref-ref-145-1" class="xref-bibr" href="#ref-145">van Netten and Kros 2007</a>; <a id="xref-ref-65-2" class="xref-bibr" href="#ref-65">Jiang et al. 2017</a>). In bacteria, aminoglycosides bind to ribosomal RNA, causing misreading of messenger RNA (mRNA) and consequent accumulation of misfolded proteins that leads to cellular stress and bacterial lysis (<a id="xref-ref-124-2" class="xref-bibr" href="#ref-124">Schacht et al. 2012</a>). In mammals, aminoglycosides are selectively toxic to kidney proximal tubule cells, and to sensory hair cells of the inner ear. Drug-induced kidney damage is reversible if detected early and medication discontinued, as proximal tubule cells can regenerate, but this is not typically true for mammalian hair cells (<a id="xref-ref-107-1" class="xref-bibr" href="#ref-107">Naughton 2008</a>; <a id="xref-ref-49-1" class="xref-bibr" href="#ref-49">Groves 2010</a>; <a id="xref-ref-82-1" class="xref-bibr" href="#ref-82">Kusaba et al. 2014</a>; <a id="xref-ref-92-1" class="xref-bibr" href="#ref-92">Lombardi et al. 2016</a>). Since aminoglycosides target bacteria, they also readily disrupt mitochondria within cells, causing the release of proapoptotic factors and oxidative enzymes into the cytoplasm and the generation of free radicals (<a id="xref-ref-154-1" class="xref-bibr" href="#ref-154">Warchol 2010</a>; <a id="xref-ref-61-1" class="xref-bibr" href="#ref-61">Huth et al. 2011</a>; <a id="xref-ref-35-1" class="xref-bibr" href="#ref-35">Esterberg et al. 2016</a>). </p> <p id="p-8">Cisplatin degrades solid tumors, often with very high efficacy (e.g., &gt;90% cure rates for testicular carcinoma) (<a id="xref-ref-24-1" class="xref-bibr" href="#ref-24">Cheng et al. 2018</a>), yet the incidence of cochleotoxicity is very high with hearing loss in almost all treated patients (<a id="xref-ref-18-1" class="xref-bibr" href="#ref-18">Callejo et al. 2015</a>; <a id="xref-ref-113-1" class="xref-bibr" href="#ref-113">Paken et al. 2016</a>). As for aminoglycosides, onset of cisplatin-induced hearing loss typically occurs first in the extended high-frequency range before affecting sensitivity at conversational (lower) frequencies, as evaluated by distortion product otoacoustic emissions or conventional audiometry. Increasing the cumulative dose consistently leads to increasing risk of permanent hearing loss in humans (<a id="xref-ref-13-1" class="xref-bibr" href="#ref-13">Brock et al. 2012</a>; <a id="xref-ref-41-3" class="xref-bibr" href="#ref-41">Garinis et al. 2017a</a>). By contrast, there are few reports of vestibulotoxicity in patients treated with cisplatin, despite dose-dependent loss of vestibular hair cells and vestibular function in animals (<a id="xref-ref-19-1" class="xref-bibr" href="#ref-19">Callejo et al. 2017</a>), perhaps due to limitations in human vestibular testing protocols (<a id="xref-ref-116-1" class="xref-bibr" href="#ref-116">Prayuenyong et al. 2018</a>). Cisplatin is smaller than the aminoglycosides, with a molar mass of 300 g/mol and a molecular “diameter” of ∼0.5 nm. Cisplatin itself is not charged but the molecule is unstable and one or both of the Cl⁻ ions can be replaced by H₂O (aquation), resulting in monovalent or divalent cations. This reaction is favored when Cl⁻ concentrations are low, as in the cytosol. Cisplatin can enter cells by passive diffusion, and via a variety of transporters, the most prominent of which are copper transporter CTR1 and organic cation transporter OCT2 (<a id="xref-ref-149-1" class="xref-bibr" href="#ref-149">Waissbluth and Daniel 2013</a>). Aquated cisplatin binds to nuclear DNA forming adducts that prevent transcription and replication, ultimately resulting in apoptosis, the basis of its cytotoxic antitumor activity, particularly in proliferating cancer cells that are poor at repairing DNA damage (<a id="xref-ref-128-1" class="xref-bibr" href="#ref-128">Siddik 2003</a>). Like aminoglycosides, cisplatin can also induce nephrotoxicity and ototoxicity, with neurotoxicity an additional outcome (<a id="xref-ref-32-1" class="xref-bibr" href="#ref-32">Dzagnidze et al. 2007</a>). These side effects are also likely due to the generation of toxic levels of reactive oxygen species that leads to apoptosis (<a id="xref-ref-53-1" class="xref-bibr" href="#ref-53">Hazlitt et al. 2018a</a>). </p> <p id="p-9">As aminoglycosides and cisplatin are typically infused parenterally in a hospital setting (aminoglycosides are also administered via middle ear [intratympanic] injections clinically), opportunities exist for coadministering therapeutics to prevent or reduce ototoxic side effects. Yet, despite much experimentation, there are no drugs that have been licensed for use in patients to prevent ototoxicity. This review discusses recent insights into how aminoglycosides and cisplatin damage sensory cells that respond to sound and motion. The intracellular mechanisms that lead to ototoxicity are also briefly discussed (with more detail in <a id="xref-ref-124-3" class="xref-bibr" href="#ref-124">Schacht et al. 2012</a>; <a id="xref-ref-69-1" class="xref-bibr" href="#ref-69">Karasawa and Steyger 2015</a>; <a id="xref-ref-65-3" class="xref-bibr" href="#ref-65">Jiang et al. 2017</a>). We end by considering how emerging insights can promote development of novel otoprotective therapies. </p> <div class="section" id="sec-1"> <div class="section-nav"><a href="#abstract-1" title="Abstract" class="prev-section-link"><span>Previous Section</span></a><a href="#sec-2" title="ENTRY OF CLINICAL OTOTOXINS INTO HAIR CELLS" class="next-section-link"><span>Next Section</span></a></div> <h2 class="">TRAFFICKING OF CLINICAL OTOTOXINS INTO THE INNER EAR</h2> <p id="p-10">Ototoxicity results from drugs (ototoxins) entering inner ear tissues to exert their cytotoxic effects. Ototoxins must first cross the blood–labyrinth barrier (BLB) that separates the bloodstream from inner ear tissues and fluids, predominantly the endolymph and perilymph (<a id="xref-fig-1-1" class="xref-fig" href="#F1">Fig. 1</a>). The BLB is a specialized structure composed of tight junction-coupled inner ear endothelial cells that prevents macromolecules and blood cells from entering cochlear tissues via passive, paracellular extravasation from capillaries. Perilymph has an ionic composition similar to other extracellular fluids (high Na⁺, low K⁺, and millimolar Ca²⁺). In contrast, the endolymph has a high K⁺ concentration, low Na⁺ and ∼20 n<span class="sc">m</span> Ca²⁺, as well as a positive endolymphatic potential (EP) of ∼+80 mV in the cochlea (but not in the vestibule). The composition of the endolymph is actively maintained by cells within the adjacent stria vascularis in the cochlea, and by dark cells in the vestibule (<a id="xref-ref-152-1" class="xref-bibr" href="#ref-152">Wangemann 2006</a>). Earlier cochlear studies reported higher aminoglycoside levels in perilymph than in the endolymph, suggesting that aminoglycosides in perilymph were the primary source of toxicity to hair cells (<a id="xref-ref-140-1" class="xref-bibr" href="#ref-140">Tran Ba Huy et al. 1986</a>). Although aminoglycosides enter perilymph following systemic administration, they do not readily enter hair cells via this route (<a id="xref-ref-86-1" class="xref-bibr" href="#ref-86">Li and Steyger 2011</a>). Experiments using fluorescently labeled gentamicin (gentamicin-Texas Red [GTTR]) revealed that systemically administered GTTR was more efficiently taken up by hair cells than GTTR perfused into the scala tympani. When applied systemically, GTTR readily trafficked across the BLB into the stria vascularis, and cleared into the endolymph prior to entering hair cells. </p> <div id="F1" class="fig pos-float odd"> <div class="fig-inline"><a href="a033548/F1.expansion.html"><img alt="Figure 1." src="a033548/F1.small.gif" /></a><div class="callout"><span>View larger version:</span><ul class="callout-links"> <li><a href="a033548/F1.expansion.html">In this window</a></li> <li><a class="in-nw" href="a033548/F1.expansion.html">In a new window</a></li> </ul> <ul class="fig-services"> <li class="ppt-link"><a href="/powerpoint/9/11/a033548/F1">Download as PowerPoint Slide</a></li> </ul> </div> </div> <div class="fig-caption"><span class="fig-label">Figure 1.