Co-administration of the neurotrophic ACTH(4-9) analogue, ORG 2766, may reduce the cochleotoxic effects of cisplatin

Platinum-Based Combination Therapy: Molecular Rationale, Current Clinical Uses, and Future Perspectives

Platinum drugs are common in chemotherapy, but their clinical applications have been limited due to drug resistance and severe toxic effects. The combination of platinum drugs with other drugs with different mechanisms of anticancer action, especially checkpoint inhibitors, is increasingly popular. This combination is the leading strategy to improve the therapeutic efficiency and minimize the side effects of platinum drugs. In this review, we focus on the mechanistic basis of the combinations of platinum-based drugs with other drugs to inspire the development of more promising platinum-based combination regimens in clinical trials as well as novel multitargeting platinum drugs overcoming drug resistance and toxicities resulting from current platinum drugs.

Cisplatin-Induced Ototoxicity: Effects, Mechanisms and Protection Strategies

Cisplatin is a highly effective chemotherapeutic agent that is widely used to treat solid organ malignancies. However, serious side effects have been associated with its use, such as bilateral, progressive, irreversible, dose-dependent neurosensory hearing loss. Current evidence indicates that cisplatin triggers the production of reactive oxygen species in target tissues in the inner ear. A variety of agents that protect against cisplatin-induced ototoxicity have been successfully tested in cell culture and animal models. However, many of them interfere with the therapeutic effect of cisplatin, and therefore are not suitable for systemic administration in clinical practice. Consequently, local administration strategies, namely intratympanic administration, have been developed to achieve otoprotection, without reducing the antitumoral effect of cisplatin. While a considerable amount of pre-clinical information is available, clinical data on treatments to prevent cisplatin ototoxicity are only just beginning to appear. This review summarizes clinical and experimental studies of cisplatin ototoxicity, and focuses on understanding its toxicity mechanisms, clinical repercussions and prevention strategies.

Hearing impairment after platinum-based chemotherapy in childhood

BACKGROUND

Chemotherapy is used in the treatment of children and adolescents with malignant diseases. Some of the chemotherapeutic agents are highly toxic and may cause a number of side effects. The primary objective of this study was to evaluate the long-term effects on hearing in cancer survivors who had received platinum-based chemotherapy in childhood or adolescence.

PROCEDURE

Medical records of 297 patients, who had received treatment for cancer at the Children's Hospital, Landspitali University Hospital in Iceland between 1981 and 2006, were retrospectively reviewed. Fifteen subjects fulfilled the eligibility criteria for the study and underwent an extended audiometric evaluation.

RESULTS

The results showed that three of the subjects had a high frequency hearing loss. In one subject, we observed a hearing recovery just after the completion of chemotherapy, but the hearing deteriorated again some years later. Nine of the 15 subjects (60%) had tinnitus after the cancer treatment. An evaluation of subjective hearing disability and handicap (The Hearing Measurements Scale) revealed that some subjects had great difficulties with hearing in certain situations. The Hearing Measurement Scale showed that the pure-tone audiogram findings were only partly associated with the apparent hearing difficulties.

CONCLUSION

Regular follow-up hearing examinations, which include both pure-tone audiogram investigations and subjective hearing disability assessments, should be performed during and after chemotherapy to identify subjects who require particular attention. This will ensure that hearing impaired individuals are provided with the most suitable listening devices, to promote good speech and social development.

Distortion-product otoacoustic emissions and auditory brainstem responses sensitivity assessment in cisplatin-induced ototoxicity in rats

Cisplatin (cis-diamminedicloroplatinum) is an antineoplastic drug used in the treatment of a variety of cancers, especially head-and-neck cancer. Its ototoxicity, however, has been noted as a common side-effect which limits its use and causes significant morbidity.

Aim

to assess distortion-product otoacoustic emissions (DPOAE) and brainstem evoked response audiometry (BERA) sensitivity to detect secondary ototoxicity caused by different doses and means of administration of cisplatin in rats.

Study Design

Experimental.

Materials and Methods

Male Wistar rats were intraperitoneally (i.p.) injected with 24 mg/kg cisplatin, divided into three equal doses (8mg/kg) or a single i.p. injection of 16 mg/kg. The animals were evaluated by distortion product otoacoustic emission (DPOAE) or brainstem evoked response audiometry (BERA) on the 3rd and 4th days after the cisplatin injection.

Results

Treatment with cisplatin 24 mg/kg resulted in significant DPOAE decrease and it raised the BERA electrophysiological threshold. The 16mg/kg dose could not significantly reduce the DPOAE amplitude, but it raised the animals' hearing thresholds – detected by the BERA.