</span> <p id="p-11" class="first-child">Main cochlear trafficking routes for systemic aminoglycosides and cisplatin. For both drugs, entry from the bloodstream into the cochlea occurs primarily from capillaries within the stria vascularis. From here, cisplatin enters the endolymph in the scala media, potentially through organic cation transporter 2 (OCT2) and copper transporter 1 (CTR1) transporters in the marginal cells. Aminoglycosides enter the endolymph through as-yet-unidentified ion channels or transporters, although several candidates exist (e.g., transient receptor potential V1 [TRPV1] and TRPV4). From the endolymph, these ototoxins enter hair cells across their apical membranes. </p> <div class="sb-div caption-clear"></div> </div> </div> <p id="p-12">Surprisingly, following middle ear administration, auditory afferent fibers ipsilaterally, and vestibular efferent fibers bilaterally, transport aminoglycosides from cochlear perilymph to the auditory brainstem, although it is not yet known whether this leads to functional consequences (<a id="xref-ref-160-1" class="xref-bibr" href="#ref-160">Zhang et al. 2012</a>). Cochlear uptake of aminoglycosides and ototoxicity are also strongly increased during systemic inflammation that vasodilates capillaries in the stria vascularis (<a id="xref-ref-81-1" class="xref-bibr" href="#ref-81">Koo et al. 2015</a>). How exactly aminoglycosides enter the endolymph from the capillaries in the stria vascularis is currently not clear, but possibilities include ion channels, transporters, or transcytosis (<a id="xref-ref-81-2" class="xref-bibr" href="#ref-81">Koo et al. 2015</a>). </p> <p id="p-13">Like aminoglycosides, cisplatin and related compounds such as carboplatin and oxaliplatin have also been detected in perilymph following systemic administration, suggesting that these drugs may enter cochlear hair cells via their basolateral membranes (<a id="xref-ref-55-1" class="xref-bibr" href="#ref-55">Hellberg et al. 2009</a>, <a id="xref-ref-56-1" class="xref-bibr" href="#ref-56">2013</a>). Yet, like aminoglycosides, various strands of evidence suggest that the stria vascularis–endolymph route is more likely. Iontophoretic application of cisplatin to the endolymphatic compartment of the guinea pig cochlea was more rapid and effective in reducing auditory nerve responses to sound than perfusion of perilymph with cisplatin-containing solution (<a id="xref-ref-99-1" class="xref-bibr" href="#ref-99">McAlpine and Johnstone 1990</a>). When loop diuretics were coadministered with cisplatin, hearing loss was exacerbated in guinea pigs (<a id="xref-ref-99-2" class="xref-bibr" href="#ref-99">McAlpine and Johnstone 1990</a>). In young cancer patients too, cotreatment with furosemide increased the risk of hearing loss (<a id="xref-ref-27-1" class="xref-bibr" href="#ref-27">Clemens et al. 2016</a>). The CTR1 and OCT2 transporters have been observed in stria vascularis but not in the spiral ligament, suggesting their possible involvement in cisplatin transport across the BLB into the endolymph (<a id="xref-ref-26-1" class="xref-bibr" href="#ref-26">Ciarimboli et al. 2010</a>; <a id="xref-ref-101-1" class="xref-bibr" href="#ref-101">More et al. 2010</a>; <a id="xref-ref-149-2" class="xref-bibr" href="#ref-149">Waissbluth and Daniel 2013</a>). Measurement of platinum levels in cisplatin-treated mice or patients revealed consistently higher levels in the stria vascularis that were retained for months to years, especially in the basal, high-frequency region (<a id="xref-ref-12-1" class="xref-bibr" href="#ref-12">Breglio et al. 2017</a>). The EP of cisplatin-treated mice dropped by up to 30 mV during and after cisplatin treatment (<a id="xref-ref-12-2" class="xref-bibr" href="#ref-12">Breglio et al. 2017</a>). The entry of aminoglycosides and cisplatin into the vestibular endolymph remains incompletely understood, and likely involves the dark cells (the vestibular equivalent of the stria vascularis) and/or the transitional cells surrounding vestibular sensory epithelia (<a id="xref-ref-89-1" class="xref-bibr" href="#ref-89">Liu et al. 2015a</a>). </p> </div> <div class="section" id="sec-2"> <div class="section-nav"><a href="#sec-1" title="TRAFFICKING OF CLINICAL OTOTOXINS INTO THE INNER EAR" class="prev-section-link"><span>Previous Section</span></a><a href="#sec-3" title="MECHANISMS OF OTOTOXICITY" class="next-section-link"><span>Next Section</span></a></div> <h2 class="">ENTRY OF CLINICAL OTOTOXINS INTO HAIR CELLS</h2> <p id="p-14">To cause hair-cell death, the ototoxic drugs must first enter hair cells, or, alternatively, disrupt cochlear homeostasis. Aminoglycosides readily enter hair cells (<a id="xref-fig-2-1" class="xref-fig" href="#F2">Fig. 2</a>) via stereociliary mechanoelectrical transduction (MET) channels that open and close in response to sound or acceleration (<a id="xref-ref-96-1" class="xref-bibr" href="#ref-96">Marcotti et al. 2005</a>; <a id="xref-ref-3-1" class="xref-bibr" href="#ref-3">Alharazneh et al. 2011</a>; <a id="xref-ref-148-1" class="xref-bibr" href="#ref-148">Vu et al. 2013</a>), although other routes exist as well (e.g., endocytosis) (<a id="xref-ref-52-1" class="xref-bibr" href="#ref-52">Hashino et al. 2000</a>). The MET channels are large, nonselective cation channels with a relatively high permeability but low conductance for Ca²⁺ ions (<a id="xref-ref-37-1" class="xref-bibr" href="#ref-37">Fettiplace and Kim 2014</a>). The concentration of Ca²⁺ in the endolymph is relatively low (∼20 µ<span class="sc">m</span>) compared to the normal extracellular (∼1.25 m<span class="sc">m</span>) environment; the endolymph is also unusual in being rich in K⁺ and poor in Na⁺ ions (<a id="xref-ref-153-1" class="xref-bibr" href="#ref-153">Wangemann and Schacht 1996</a>). Experiments with a variety of cations that block the MET channel suggest that the channel permeation pathway is asymmetrical, with a wide extracellular-facing vestibule and a narrower selectivity filter (<a id="xref-ref-145-2" class="xref-bibr" href="#ref-145">van Netten and Kros 2007</a>). The Ca²⁺ ions from the endolymph are believed to be concentrated by this vestibule, which may contain negatively charged residues, from where they are further attracted to other negatively charged residues within the selectivity filter, and can then move either into the hair cell where they drive adaptation (<a id="xref-ref-37-2" class="xref-bibr" href="#ref-37">Fettiplace and Kim 2014</a>), or back out into the endolymph without entering the hair cell. </p> <div id="F2" class="fig pos-float odd"> <div class="fig-inline"><a href="a033548/F2.expansion.html"><img alt="Figure 2." src="a033548/F2.small.gif" /></a><div class="callout"><span>View larger version:</span><ul class="callout-links"> <li><a href="a033548/F2.expansion.html">In this window</a></li> <li><a class="in-nw" href="a033548/F2.expansion.html">In a new window</a></li> </ul> <ul class="fig-services"> <li class="ppt-link"><a href="/powerpoint/9/11/a033548/F2">Download as PowerPoint Slide</a></li> </ul> </div> </div> <div class="fig-caption"><span class="fig-label">Figure 2.</span> <p id="p-15" class="first-child">Aminoglycoside and cisplatin entry into hair cells from the endolymph. Both drugs preferentially enter hair cells across their apical membranes. Aminoglycosides predominantly enter hair cells via the MET channel complex, consisting of two transmembrane channel-like protein subunits (purple), each with a permeation pore. The MET channels are gated by movement of the stereocilia, mediated by tip links formed of CDH23 (orange) and PCDH15 (brown). Other minor routes include apical endocytosis, and basolateral TRPA1 channels. Intracellular aminoglycosides sequester PIP₂, closing KCNQ4 potassium channels in the basolateral membrane. Cisplatin has multiple potential entry routes, for which the relative importance has not been established. Uptake of cisplatin, most likely in the aquated form, may occur via CTR1 and OCT2 transport proteins or through the MET channel pore. In its neutral form, cisplatin can permeate directly through cell membranes. </p> <div class="sb-div caption-clear"></div> </div> </div> <p id="p-16">Recent evidence points to the permeation pathway of the MET channel being formed by a dimer of TMC proteins (<a id="xref-fig-2-2" class="xref-fig" href="#F2">Fig. 2</a>), with two pores, one for each 10-transmembrane-domain TMC molecule (<a id="xref-ref-6-1" class="xref-bibr" href="#ref-6">Ballesteros et al. 2018</a>; <a id="xref-ref-8-1" class="xref-bibr" href="#ref-8">Barr-Gillespie 2018</a>; <a id="xref-ref-28-1" class="xref-bibr" href="#ref-28">Corey et al. 2018</a>; <a id="xref-ref-114-1" class="xref-bibr" href="#ref-114">Pan et al. 2018</a>). The permeation pathway, inferred from mapping to the closely related TMEM16, which has been crystallized (<a id="xref-ref-17-1" class="xref-bibr" href="#ref-17">Brunner et al. 2014</a>), is understood to be formed by transmembrane domains 4–7. While the exact mapping of TM domains and loops is still tentative and different in detail between the Ballesteros and Pan studies, it is clear that there are several negatively charged amino acids in the pore region, as well as positive ones that could form the entry and exit barriers. The electrochemical driving force of the +80 mV EP strongly promotes entry into the hair cells, boosted by the −40 to −70 mV resting membrane potential of cochlear hair cells to produce an electrical gradient of 120–150 mV across the apical membrane of the hair cell. The polycationic aminoglycosides appear to compete with the Ca²⁺ ions for binding inside the channel pore, and are therefore permeant blockers of the MET channels (<a id="xref-ref-96-2" class="xref-bibr" href="#ref-96">Marcotti et al. 2005</a>). The MET channel pore is unusually large, with a diameter at its narrowest part of at least ∼1.25–1.5 nm (<a id="xref-ref-36-1" class="xref-bibr" href="#ref-36">Farris et al. 2004</a>; <a id="xref-ref-3-2" class="xref-bibr" href="#ref-3">Alharazneh et al. 2011</a>), large enough to allow aminoglycosides and other large cations to enter the hair cell cytosol. The fluorescent GTTR has a molar mass of ∼1125 g/mol, substantially larger than native gentamicin, but can nevertheless rapidly enter hair cells via their hair bundles (<a id="xref-ref-3-3" class="xref-bibr" href="#ref-3">Alharazneh et al. 2011</a>). This rapid entry of aminoglycosides down a strong electrochemical gradient, calculated as ∼9000 molecules/hair cell/second for dihydrostreptomycin (DHS) (<a id="xref-ref-96-3" class="xref-bibr" href="#ref-96">Marcotti et al. 2005</a>), likely accounts for the mostly undetectable levels of aminoglycosides in the endolymph (<a id="xref-ref-140-2" class="xref-bibr" href="#ref-140">Tran Ba Huy et al. 1986</a>). Once inside hair cells, aminoglycosides cannot exit via MET channels, as the intracellular side lacks a vestibule and has a high energy barrier for reentry from the cytosol (<a id="xref-ref-96-4" class="xref-bibr" href="#ref-96">Marcotti et al. 2005</a>; <a id="xref-ref-145-3" class="xref-bibr" href="#ref-145">van Netten and Kros 2007</a>). Aminoglycosides also indirectly, via depletion of intracellular PIP₂, inhibit voltage-gated potassium channels responsible for repolarizing hair cells, leading to a sustained cellular depolarization, which likely contributes to hair cell death (<a id="xref-ref-84-1" class="xref-bibr" href="#ref-84">Leitner et al. 2011</a>). </p> <p id="p-17">Other pathways for entry of aminoglycosides into hair cells exist. These pathways are quantitatively less important than the MET channel route, yet they can become unmasked when the MET channels are nonfunctional. One pathway is endocytosis at the apical and synaptic poles of hair cells, although direct evidence for its involvement in cytotoxicity has not been found (<a id="xref-ref-52-2" class="xref-bibr" href="#ref-52">Hashino et al. 2000</a>; <a id="xref-ref-3-4" class="xref-bibr" href="#ref-3">Alharazneh et al. 2011</a>; <a id="xref-ref-148-2" class="xref-bibr" href="#ref-148">Vu et al. 2013</a>). There is stronger evidence for a contribution by TRP channels, a family of polymodal ion channels activated by a variety of physical and chemical stimuli (<a id="xref-ref-109-1" class="xref-bibr" href="#ref-109">Nilius and Szallasi 2014</a>). Like MET channels, they are nonselective cation channels with a substantial permeability for Ca²⁺ ions. TRPA1 is considered a chemosensor, activated by various pungent and irritant compounds released during inflammation, oxidative stress and tissue damage, as well as bacterial endotoxins (<a id="xref-ref-109-2" class="xref-bibr" href="#ref-109">Nilius and Szallasi 2014</a>). TRPA1 is expressed by inner (IHCs) and outer hair cells (OHCs), and is assumed to be present on the basolateral membranes of OHCs. In murine cochlear cultures pretreated with BAPTA to disable MET channels, activated TRPA1 channels facilitated the uptake of GTTR, implying entry through the TRPA1 channels (<a id="xref-ref-133-1" class="xref-bibr" href="#ref-133">Stepanyan et al. 2011</a>). In HEK 293 cells, TRPA1 is blocked by gentamicin with a half-blocking concentration (<a id="xref-ref-106-1" class="xref-bibr" href="#ref-106">Nagata et al. 2005</a>) similar to that of hair cell MET channels. The TRPA1 pore diameter can dilate upon activation from 1.1 to 1.4 nm (<a id="xref-ref-74-1" class="xref-bibr" href="#ref-74">Karashima et al. 2010</a>). This suggests that TRPA1 channels can be activated during cochlear stress (e.g., that caused by noise exposure), potentially increasing aminoglycoside entry into OHCs (<a id="xref-ref-157-1" class="xref-bibr" href="#ref-157">Yamashita et al. 2004</a>; <a id="xref-ref-87-1" class="xref-bibr" href="#ref-87">Li et