Conclusion

In rats, BERA was more sensitivity than DPOAE at detecting cisplatin-induced ototoxicity in rats considering different doses and means of administration.

Light microscopy study of cisplatin-induced ototoxicity in rats

BACKGROUND

Although most studies on animal ototoxicity employ scanning electron microscopy, all cochlear structures may be identified with light microscopy. This paper describes a simple method of histological assessment of cisplatin-induced ototoxicity in rats, and relates morphological changes to functional changes in hearing detected by distortion product evoked otoacoustic emissions.

MATERIALS AND METHODS

Male Wistar rats were injected with 8 mg/kg/day cisplatin, or with an equivalent volume of saline solution, for three consecutive days. They underwent distortion product evoked otoacoustic emission testing at baseline and at 24 or 48 hours after the last administration. At the end of the experiment, the animals were sacrificed and their cochleae were retrieved and prepared for haematoxylin and eosin staining.

RESULTS

A four-point scoring system was used to grade injury to the external ciliated cells, as indicated by the number of cells absent from the basal turn of the cochlear duct. A four-point scoring system was also used to grade stria vascularis injury, as indicated by the degree of shrinkage of the intermediate cells. Scores were significantly higher in groups treated with cisplatin compared with controls. Morphological changes were confirmed by decreased distortion product evoked otoacoustic emission amplitudes in animals treated with cisplatin.

CONCLUSION

This method is simple to perform with routine histology equipment and is appropriate for the study of acute, cisplatin-induced ototoxicity in rats.

AAV-mediated delivery of the caspase inhibitor XIAP protects against cisplatin ototoxicity

HYPOTHESIS

Delivery of the gene encoding X-linked inhibitor of apoptosis (XIAP) using an adeno-associated viral (AAV) vector can protect against cisplatin-mediated ototoxicity.

BACKGROUND

Cisplatin is a widely used chemotherapeutic agent with significant ototoxic side effects. One possible mechanism of toxicity is apoptotic death of many cochlear cell types. Acute treatment with inhibitors of caspases- enzymes critical for apoptosis- has been shown to prevent hearing loss in vivo, but is too short-acting for therapeutic use. Gene therapy provides a specific and chronic means of delivering potential therapeutic gents. Introducing an anti-apoptotic gene into the cochlea could provide long-term prophylaxis against the ototoxic effects of cisplatin.

METHOD

Two groups of rats were treated with unilateral injection into the round window of AAV harboring a gene encoding either XIAP or green fluorescent protein (GFP). After at least two months of gene expression, auditory-brainstem-response (ABR) threshold shifts and outer-hair-cell (OHC) number were measured in these two groups of animals after 72-hour treatment with cisplatin.

RESULTS

Consistent with previous reports, uninjected and AAV.GFP-injected ears displayed profound ABR threshold elevations and OHC loss after cisplatin treatment. Ears that had been injected with AAV encoding XIAP, however, were significantly protected from these effects: cisplatin-induced ABR-threshold shift and hair-cell loss were attenuated by as much as 78% and 45%, respectively, when compared with contralateral (untreated) ears.

CONCLUSION

XIAP delivery to the cochlea can protect against the audiometric changes and hair-cell loss associated with cisplatin ototoxicity. The efficacy, specificity, and duration of the protective effects make this a potentially attractive therapeutic paradigm.

The cochlear targets of cisplatin: an electrophysiological and morphological time-sequence study

Cisplatin ototoxicity has at least three major targets in the cochlea: the stria vascularis, the organ of Corti, and the spiral ganglion. This study aims to differentiate between these three targets. In particular, we address the question of whether the effects at the level of the organ of Corti and spiral ganglion are mutually dependent or whether they develop in parallel. This question was approached by studying the ototoxic effects while they develop electrophysiologically and comparing these to earlier presented histological data [Van Ruijven et al., 2004. Hear. Res. 197, 44-54]. Guinea pigs were treated with intraperitoneal injections of cisplatin at a dose of 2 mg/kg/day for either 4, 6, or 8 consecutive days. This time sequence has not revealed any evidence of one ototoxic process triggering another. Therefore, we have to stay with the conclusion of Van Ruijven et al. (2004) that both processes run in parallel.

Time sequence of degeneration pattern in the guinea pig cochlea during cisplatin administration. A quantitative histological study

We investigated the key tissues that are implicated in cisplatin ototoxicity within the time window during which degeneration starts. Guinea pigs were treated with cisplatin at a dose of 2 mg/kg/day for either 4, 6, or 8 consecutive days. Histological changes in the organ of Corti, the stria vascularis and the spiral ganglion were quantified at the light microscopical level. Outer hair cell (OHC) loss started between 4 and 6 days of cisplatin administration, but is only significantly different from the non-treated group after 8 days of treatment. Midmodiolar OHC counts were comparable to the cytocochleogram data. The cross-sectional area of the stria vascularis did not differ from the non-treated group, nor did an endolymphatic hydrops develop during the course of treatment. Spiral ganglion cell (SGC) densities did not decrease. After 6 days, however, detachment of the myelin sheath of the type-I SGCs was seen in the lower basal turn, whereas after 8 days it was also present in the more apically located turns. Myelin sheath detachment is the result of perikaryal shrinkage and swelling of the myelin sheath. The present study confirms that cisplatin at a daily dose of 2 mg/kg has a detrimental effect on the OHCs as well as on the type-I SGCs. These intracochlear effects occur simultaneously; OHC loss and SGC shrinkage start between the fourth and sixth day of cisplatin administration and appear to develop in parallel. At this dose, no histological effect on the stria vascularis could be observed, although previous electrophysiological experiments demonstrated a clear effect on the endocochlear potential

Perilymphatic application of alpha-melanocyte stimulating hormone ameliorates hearing loss caused by systemic administration of cisplatin

It has previously been demonstrated that ototoxicity induced by systemic administration of cisplatin is reduced by concomitant systemic administration of alpha-melanocyte stimulating hormone (alpha-MSH). In this study we investigated the effects of cochlear, perilymphatic application of alpha-MSH during intraperitoneal administration of cisplatin. Guinea pigs, implanted with a round-window electrode, allowing daily monitoring of the compound action potential (CAP), and also implanted with a mini-osmotic pump, pumping at a rate of 0.25 microl/h either physiological saline or alpha-MSH solution (0.02, 2, and 20 microg/ml), were treated daily with a bolus injection of cisplatin (2 mg/kg) until the electrocochleogram showed a persistent decrease in CAP amplitude (> or = 40 dB threshold shift at 8 kHz). Then, cisplatin treatment was stopped, but intracochlear perfusion of alpha-MSH or physiological saline was continued for 10 days to evaluate possible effects of alpha-MSH on the expected recovery. On day 10, the animals were killed and the cochleas were fixed and processed for histological analysis. All groups required 6-7 days of cisplatin to reach the criterion CAP threshold shift. Ten days after cessation of the cisplatin treatment, recovery of the CAP was observed in all groups and at all frequencies, although it was more pronounced at the lower frequencies. With respect to recovery, small statistically significant differences were found between the saline and the alpha-MSH co-treated groups. Histological results showed significantly less outer hair cell (OHC) loss in the group co-treated with 2 microg/ml alpha-MSH as compared to the group co-treated with saline. Since alpha-MSH was directly delivered to the cochlea, the ameliorating effect of alpha-MSH on OHC survival is likely to involve a cochlear target.

Alterations in the stria vascularis in relation to cisplatin ototoxicity and recovery

We have investigated whether or not cisplatin-induced depression of the endocochlear potential (EP), and its subsequent recovery, possesses a morphological correlate in the stria vascularis. Guinea pigs implanted with round window electrodes were treated daily with cisplatin (1.5 mg/kg/day) until the compound action potential showed a profound hearing loss (> or =40 dB at 8 kHz after 5-18 days). Animals were either sacrificed immediately after the shift in hearing threshold ('SHORT' group) or allowed to recover for > or =4 weeks and subsequently sacrificed ('LONG' group). Control animals ('CONTROL' group) were not treated with cisplatin. Using stereological methods we measured the total strial cross-sectional area together with the areas occupied by the different strial components: the marginal, intermediate and basal cells. The total strial cross-sectional area in the basal turn of the LONG group was found to be significantly smaller than that of the SHORT and the CONTROL groups, whereas the EP was normal in the LONG group (in comparison to the CONTROL group) and markedly decreased in the SHORT group. The smaller area in the LONG group was mainly due to a decrease in the area occupied by the intermediate cells and to a lesser extent to a decrease in the marginal cell area. The area occupied by the basal cells did not change. Thus, the marked decrease in EP after 5-18 days of cisplatin administration was not related to shrinkage of the stria vascularis. Moreover, 4 weeks later the EP showed full recovery, whereas the stria vascularis had shrunk markedly.