al. 2015</a>). TRPV1 and TRPV4 are additional candidate aminoglycoside-permeant channels, and both are expressed in the stria vascularis and the hair cells (<a id="xref-ref-161-1" class="xref-bibr" href="#ref-161">Zheng et al. 2003</a>; <a id="xref-ref-105-1" class="xref-bibr" href="#ref-105">Myrdal and Steyger 2005</a>; <a id="xref-ref-70-1" class="xref-bibr" href="#ref-70">Karasawa et al. 2008</a>). </p> <p id="p-18">Uptake of cisplatin by hair cells is less clear. Like the stria vascularis, cochlear hair cells express CTR1 and OCT2 (<a id="xref-ref-26-2" class="xref-bibr" href="#ref-26">Ciarimboli et al. 2010</a>; <a id="xref-ref-101-2" class="xref-bibr" href="#ref-101">More et al. 2010</a>; <a id="xref-ref-149-3" class="xref-bibr" href="#ref-149">Waissbluth and Daniel 2013</a>). If cisplatin predominantly enters hair cells via endolymph, these transporters would need to be present at the apical surface of the hair cells. Although the localization of CTR1 in hair cells is not clear (<a id="xref-ref-101-3" class="xref-bibr" href="#ref-101">More et al. 2010</a>), OCT2 labeling was found at the apical surface of the OHCs, and throughout the IHCs (<a id="xref-ref-26-3" class="xref-bibr" href="#ref-26">Ciarimboli et al. 2010</a>). Reduced cochleotoxicity occurs following systemic cisplatin administration in OCT1/2 double knockout mice, or when cimetidine, an OCT blocker, is administered contemporaneously with cisplatin (<a id="xref-ref-26-4" class="xref-bibr" href="#ref-26">Ciarimboli et al. 2010</a>). Intratympanic administration of copper sulfate (a primary substrate of CTR1) can also ameliorate cisplatin-induced cochleotoxicity, as judged by auditory brainstem response (ABR) threshold shifts (<a id="xref-ref-101-4" class="xref-bibr" href="#ref-101">More et al. 2010</a>). Cisplatin-induced cochleotoxicity may also be partially because of the loss of cochlear homeostasis, as well as hair-cell damage (<a id="xref-ref-83-1" class="xref-bibr" href="#ref-83">Laurell et al. 2007</a>), and the disruption of cochlear homeostasis can also indirectly affect hair-cell survival (<a id="xref-ref-91-1" class="xref-bibr" href="#ref-91">Liu et al. 2016</a>). It is not known whether mammalian vestibular hair cells express either of these transporters. Since the size of cisplatin (∼0.5 nm) is much smaller than the MET channel pore, it is conceivable that the mono- and/or biaquated forms of cisplatin could be permeant blockers of the MET channel, like the aminoglycosides. High doses of cisplatin, near the solubility limit in aqueous solution, block MET currents of chick cochlear hair cells, with a half-blocking concentration of about 1.5 m<span class="sc">m</span> (<a id="xref-ref-77-1" class="xref-bibr" href="#ref-77">Kimitsuki et al. 1993</a>, <a id="xref-ref-78-1" class="xref-bibr" href="#ref-78">1994</a>) and a Hill coefficient of 2, indicating that two molecules block the channel cooperatively. Voltage dependence was not investigated, so it is not clear whether block was permeant. Zebrafish neuromast hair cells with functional MET channels are killed by cisplatin, and zebrafish hair cells do not express CTR1 or OCT2 (<a id="xref-ref-139-1" class="xref-bibr" href="#ref-139">Thomas et al. 2013</a>). It is not yet known whether cisplatin blocks mammalian MET channels. </p> </div> <div class="section" id="sec-3"> <div class="section-nav"><a href="#sec-2" title="ENTRY OF CLINICAL OTOTOXINS INTO HAIR CELLS" class="prev-section-link"><span>Previous Section</span></a><a href="#sec-4" title="OTOPROTECTION" class="next-section-link"><span>Next Section</span></a></div> <h2 class="">MECHANISMS OF OTOTOXICITY</h2> <p id="p-19">Ototoxicity can be multifactorial, inducing damage to sensory hair cells or nonsensory cells with homeostatic functions in the inner ear that directly modulate hair cell function (e.g., in the stria vascularis). Ototoxicity can also occur in the neural pathway between the peripheral inner ear and the cortex of the brain, disrupting auditory and vestibular perception. Here we describe mostly peripheral mechanisms of ototoxicity that are better (but still incompletely) characterized. </p> <p id="p-20">Aminoglycosides in the perilymph can block the efferent synapses at the base of OHCs, disrupting the medial olivocochlear reflex that appears to protect auditory hair cells from exposure to loud sounds (<a id="xref-ref-5-1" class="xref-bibr" href="#ref-5">Avan et al. 1996</a>; <a id="xref-ref-10-1" class="xref-bibr" href="#ref-10">Blanchet et al. 2000</a>). Once aminoglycosides enter hair cells from the endolymph, they can also degrade the presynaptic ribbons prior to hair cell death (<a id="xref-ref-88-1" class="xref-bibr" href="#ref-88">Liu et al. 2013</a>; <a id="xref-ref-111-1" class="xref-bibr" href="#ref-111">Oishi et al. 2015</a>). This phenomenon could contribute to auditory dysfunction in cochlear regions with a high percentage of surviving hair cells (<a id="xref-ref-108-1" class="xref-bibr" href="#ref-108">Nicol et al. 1992</a>; <a id="xref-ref-81-3" class="xref-bibr" href="#ref-81">Koo et al. 2015</a>). Although the spontaneous repair of presynaptic ribbons in IHCs following low-dose gentamicin-induced cochleotoxicity has been reported, further characterization of this effect is needed (<a id="xref-ref-90-1" class="xref-bibr" href="#ref-90">Liu et al. 2015b</a>). </p> <p id="p-21">Within cells, aminoglycosides bind to numerous proteins suggestive of multiple mechanisms by which these drugs can induce hair cell death (<a id="xref-ref-72-1" class="xref-bibr" href="#ref-72">Karasawa et al. 2011</a>; <a id="xref-ref-65-4" class="xref-bibr" href="#ref-65">Jiang et al. 2017</a>). These include endoplasmic reticulum stress and disruption of mitochondrial integrity causing the generation of toxic reactive oxygen species that lead to cell death, particularly in hair cells (<a id="xref-ref-111-2" class="xref-bibr" href="#ref-111">Oishi et al. 2015</a>; <a id="xref-ref-35-2" class="xref-bibr" href="#ref-35">Esterberg et al. 2016</a>). Selected mitochondrial mutations (predominantly A1555G) in ribosomal RNA result in a higher binding affinity for aminoglycosides and can cause mistranslation of mRNA during protein synthesis resulting in cell death (<a id="xref-ref-59-1" class="xref-bibr" href="#ref-59">Hobbie et al. 2008</a>; <a id="xref-ref-117-1" class="xref-bibr" href="#ref-117">Qian and Guan 2009</a>; <a id="xref-ref-97-1" class="xref-bibr" href="#ref-97">Matt et al. 2012</a>). </p> <p id="p-22">Cisplatin-induced cytotoxicity is typically due to cisplatin binding to nuclear DNA, and downstream signaling resulting in apoptosis, particularly in proliferating cells (<a id="xref-ref-33-1" class="xref-bibr" href="#ref-33">Eastman 1999</a>). Hair cells are, however, postmitotic and do not proliferate. Many studies also report disruption of intracellular pathways and cisplatin binding to various proteins that may also contribute to cellular dysregulation and cell death (<a id="xref-ref-45-1" class="xref-bibr" href="#ref-45">Gibson 2009</a>; <a id="xref-ref-73-1" class="xref-bibr" href="#ref-73">Karasawa et al. 2013</a>). In cochlear cells, NADPH oxidase 3 (NOX3), is a major source of reactive oxygen species, and is highly expressed in the organ of Corti and spiral ganglion (<a id="xref-ref-7-1" class="xref-bibr" href="#ref-7">Bánfi et al. 2004</a>; <a id="xref-ref-102-1" class="xref-bibr" href="#ref-102">Mukherjea et al. 2006</a>). Cisplatin activates the transcription factor, signal transducer and activator of transcription 1 (STAT1) to trigger the TRPV1 and NOX3 signaling pathways that lead to cell death and hearing loss (<a id="xref-ref-103-1" class="xref-bibr" href="#ref-103">Mukherjea et al. 2008</a>, <a id="xref-ref-104-1" class="xref-bibr" href="#ref-104">2011</a>). </p> <p id="p-23">In the avian papilla, hair cells lost due to ototoxicity or noise trauma can be regenerated by mitotic or nonmitotic (cellular transdifferentiation) mechanisms initiated by supporting cells (<a id="xref-ref-46-1" class="xref-bibr" href="#ref-46">Girod et al. 1989</a>, <a id="xref-ref-47-1" class="xref-bibr" href="#ref-47">1991</a>; <a id="xref-ref-142-1" class="xref-bibr" href="#ref-142">Tucci and Rubel 1990</a>; <a id="xref-ref-29-1" class="xref-bibr" href="#ref-29">Cotanche et al. 1994</a>; <a id="xref-ref-63-1" class="xref-bibr" href="#ref-63">Janas et al. 1995</a>; <a id="xref-ref-1-1" class="xref-bibr" href="#ref-1">Adler et al. 1997</a>). Intriguingly, however, when the avian papilla is exposed to cisplatin, hair-cell regeneration is exceedingly low, suggesting that cisplatin-induced damage of supporting cells prevents mitotic and nonmitotic mechanisms of restoring hair-cell populations (<a id="xref-ref-129-1" class="xref-bibr" href="#ref-129">Slattery and Warchol 2010</a>). Cisplatin also damages supporting cells in the mammalian vestibular system (utricle), and blocks the proliferation of resident stem cells in the utricle, reducing the potential to regenerate hair cells (<a id="xref-ref-130-1" class="xref-bibr" href="#ref-130">Slattery et al. 2014</a>). Inflammation potentiates cisplatin-induced ototoxicity, as do loop diuretics (<a id="xref-ref-99-3" class="xref-bibr" href="#ref-99">McAlpine and Johnstone 1990</a>; <a id="xref-ref-110-1" class="xref-bibr" href="#ref-110">Oh et al. 2011</a>; <a id="xref-ref-27-2" class="xref-bibr" href="#ref-27">Clemens et al. 2016</a>). </p> <p id="p-24">Cisplatin also damages the stria vascularis, diminishing the generation of the endolymphatic potential essential for optimal auditory performance, and the spiral ganglion neurons (<a id="xref-ref-20-1" class="xref-bibr" href="#ref-20">Campbell et al. 1999</a>; <a id="xref-ref-51-1" class="xref-bibr" href="#ref-51">Hamers et al. 2003</a>; <a id="xref-ref-131-1" class="xref-bibr" href="#ref-131">Sluyter et al. 2003</a>; <a id="xref-ref-146-1" class="xref-bibr" href="#ref-146">van Ruijven et al. 2005</a>; <a id="xref-ref-138-1" class="xref-bibr" href="#ref-138">Thomas et al. 2006</a>; <a id="xref-ref-83-2" class="xref-bibr" href="#ref-83">Laurell et al. 2007</a>; <a id="xref-ref-50-1" class="xref-bibr" href="#ref-50">Guthrie et al. 2008</a>), suggesting that hearing loss due to cisplatin is multifactorial. Cisplatin also damages murine auditory cortical neurons in vitro, and rat hippocampal neural networks involved in memory in vivo (<a id="xref-ref-48-1" class="xref-bibr" href="#ref-48">Gopal et al. 2012</a>; <a id="xref-ref-57-1" class="xref-bibr" href="#ref-57">Hinduja et al. 2015</a>). </p> </div> <div class="section" id="sec-4"> <div class="section-nav"><a href="#sec-3" title="MECHANISMS OF OTOTOXICITY" class="prev-section-link"><span>Previous Section</span></a><a href="#sec-13" title="CHALLENGES TO PREVENTING OTOTOXICITY" class="next-section-link"><span>Next Section</span></a></div> <h2 class="">OTOPROTECTION</h2> <div id="sec-5" class="subsection"> <h3>Strategies for Otoprotection</h3> <p id="p-25">Blocking the production and/or effects of free radicals and proapoptotic factors have been intensely investigated to prevent aminoglycoside- and cisplatin-induced ototoxicity, and hold some promise for therapeutic intervention (<a id="xref-ref-67-1" class="xref-bibr" href="#ref-67">Kalinec 2005</a>; <a id="xref-ref-127-1" class="xref-bibr" href="#ref-127">Sha et al. 2006</a>; <a id="xref-ref-22-1" class="xref-bibr" href="#ref-22">Chen et al. 2007</a>; <a id="xref-ref-61-2" class="xref-bibr" href="#ref-61">Huth et al. 2011</a>; <a id="xref-ref-13-2" class="xref-bibr" href="#ref-13">Brock et al. 2012</a>). Alternative, potentially more specific, otoprotective strategies include blocking ototoxin entry into the cochlear fluids and hair cells, thus preventing these ototoxic compounds from reaching their targets in the first place. Modification of the drugs themselves to retain their desired efficacy while ameliorating ototoxicity is another approach that has been investigated. Below, we briefly discuss these and other strategies. </p> </div> <div id="sec-6" class="subsection"> <h3>Modulating Drug Transport across the BLB</h3> <p id="p-26">The surest way to avoid ototoxicity is to prevent entry of ototoxic agents into the inner ear. Analogous to the blood–brain barrier (BBB), the inner ear is substantially protected by the BLB. The main blood supply to the inner ear is via the spiral modiolar artery radiating arterioles to the spiral limbus, spiral ligament (perilymph), and stria vascularis (endolymph). The permeability of the BLB can be modulated by drugs like loop diuretics (<a id="xref-ref-136-1" class="xref-bibr" href="#ref-136">Taylor et al. 2008</a>), and in experimental models of systemic inflammation that mimic serious infection, to potentiate both aminoglycoside- and cisplatin-induced cochleotoxicity (<a id="xref-ref-110-2" class="xref-bibr" href="#ref-110">Oh et al. 2011</a>; <a id="xref-ref-81-4" class="xref-bibr" href="#ref-81">Koo et al. 2015</a>). On the other hand, a detailed understanding of the relation between the physicochemical properties of drugs and BLB permeability is lacking at present. Increased understanding of the BLB will optimize trafficking of otoprotective compounds across the BLB into the inner ear for increased efficacy. </p> </div> <div id="sec-7" class="subsection"> <h3>Blocking the MET Channel</h3> <p id="p-27">Designing competitive blockers to prevent ototoxins entering hair cells via their MET channels is an attractive strategy, especially for aminoglycosides, for which this is the major entry route (<a id="xref-ref-40-1" class="xref-bibr" href="#ref-40">Gale et al. 2001</a>; <a id="xref-ref-96-5" class="xref-bibr" href="#ref-96">Marcotti et al. 2005</a>; <a id="xref-ref-3-5" class="xref-bibr" href="#ref-3">Alharazneh et al. 2011</a>). Cisplatin, by contrast, likely has multiple entry mechanisms into cells, including hair cells (<a id="xref-ref-149-4" class="xref-bibr" href="#ref-149">Waissbluth and Daniel 2013</a>). Ideally, a protective compound would be a nonpermeant, reversible blocker that could be coadministered with the ototoxin, either systemically or intratympanically. The arrow poison, <span class="sc">d</span>-tubocurarine, is a nonpermeant MET channel blocker in turtle auditory hair cells (<a id="xref-ref-36-2" class="xref-bibr" href="#ref-36">Farris et al. 2004</a>), and permeates MET channels in murine OHCs in vitro at an order of magnitude slower than the aminoglycoside DHS (<a id="xref-ref-79-1" class="xref-bibr" href="#ref-79">Kirkwood et al. 2017</a>). Further optimization of this compound, which protects hair cells in zebrafish and cochlear cultures, for otoprotection in vivo via intratympanic injection would involve eliminating