Cisplatin Ototoxicity Involves Organ of Corti, Stria Vascularis and Spiral Ganglion: Modulation by αMSH and ORG 2766

It has been shown that alphaMSH and the nonmelanotropic ACTH/MSH(4-9) analog ORG 2766 can ameliorate cisplatin-induced neurotoxicity and ototoxicity. Here, we investigated whether these peptides delay the occurrence of the cisplatin-induced shift in auditory threshold, and whether they affect the subsequent recovery of cochlear potentials. Chronically implanted round window electrodes were used to obtain daily recordings of auditory nerve compound action potentials (CAP) and cochlear microphonics at frequencies ranging from 2 to 16 kHz. Cisplatin (1.5 mg/kg i.p.) plus alphaMSH, ORG 2766 (75 mug/kg s.c.), or saline were injected daily until the 40-dB CAP threshold shift at 8 kHz was reached. Endocochlear potential (EP) was measured either 1-2 days or 28 days later, followed by morphometric analysis of the cochlea. Peptide cotreatment did not consistently delay the threshold shift; however, the CAP threshold recovered faster and to a greater extent, with the potency order being alphaMSH > ORG 2766 > saline. Significant recovery at the 2 highest frequencies was seen in the alphaMSH-treated animals only. CAP amplitude at high sound pressures, which depends more on nerve function than on outer hair cell (OHC) function, decreased severely in all groups but recovered significantly in the alphaMSH- and completely in the ORG-2766-cotreated group. EP was significantly lower in the first days after the threshold shift but had completely recovered at 28 days. Morphometric analysis of the spiral ganglion also indicated involvement of ganglion cells. OHC loss was most severe in the basal turn of saline-cotreated animals. These data suggest that the cisplatin-induced acute threshold shift might be due to reversible strial failure, whereas subsequent OHC survival determines the final degree of functional recovery. Both OHC loss and neuronal function were ameliorated by peptide cotreatment.

Systemic co-treatment with alpha-melanocyte stimulating hormone delays hearing loss caused by local cisplatin administration in guinea pigs

It has previously been demonstrated that ototoxicity induced by systemic administration of cisplatin is reduced by concomitant administration of melanocortins, like alpha-melanocyte stimulating hormone (alpha-MSH). However, these experiments were hampered by large interanimal variability. Therefore, we re-investigated the effects of systemically administered alpha-MSH during local (intracochlear) administration of cisplatin. Guinea pigs, implanted with a round-window electrode, allowing daily monitoring of the compound action potentials (CAPs), and a mini-osmotic pump, pumping either 0.5 microl/h physiological saline or cisplatin solution (15 microg/ml), were co-treated daily with a subcutaneous bolus injection of either alpha-MSH (75 microg/kg) or physiological saline for 1 week or until the electrocochleogram showed a persistent decrease in CAP amplitude (40 dB threshold shift at 8 kHz). Next, the animals were sacrificed and the cochleas were processed for histology. After 2-3 days, cisplatin alone caused a threshold shift at all frequencies (2-16 kHz). Co-administration with alpha-MSH consistently delayed the criterion threshold shift by 1 day. When the 40 dB criterion had been reached, similar outer hair cell losses in both the cisplatin/alpha-MSH- and cisplatin/saline-treated groups were observed. This experiment confirms that direct administration of cisplatin into the cochlea results in considerably less interanimal variability than systemic administration and that co-treatment with alpha-MSH delays cisplatin ototoxicity. Since cisplatin was delivered directly to the cochlea, the ameliorating effect of alpha-MSH probably involves a cochlear target.

Co-treatment with melanotan-II, a potent melanocortin, does not protect against cisplatin ototoxicity

Cisplatin, an important chemotherapeutic agent, has severe dose-limiting side effects including peripheral neurotoxicity and ototoxicity. Peripheral neurotoxicity can be delayed or prevented by simultaneous treatment with a class of neuropeptides known as melanocortins. Examples are ORG 2766, alpha-melanocyte stimulating hormone (alpha-MSH) and melanotan-II (MT-II). In albino guinea pigs, our group has found that ORG 2766 and alpha-MSH can also reduce cisplatin-induced ototoxicity. In this study we investigated the possibly protective effects of MT-II upon cisplatin ototoxicity. Guinea pigs, equipped with a permanent round-window electrode for electrocochleography, were treated with cisplatin (1.5 mg/kg/day intraperitoneal) and simultaneously with MT-II (30 or 3 microg/kg/day subcutaneous) or saline until a 40 dB suppression of the compound action potential (CAP) threshold (3 microV criterion) at 8 kHz occurred. This -40 dB criterion was reached after 5-18 days. Thereafter, the treatment was stopped, but electrocochleography was continued for another 4 weeks. The number of days in which the -40 dB criterion was reached in the MT-II co-treated group did not differ from the period in the saline group. Ten days after the end of the treatment a spontaneous recovery of the CAP was observed in all groups and at all frequencies, although it was more pronounced at lower frequencies. Also with respect to recovery, no differences were found between the saline and the MT-II co-treated group. Thus, in contrast with the otoprotective properties of other melanocortins, MT-II has no protective properties against cisplatin-induced ototoxicity, at least not with the doses applied here.

Partial recovery of cisplatin-induced hearing loss in the albino guinea pig in relation to cisplatin dose

The objective of the present study was to further characterize cochlear recovery after cisplatin damage. We equipped albino guinea pigs with permanent round window electrodes. Cisplatin was injected i.p. on a daily basis at either 1.5 or 2.0 mg/kg/day. Treatment was stopped when the criterion of > or =40 dB loss in the compound action potential iso-response level at 8 kHz had occurred. Either shortly (1-3 days) or long (4 weeks or more) after this stop, the endocochlear potential (EP) was measured and all animals were sacrificed for histology. At a cisplatin dose of 2.0 mg/kg/day, the time needed to reach the criterion hearing loss varied from 5 to 11 days. With 1.5 mg/kg/day this period lasted longer, the cumulative dose being the first-order predictor. The cochlear potentials gradually recovered in the first 2 weeks after treatment. At the lower frequencies, recovery was often complete. At the higher frequencies complete recovery was never seen. EP was depressed when measured just after treatment but had normal values long after. Basal outer hair cell (OHC) loss was found for both the short and the long post-treatment period. Thus, loss and recovery of cochlear potentials can for a large part be explained by loss and recovery of the EP. Recovery is limited by permanent OHC loss.

Perilymphatic application of cisplatin over several days in albino guinea pigs: dose-dependency of electrophysiological and morphological effects

Cisplatin, at 0, 3, 30 or 300 microg/ml in saline, was applied to the scala tympani of the cochlea of guinea pigs via osmotic mini-pumps, operating at a pump rate of 0.5 microl/h. Electrocochleographic recordings were made from an implanted round window electrode. When an electrocochleographic criterion of ototoxicity was reached (40 dB loss in compound action potential (CAP) threshold at 8 kHz), or after 1 week if this criterion was not reached, the animals were sacrificed for light microscopy. A subgroup of animals had endocochlear potentials (EPs) measured prior to sacrifice. Hearing remained stable in the 0 microg/ml control group, but a sudden drop of auditory sensitivity across the whole frequency range was observed in all other groups. It took 1-5 days before the drop occurred, dependent on cisplatin concentration. CAP and cochlear microphonics were lost simultaneously. The EP was severely depressed in the affected animals, suggesting that cisplatin effects on the EP are primary. However, histology revealed an accompanying loss of outer hair cells, primarily in the basal turn. It is concluded that if cisplatin is given until ototoxicity becomes apparent electrophysiologically, then the cochlear pathology from intrascalar cisplatin administration resembles that from daily parenteral administration at 1.5-2.0 mg/kg. The cochlear pathology from the parenteral treatment was greater than that observed with 30 microg/ml pumps, and less than that from 300 microg/ml pumps.

Effects of alpha-tocopherol on cisplatin-induced ototoxicity in guinea pigs

Cisplatin (CDDP), an antitumor agent widely used in the treatment of head and neck cancers, has dose-limiting side effects such as ototoxicity and nephrotoxicity. Recently, evidence has been accumulated to demonstrate that these side effects are closely related to oxidative stress. In the present study, we attempted to suppress CDDP-induced ototoxicity and nephrotoxicity in guinea pigs by administering alpha-tocopherol, a naturally occurring antioxidant. Hartley albino guinea pigs (250 approximately 300 g) were treated with CDDP (4 mg/kg intraperitoneally (I.P.)) for 3 days in the presence and absence of alpha-tocopherol (50 mg/kg I.P.) injection for 6 days. The combined treatment of animals with alpha-tocopherol distinctly improved the CDDP-induced side effects. These were: loss of Preyer's reflex at high frequencies; distinct elevation of auditory brain stem response threshold at 16 kHz; increased lipid peroxidation in the cochlea determined by the malondialdehyde-thiobarbituric acid method; substantial losses of outer hair cells in the basal and second turns of the cochlea; fragmentation of nuclear DNA detected by the TUNEL method in cochlear hair cells and cells in the stria vascularis; and increases in serum BUN and Cr. These results strongly suggest that alpha-tocopherol suppresses CDDP-induced ototoxicity and nephrotoxicity via the suppression of the increased production of reactive oxygen species.