permeation through the MET channel and reducing its anticholinergic action to avoid blocking the middle ear reflex. Whereas this block might cause a transient loss of hearing and remodeling of the stereociliary bundle, the latter effect is, at least in vitro, also reversible (<a id="xref-ref-147-1" class="xref-bibr" href="#ref-147">Velez-Ortega et al. 2017</a>). </p> </div> <div id="sec-8" class="subsection"> <h3>Modifying Ototoxin Structure to Reduce Ototoxicity</h3> <p id="p-28">This strategy has been applied to both aminoglycosides and cisplatin. Although the clinically approved aminoglycosides are reported to be either more cochleotoxic or more vestibulotoxic in the clinic, all nevertheless still cause damage to both cochlear and vestibular hair cells to varying degrees (<a id="xref-ref-100-2" class="xref-bibr" href="#ref-100">Miller 1985</a>). Apramycin, an aminoglycoside currently licensed for veterinary use, combines potent and wide-spectrum antimicrobial activity with relatively little ototoxicity, probably because it has very little activity against mitochondrial ribosomes (<a id="xref-ref-97-2" class="xref-bibr" href="#ref-97">Matt et al. 2012</a>). This feature could be explored as a basis for the rational design of novel, less ototoxic aminoglycosides that still retain bactericidal efficacy. Another promising approach optimized an existing aminoglycoside, sisomicin (similar to gentamicin), by reducing the number of positive charges to reduce uptake by hair cells. One compound that was designed (N1MS) had a lower affinity for the MET channel than the parent compound and preserved hearing in mice, but at the expense of a narrowed spectrum of antibacterial activity (<a id="xref-ref-62-2" class="xref-bibr" href="#ref-62">Huth et al. 2015</a>). Various cisplatin congeners have been designed with the aim of reducing ototoxicity (e.g., carboplatin and oxaliplatin). Unfortunately, lower ototoxicity tends to come at the cost of reduced antitumor efficacy (<a id="xref-ref-13-3" class="xref-bibr" href="#ref-13">Brock et al. 2012</a>). </p> </div> <div id="sec-9" class="subsection"> <h3>Drug Discovery and Optimization Using Zebrafish</h3> <p id="p-29">A candidate otoprotective compound (PROTO-1) was originally discovered using a screen based on larval zebrafish lateral-line neuromasts (<a id="xref-ref-112-1" class="xref-bibr" href="#ref-112">Owens et al. 2008</a>). Rational optimization of PROTO-1 identified a derivative, ORC-13661 (<a id="xref-ref-25-1" class="xref-bibr" href="#ref-25">Chowdhury et al. 2018</a>), that was recently awarded investigational new drug (IND) status by the United States Food and Drug Administration (FDA), providing direction for others to follow. The primary outcome measure was the concentration of a compound required to protect neuromast hair cells in the face of challenge by the aminoglycoside neomycin (<a id="xref-ref-25-2" class="xref-bibr" href="#ref-25">Chowdhury et al. 2018</a>). The dose–response relationships for numerous compounds in hair-cell survival assays can be determined within days using zebrafish, rather than over many months, with a relatively low degree of variability. However, lead compounds from such assays do not always provide otoprotection in mammals in vivo (<a id="xref-ref-95-1" class="xref-bibr" href="#ref-95">Majumder et al. 2017</a>), though the aforementioned ORC-13661 is very promising. </p> <p id="p-30">A similar approach by <a id="xref-ref-75-1" class="xref-bibr" href="#ref-75">Kenyon et al. (2017)</a> using zebrafish identified six hits from a screen of 160 known ion-channel modulators for permeant blockers of murine hair cell MET channels. Whether MET channel block is the primary otoprotective mechanism of these candidates remains to be verified, as several of these compounds can also affect other ion channels (e.g., NMDA receptors). These compounds, plus two others that did not interact with the MET channel, protected OHCs from gentamicin-induced ototoxicity in vitro, and were not themselves cytotoxic to OHCs at high concentrations. </p> </div> <div id="sec-10" class="subsection"> <h3>Drug Discovery and Optimization Using Cell Lines</h3> <p id="p-31">An alternative strategy for large-scale screening for candidate otoprotective compounds is to use immortalized cell lines derived from the mouse cochlea, such as the widely used HEI-OC1 (<a id="xref-ref-68-1" class="xref-bibr" href="#ref-68">Kalinec et al. 2003</a>). Unlike zebrafish larval neuromast hair-cell screens, it is unlikely that such screens will yield compounds that interact with the MET channels, as HEI-OC1 cells do not express functional MET channels. However, other otoprotective mechanisms that are directly relevant to the mammalian inner ear may be found instead. CDK2 (cyclin-dependent kinase 2) was identified as a target for protection from cisplatin ototoxicity in a screen of over 4000 small molecules in the HEI-OC1 cell line (<a id="xref-ref-137-1" class="xref-bibr" href="#ref-137">Teitz et al. 2018</a>). CDK2 inhibition reduces reactive oxygen species production from mitochondria in response to cisplatin, and to date three such inhibitors have been identified as candidate otoprotective compounds (<a id="xref-ref-54-1" class="xref-bibr" href="#ref-54">Hazlitt et al. 2018b</a>; <a id="xref-ref-137-2" class="xref-bibr" href="#ref-137">Teitz et al. 2018</a>). </p> </div> <div id="sec-11" class="subsection"> <h3>Targeting Intracellular Cell-Death Pathways</h3> <p id="p-32">Targeting intracellular signaling pathways that lead to apoptotic hair cell death can be otoprotective in preclinical studies. Inhibiting the JNK pathway protected mice from aminoglycoside- and noise-induced hearing loss (<a id="xref-ref-150-1" class="xref-bibr" href="#ref-150">Wang et al. 2003</a>), but not from cisplatin-induced hearing loss (<a id="xref-ref-151-1" class="xref-bibr" href="#ref-151">Wang et al. 2004</a>). Inhibition of cell death–associated caspases (<a id="xref-ref-151-2" class="xref-bibr" href="#ref-151">Wang et al. 2004</a>) and p53 (<a id="xref-ref-9-1" class="xref-bibr" href="#ref-9">Benkafadar et al. 2017</a>) did, however, protect mice from cisplatin ototoxicity. The p53 inhibitor PFT-α protected hearing when administered intratympanically, or systemically, without interfering with the tumoritoxic efficacy of cisplatin. </p> <p id="p-33">Antioxidants like <em>N</em>-acetylcysteine and <span class="sc">d</span>-methionine also reduce aminoglycoside-induced cochleotoxicity in preclinical models (<a id="xref-ref-132-1" class="xref-bibr" href="#ref-132">Somdas et al. 2015</a>; <a id="xref-ref-21-1" class="xref-bibr" href="#ref-21">Campbell et al. 2016</a>; <a id="xref-ref-143-1" class="xref-bibr" href="#ref-143">Turan et al. 2017</a>), supporting the notion that drug-induced generation of reactive oxygen species leads to ototoxicity. <span class="sc">d</span>-methionine can also reduce cisplatin-induced disruption of central neural pathways (<a id="xref-ref-48-2" class="xref-bibr" href="#ref-48">Gopal et al. 2012</a>; <a id="xref-ref-57-2" class="xref-bibr" href="#ref-57">Hinduja et al. 2015</a>). Some antioxidants show otoprotection against both aminoglycosides and cisplatin (<a id="xref-ref-93-1" class="xref-bibr" href="#ref-93">Lorito et al. 2011</a>; <a id="xref-ref-135-1" class="xref-bibr" href="#ref-135">Tate et