Dose-dependent effect of 8-day cisplatin administration upon the morphology of the albino guinea pig cochlea

Numerous studies investigating cisplatin ototoxicity in animals have been performed, but it is difficult to derive a clear dose-effect relation from these studies. The degree of cisplatin-induced ototoxicity depends on a multitude of factors. Many parameters, such as dose, mode of administration, dosage schedule and concomitant administration of protective additives, vary among the published studies. Therefore, we performed a basic dose-effect study on cisplatin ototoxicity in the guinea pig. Albino guinea pigs were treated with cisplatin at daily doses of either 0.7, 1.0, 1.25, 1.5 or 2.0 mg/kg for 8 consecutive days. Electrocochleography was performed on day 10 after which the cochleas were removed and processed for histological examination. The electrophysiological results showed a marked transition from almost no ototoxic effect to a large effect between a daily dose of 1.25 and 1.5 mg/kg (Stengs et al., 1998). Outer hair cell (OHC) counts corresponded well with the electrophysiological results. At daily doses of 0.7, 1.0 and 1.25 mg/kg no statistically significant OHC loss was observed, whereas OHC loss averaged 60% and 65% in the basal turns at daily doses of 1. 5 and 2.0 mg/kg, respectively. Morphological changes in the stria vascularis were present only in cochleas from animals treated with cisplatin doses of 1.0, 1.25 and 1.5 mg/kg/day. Cochleas from animals treated with a daily cisplatin dose of 2.0 mg/kg for 8 consecutive days showed an endolymphatic hydrops. The present study shows that cisplatin, administered at a daily dose of 1.5 mg/kg for 8 consecutive days, provides a degree of OHC loss that is well suited to study the effects of putative protective agents and possible hair cell recovery.

Cisplatin-induced ototoxicity: morphological evidence of spontaneous outer hair cell recovery in albino guinea pigs?

Cisplatin is frequently used in the treatment of various forms of malignancies. Its therapeutic efficacy, however, is limited by the occurrence of sensorineural hearing loss. Little is known about the course of hearing loss over longer time intervals after cessation of cisplatin administration. Infrequently, recovery of hearing has been described in animals and humans. Stengs et al. (1997) treated guinea pigs with cisplatin at a daily dose of 1.5 mg/kg for 8 consecutive days and subsequently studied cochlear function after survival times varying from 1 day to 16 weeks. Spontaneous improvement of the hair cell-related potentials (cochlear microphonics and summating potentials) was observed starting 2 weeks after cessation of treatment. In the present study we examined light microscopically the cochleas used in the study of Stengs et al. (1997). One day after cessation of cisplatin administration outer hair cell (OHC) loss in the basal cochlear turn averaged 66%. In the 1-week survival group, OHC counts were similar to those of the 1-day survival group. In the 4-week survival group, however, a relatively small loss of OHCs was found in the basal cochlear turn; OHC loss averaged only 15%. A similar loss was found after 8 weeks. In the 16-week survival group, OHC loss in the basal turn increased to 48%, but this was not statistically significant. Our histological observations are in line with the electrophysiological data from the same animals. Our findings suggest that OHCs recover from cisplatin-induced damage 1-4 weeks after treatment. However, the results do not allow a conclusion as to whether the observed recovery is due to the formation of new OHCs or to (self-)repair of damaged OHCs.

Histological effects of co-administration of an ACTH((4-9)) analogue, ORG 2766, on cisplatin ototoxicity in the albino guinea pig

Cisplatin is one of the most potent antineoplastic drugs presently known, but its therapeutic efficacy is seriously limited by several side effects such as ototoxicity. Several compounds that are known for their nephroprotective effects also seem to reduce the incidence and severity of cisplatin-induced ototoxicity. Hamers et al. (1994) and De Groot et al. (1997) investigated the possibly protective effect of concomitant administration of the ACTH((4-9)) analogue ORG 2766 upon cisplatin ototoxicity in guinea pigs. Animals were treated with cisplatin at a daily dose of 2.0 mg/kg for 8 consecutive days and ORG 2766 at a daily dose of 75 mcg/kg for 9 days. Concomitant administration of cisplatin plus ORG 2766 resulted in a bimodal distribution of the electrophysiological data (compound action potential and cochlear microphonics amplitudes) and the histological data (outer hair cell (OHC) counts). It was surmised that this dichotomy might occur at a certain cisplatin dose. We investigated whether this protective effect of ORG 2766 could be enhanced by reducing the daily dose of cisplatin while maintaining the same dose of ORG 2766. Thirty-six animals were treated with daily i.p. injections of cisplatin at a dose of 1.0 mg/kg (n=18) or 1.5 mg/kg (n=18) for 8 consecutive days. When comparing the mean OHC counts of the different experimental groups, treatment with cisplatin at a daily dose of 1.5 mg/kg for 8 consecutive days resulted in a considerable loss of OHCs, which was significantly reduced after co-administration of ORG 2766. Co-treatment with ORG 2766 did not result in a change in the volume of the scala media. The present results are in agreement with the electrophysiological results published earlier (Stengs et al., 1998b).

Protection and spontaneous recovery from cisplatin-induced hearing loss

Cisplatin [cis-diamminechloroplatinum(II)] has proved itself as a potent antineoplastic agent. However, nephrotoxicity, neurotoxicity, gastrointestinal toxicity, myelosuppression, and ototoxicity interfere with its therapeutical efficacy. Forced diuresis reduces nephrotoxicity, effectively leaving neurotoxicity and ototoxicity as the major side effects of concern, and gastrointestinal toxicity and myelosuppression as the secondary side effects. So far, attempts to reduce these side effects by developing equally potent platinum analogs have been unsuccessful. Some success has been achieved, however, by co-treatment with protective agents. Nearly all these agents are sulfur- or sulfhydryl-containing compounds (thio compounds), known as antioxidants and potent heavy metal chelators. These thio compounds may provide protection from cisplatin toxicity either (1) by direct interaction between the cisplatin and the thio moiety, (2) by displacing platinum from its site of toxic action, (3) by preventing platinum from interfering with superoxide dismutase, or (4) by scavenging of cisplatin-induced free radicals. In particular the first two protective mechanisms bear the risk of reducing the antineoplastic activity of cisplatin. Since nephrotoxicity can be controlled effectively by forced diuresis, a more specific approach of coping with ototoxicity by focusing on protection at the sensorineural level was chosen. Being familiar with the neuro-protective and neurotrophic properties of ACTH-related neuropeptides, specifically against cisplatin-induced peripheral neuropathies, it was judged expedient to test for a possible otoprotective action of these neuropeptides. The results were positive, although tainted with high interanimal variability. When testing for the possibility that the neuropeptides would merely delay cisplatin-induced ototoxicity rather than reduce it, it was discovered in control series without neuropeptide co-treatment that the ear can recover spontaneously from cisplatin-induced hearing loss. This was found both electrophysiologically and in outer hair cell (OHC) counts. Although these preliminary findings require further investigation, they strongly suggest that spontaneous recovery of cochlear injury can occur in the mature mammalian cochlea. Moreover, the otoprotective action of the ACTH-related neuropeptides suggests that it may be possible to stimulate recovery from acute hearing loss using neuropeptides.

The electroreceptor organ of the catfish, Ictalurus melas, as a model for cisplatin-induced ototoxicity

The ototoxic side-effects of the anti-cancer drug cisplatin (cis-diaminedichloroplatinum) have been widely investigated. However, the exact site of action remains unclear. In this study, the electroreceptor organ of the freshwater catfish Ictalurus melas is used as a model for examining the acute effects of cisplatin. The sensory cells in the electroreceptor organ are homologous to the inner hair cells in the cochlea of mammals. The effects of cisplatin administration can be investigated by in vivo recording of the spike trains from the electroreceptor organ primary afferents. Exposure of electroreceptor organs to 330 microM cisplatin for 1 h causes the spontaneous activity to drop, the overall sensitivity to diminish and the shape of the frequency characteristics to change. These effects persist in the week after administration. Control levels have returned at day 22. These results demonstrate an acute and, with considerable hysteresis, reversible cisplatin effect on the electroreceptor organs, which is to a large extent consistent with the cisplatin-induced effects in isolated hair cells in mammals. The time-course of the effect supports the hypotheses that ion channels are blocked immediately by cisplatin administration, and that cisplatin metabolites disturb enzymatic cellular processes.

Cisplatin ototoxicity in developing gerbils

This experimental study was undertaken to investigate the dose-related effect of cisplatin exposure in young gerbils (2 weeks of age) and explore the relationship between different methods used to monitor auditory function after exposure to cisplatin. Four groups of animals, including a control group, were used. The treatment groups, D1 (n = 6), D2 (n = 7) and D3 (n = 6), received one, two, and three doses of cisplatin (5 mg/kg/dose), respectively, at weekly intervals. Treated animals were first exposed to cisplatin at 2 weeks of age. Distortion product otoacoustic emissions (DPOAE) and auditory brainstem responses (ABR) were measured in treated and control animals at 6 weeks of age. The effects of dose and frequency on the DPOAE amplitude, as well as the relationship between the DPOAE and the ABR thresholds were analyzed. Animals in the D1 and D3 groups demonstrated significant elevation of DPOAE and ABR thresholds. Interestingly, animals in the D2 group demonstrated a bimodal distribution of DPOAE and ABR responses, with four animals severely affected and three not showing an effect. A tendency for a bimodal distribution of DPOAE and ABR responses was also observed in the D1 group, at frequencies below 8 kHz.