al. 2017</a>). </p> <p id="p-34">Aminoglycoside treatment also leads to hypoacetylation of nuclear histones, reducing transcription factor binding to DNA and decreasing gene expression (<a id="xref-ref-23-1" class="xref-bibr" href="#ref-23">Chen et al. 2009</a>). Histone deacetylases (HDACs) remove histone acetylation, and specific inhibitors of HDACs are protective in cochlear explants (<a id="xref-ref-23-2" class="xref-bibr" href="#ref-23">Chen et al. 2009</a>), yet often are not otoprotective in vivo (<a id="xref-ref-158-1" class="xref-bibr" href="#ref-158">Yang et al. 2017</a>). This dissociation between in vitro and in vivo studies demonstrates that the efficacy of candidate otoprotective agents must be verified in vivo. </p> <p id="p-35">Inducible expression of activation of heat shock proteins (HSPs) by supporting cells can promote hair-cell survival against ototoxicity (<a id="xref-ref-134-1" class="xref-bibr" href="#ref-134">Taleb et al. 2008</a>; <a id="xref-ref-98-1" class="xref-bibr" href="#ref-98">May et al. 2013</a>). Induced expression of cochlear HSPs can be caused by exposure to sound levels sufficient to elicit temporary threshold shifts. This transiently stresses the cochlea, yet significantly reduces the degree of both aminoglycoside and cisplatin-induced ototoxicity (<a id="xref-ref-121-1" class="xref-bibr" href="#ref-121">Roy et al. 2013</a>). </p> </div> <div id="sec-12" class="subsection"> <h3>Novel Otoprotective Strategies</h3> <p id="p-36">Recently, several novel otoprotective strategies have been reported. Steroids are otoprotective, yet may also decrease the tumoritoxicity of platin-based drugs when administered systemically, or have safety issues when dosed chronically (reviewed by <a id="xref-ref-119-1" class="xref-bibr" href="#ref-119">Ramaswamy et al. 2017</a>). Alternatively, locally delivered steroids can undergo rapid clearance from inner ear tissues (<a id="xref-ref-123-1" class="xref-bibr" href="#ref-123">Salt and Plontke 2009</a>). To circumvent these issues, <a id="xref-ref-119-2" class="xref-bibr" href="#ref-119">Ramaswamy et al. (2017)</a> injected prednisolone-loaded magnetic nanoparticles intratympanically and used a contralateral magnet to pull the nananoparticles into the inner ear from the middle ear space. This approach reduced cisplatin-induced hearing loss in the high-frequency (basal) region of the cochlea. </p> <p id="p-37">A cell-penetrating peptide vaccine, GV1001, was recently shown to alleviate inflammatory responses, oxidative stress, and apoptosis, as reviewed by <a id="xref-ref-76-1" class="xref-bibr" href="#ref-76">Kim et al. (2018)</a>. Significantly reduced hearing loss (and OHC loss) occurred when the peptide was parenterally administered contemporaneously with (or 1 or 3 days following) a single combined dose of aminoglycoside and furosemide that induces catastrophic hearing loss (<a id="xref-ref-76-2" class="xref-bibr" href="#ref-76">Kim et al. 2018</a>). Validating the mechanism of action will be of great interest given the spatiotemporal separation between potent ototoxin dosing and administration of the otoprotective peptide vaccine. </p> <p id="p-38">Aqueous and gaseous hydrogen (H₂) have shown potential in preventing ischemia in several animal models of ototoxicity and nephrotoxicity, presumptively by reducing oxidative stress (reviewed by <a id="xref-ref-38-1" class="xref-bibr" href="#ref-38">Fransson et al. 2017</a>). Gaseous H₂ is safe at levels &lt;4% of atmospheric air, and does not induce adverse reactions in humans (<a id="xref-ref-60-1" class="xref-bibr" href="#ref-60">Huang et al. 2011</a>). The BLB, or other cochlear barriers, are not thought to pose a significant obstacle to the penetration of dissolved gases like H₂, CO₂, or O₂, among others. <a id="xref-ref-38-2" class="xref-bibr" href="#ref-38">Fransson et al. (2017)</a> found that H₂ inhalation (2% for 60 min) abrogated cisplatin-induced loss of CTR1 or synaptophysin, and loss of OHCs in guinea pigs. Crucially, inhaled H₂ significantly reduced cisplatin-induced hearing loss (<a id="xref-ref-38-3" class="xref-bibr" href="#ref-38">Fransson et al. 2017</a>). </p> </div> </div> <div class="section" id="sec-13"> <div class="section-nav"><a href="#sec-4" title="OTOPROTECTION" class="prev-section-link"><span>Previous Section</span></a><a href="#sec-17" title="CONCLUSIONS" class="next-section-link"><span>Next Section</span></a></div> <h2 class="">CHALLENGES TO PREVENTING OTOTOXICITY</h2> <p id="p-39">Several challenges to preventing ototoxicity exist. These are (1) insufficient understanding of the mechanisms of ototoxicity for individual ototoxins, (2) knowing which otoprotective strategy is best for individual ototoxins, and (3) translating this knowledge into efficacious therapeutic interventions. Each are briefly discussed. </p> <div id="sec-14" class="subsection"> <h3>Mechanisms of Ototoxicity</h3> <p id="p-40">Individual ototoxins have different (and often multiple) mechanisms of cytotoxicity that can vary between cell type, cell status, and local environment. This is typified by cisplatin, which is preferentially cytotoxic in proliferating cells, yet remains toxic to terminally differentiated cochlear hair cells no longer undergoing cell division. In the cochlea, cisplatin's cytotoxicity appears to primarily derive from its interference with cellular redox status and from biasing cellular inflammatory responses toward apoptosis (<a id="xref-ref-120-1" class="xref-bibr" href="#ref-120">Ross et al. 2009</a>; <a id="xref-ref-44-1" class="xref-bibr" href="#ref-44">Ghosh et al. 2018</a>). In addition, supporting cells in the avian basilar papilla appear to (initially) survive exposure to cisplatin, yet cannot retain adequate proliferative capacity to initiate hair-cell regeneration typically seen after noise or aminoglycoside exposure (<a id="xref-ref-29-2" class="xref-bibr" href="#ref-29">Cotanche et al. 1994</a>; <a id="xref-ref-155-1" class="xref-bibr" href="#ref-155">Woolley et al. 2001</a>; <a id="xref-ref-129-2" class="xref-bibr" href="#ref-129">Slattery and Warchol 2010</a>; <a id="xref-ref-130-2" class="xref-bibr" href="#ref-130">Slattery et al. 2014</a>). How other ototoxins affect cochlear cell types remain to be determined. Aminoglycosides bind to large numbers of intracellular proteins, and it is not yet clear which aminoglycoside-binding proteins are themselves crucial for cell survival, and which can sequester the drug to promote cellular survival (<a id="xref-ref-71-1" class="xref-bibr" href="#ref-71">Karasawa et al. 2010</a>, <a id="xref-ref-72-2" class="xref-bibr" href="#ref-72">2011</a>). More importantly, unlike hair cells and renal proximal tubule cells, most cells can clear aminoglycosides from their cytosol, yet the mechanisms by which this occurs remain unknown (<a id="xref-ref-31-1" class="xref-bibr" href="#ref-31">Dai et al. 2006</a>). </p> </div> <div id="sec-15" class="subsection"> <h3>Mechanisms of Otoprotection</h3> <p id="p-41">Mechanisms of otoprotection are often uncertain. For example, aspirin (salicyclate) is considered to be an antioxidant that can sequester free oxygen radicals to reduce the degree and extent of OHC loss (i.e., ototoxicity) (<a id="xref-ref-126-1" class="xref-bibr" href="#ref-126">Sha and Schacht 1999</a>; <a id="xref-ref-22-2" class="xref-bibr" href="#ref-22">Chen et al. 2007</a>). However, loss of OHCs via apoptosis is dependent on the translocation of cytoplasmic NF-κB to the nucleus, yet this translocation of NF-κB is inhibited by aspirin in other cell systems (<a id="xref-ref-118-1" class="xref-bibr" href="#ref-118">Ramakrishnan and Jusko 2001</a>; <a id="xref-ref-64-1" class="xref-bibr" href="#ref-64">Jiang et al. 2005</a>), suggesting that aspirin has additional mechanisms of otoprotection besides being an antioxidant. Thus, accurate interpretation of data is dependent on understanding the full range of activities of candidate otoprotectants to avoid erroneous mechanistic assumptions and conclusions. The discovery of novel otoprotectants can reveal new mechanisms of ototoxicity. For example, the unexpected efficacy of CDK2 inhibitors in protecting hair cells suggest that cell cycle kinases can regulate drug-induced apoptosis (<a id="xref-ref-54-2" class="xref-bibr" href="#ref-54">Hazlitt et al. 2018b</a>; <a id="xref-ref-137-3" class="xref-bibr" href="#ref-137">Teitz et al. 2018</a>). Thus, the role of this signaling pathway in the cytotoxicity of postmitotic hair cells needs further characterization. As mechanisms of otoprotection become more fully understood, individual candidate otoprotectants could be used for multiple ototoxins with similar mechanisms of action. The phenomenon of increased drug uptake by the cochlea during immunogenic inflammation (i.e., by bacterial or viral infections) may also promote an increased uptake of otoprotectants, akin to that for the inadvertent increased uptake of aminoglycosides that nefariously enhances cochleotoxicity (<a id="xref-ref-81-5" class="xref-bibr" href="#ref-81">Koo et al. 2015</a>). </p> <p id="p-42">Another primary consideration for successful translation of a candidate otoprotectant into clinical practice is that the protective efficacy of the candidate otoprotectant must not protect bacteria or tumors from the intended bactericidal effects of aminoglycosides or tumoritoxicity of platin-based drugs. This consideration has delayed the use of antioxidant-based otoprotective candidates, like sodium thiosulfate, developed to prevent cisplatin-induced ototoxicity (<a id="xref-ref-39-1" class="xref-bibr" href="#ref-39">Freyer et al. 2017</a>; <a id="xref-ref-14-1" class="xref-bibr" href="#ref-14">Brock et al. 2018</a>), and remains the subject of intense debate for antioxidants in general. It is for this reason that in vivo preclinical studies must closely mimic the medical setting in which these compounds will be used. This includes chronic dosing, inducing live infection and/or subsequent inflammatory response models for aminoglycosides (<a id="xref-ref-81-6" class="xref-bibr" href="#ref-81">Koo et al. 2015</a>), and xenografting appropriate tumor models combined with subsequent inflammatory models (where appropriate) for platin-based drugs like cisplatin. </p> </div> <div id="sec-16" class="subsection"> <h3>Translation into Clinical Practice</h3> <p id="p-43">Translating preclinical mechanisms of otoprotection into clinical practice remains challenging on numerous levels. Unless the primary site of otoprotection is at the BLB, candidate otoprotectants must traverse the BLB at therapeutic levels. If systemic administration is not practical or safe, local delivery via intratympanic administration may be a viable alternative, providing the candidate otoprotectant remains efficacious when primarily delivered to perilymph. Other mechanisms of preventing ototoxicity include antibiotic stewardship to reduce aminoglycoside dosing and the risk of bacterial resistance to aminoglycosides (<a id="xref-ref-115-1" class="xref-bibr" href="#ref-115">Pitiriga et al. 2017</a>). Additional otoprotective strategies include the development of improved diagnosis for sepsis using PCR detection of microbial DNA sequences (<a id="xref-ref-141-1" class="xref-bibr" href="#ref-141">Trung et al. 2016</a>) to reduce the incidence of prophylactic aminoglycoside dosing, as well as genetic screening for mutations known to enhance susceptibility to aminoglycoside- or cisplatin-induced ototoxicity (<a id="xref-ref-120-2" class="xref-bibr" href="#ref-120">Ross et al. 2009</a>; <a id="xref-ref-66-1" class="xref-bibr" href="#ref-66">Jing et al. 2015</a>). </p> </div> </div> <div class="section" id="sec-17"> <div class="section-nav"><a href="#sec-13" title="CHALLENGES TO PREVENTING OTOTOXICITY" class="prev-section-link"><span>Previous Section</span></a><a href="#ack-1" title="ACKNOWLEDGMENTS" class="next-section-link"><span>Next Section</span></a></div> <h2 class="">CONCLUSIONS</h2> <p id="p-44">Over the last 70 years and since the discovery of aminoglycosides and cisplatin, considerable information has been acquired about the mechanisms of ototoxicity, underpinning novel strategies of cytoprotection specific for the inner ear. This foundation has poised the field for an exponential growth of new knowledge regarding mechanisms of ototoxicity, and the discovery of candidate otoprotective compounds. This growth phase provides unprecedented opportunities for academia and biotechnology companies to collaborate on multiple levels, from genetics and epidemiology to drug discovery, toward preventing the devastating and debilitating consequences of drug-induced hearing loss. </p> </div> <div class="section ack" id="ack-1"> <div class="section-nav"><a href="#sec-17" title="CONCLUSIONS" class="prev-section-link"><span>Previous Section</span></a><a href="#fn-group-1" title="Footnotes" class="next-section-link"><span>Next Section</span></a></div> <h2 class="">ACKNOWLEDGMENTS</h2> <p id="p-45">This work was supported by MRC Programme Grant No. MR/K005561/1 (C.J.K.), and by NIH-NIDCD Grant No. R01 DC004555 (P.S.S.). The illustrations were drafted by Karen Thiebes, Simplified Science Publishing. Funding agencies had no role in the preparation of this manuscript, or decision to publish. </p> </div> <div class="section fn-group" id="fn-group-1"> <div class="section-nav"><a href="#ack-1" title="ACKNOWLEDGMENTS" class="prev-section-link"><span>Previous Section</span></a><a href="#ref-list-1" title="REFERENCES" class="next-section-link"><span>Next Section</span></a></div> <h2>Footnotes</h2> <ul> <li class="fn" id="fn-1"> <p id="p-1">Editors: Guy P. Richardson and Christine Petit</p> </li> <li class="fn" id="fn-2"> <p id="p-2">Additional Perspectives on Function and Dysfunction of the Cochlea available at <a href="http://www.perspectivesinmedicine.org">www.perspectivesinmedicine.org</a></p> </li> </ul> </div> <ul class="copyright-statement"> <li class="fn" id="copyright-statement-1"><a href="http://www.perspectivesinmedicine.org/site/misc/terms.xhtml">Copyright © 2019 Cold Spring Harbor Laboratory Press; all rights reserved</a></li> </ul> <div class="section ref-list" id="ref-list-1"> <div class="section-nav"><a href="#fn-group-1" title="Footnotes" class="prev-section-link"><span>Previous Section</span></a><div class="nav-placeholder"> </div> </div> <h2 class="">REFERENCES</h2> <p id="p-46">*<em>Reference is also in this collection.</em></p> <ol class="cit-list ref-use-labels"> <li><span class="ref-label ref-label-empty"></span><a class="rev-xref-ref" href="#xref-ref-1-1" title="View reference in text" id="ref-1">↵</a><div 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