Cisplatin ototoxicity and the possibly protective effect of alpha-melanocyte stimulating hormone

It is known that adrenocorticotrophic hormone (ACTH)-derived peptides, the so-called melanocortins, can reduce cisplatin-induced neurotoxicity. Recently, our group has found that cisplatin-induced ototoxicity can also be reduced or prevented by treatment with the synthetic melanocortin-like peptide, ORG 2766 (Hamers et al., 1994; De Groot et al., 1997). The present study was designed to investigate the possibly ameliorating effects of the physiologically more relevant naturally occurring neuropeptide alpha-melanocyte stimulating hormone (alpha-MSH) upon cisplatin ototoxicity and to compare its protective effects to those of ORG 2766. For eight consecutive days guinea pigs were treated with cisplatin at a concentration of either 1.5 mg/kg/day or 2 mg/kg/day. Animals were co-treated with either alpha-MSH (75 microg/kg/day), ORG 2766 (75 microg/kg/day), or a sham injection containing physiological saline. Electrocochleography and hair cell counts were performed. Treatment with 1.5 mg/kg/day cisplatin resulted in a large variability of the morphological and electrophysiological data, a variability that might have masked possible effects of ORG 2766 and alpha-MSH. Treatment with 2 mg/kg/day cisplatin caused less variable, severe reductions in the compound action potentials and cochlear microphonics combined with basal and middle-turn outer hair cell loss in five out of six animals. However, in the alpha-MSH co-treated groups, two out of six animals could be classified as normal, two animals as moderately affected and two animals as severely affected. In the ORG 2766 co-treated group we found three animals that were not affected and three animals that were severely affected. We conclude that the protective effects of alpha-MSH and ORG 2766 co-treatment are comparable and that alpha-MSH might be clinically useful in protecting against cisplatin-induced ototoxicity.

Protective effects of a neurotrophic ACTH(4-9) analog on cisplatin ototoxicity in relation to the cisplatin dose: an electrocochleographic study in albino guinea pigs

Cisplatin is a potent cell cycle non-specific chemotherapeutic agent that produces side effects including high-frequency hearing loss. Hamers et al. (1994) studied electrophysiologically the effect of an ACTH(4-9) analog, also known as ORG2766, on the ototoxicity of cisplatin (administered at 2 mg/kg/day for 8 days) in guinea pigs. ORG2766 was given concomitantly with cisplatin during the 8 day period and an additional dose was given on day 9. The conclusion of this study was that ORG2766 might partially prevent cisplatin ototoxicity, but that the chosen cisplatin dose (2 mg/kg/day; 8 days) might have been too high. Because of the high cisplatin dose the protective power of the co-treatment with ORG2766 might not have stretched to all animals. In this study the results of co-treatment with the same dose and daily schedule of ORG2766 and cisplatin doses of 1.0 mg/kg/day and 1.5 mg/kg/day for 8 days are presented. The measurements were performed over a broad range of frequencies (0.5-16 kHz). Electrocochleography was performed at day 10. In the 1.0 mg/kg/day group there was no beneficial effect of ORG2766, although a tendency towards a division between a subgroup resembling control animals and a subgroup with severe cisplatin effects was noted in the co-treated group. In the 1.5 mg/kg/day co-treated group three animals showed compound action potential (CAP) amplitudes close to those of the controls at all frequencies except the very highest (12 and 16 kHz), the remaining three had CAP amplitudes comparable to those of animals in the cisplatin alone group. The effect of ORG2766 on the latter group of six animals taken together was statistically significant. The dichotomy in the results for the 1.5 mg/kg/day group co-treated with ORG2766 suggests that ORG2766 may have a protective effect against cisplatin ototoxicity which, however, depends on a factor currently unknown.

Cisplatin ototoxicity. An electrophysiological dose-effect study in albino guinea pigs

Recently, the effect of the ACTH(4-9) analog, ORG2766, on cisplatin ototoxicity was studied by Hamers et al. (1994). This study showed that the ACTH(4-9) analog partially prevents the ototoxicity of cisplatin. The authors suggested that the daily dose of 2.0 mg/kg/day for 8 days might have been too high to obtain full protection. Knowledge about dose-effect relations for cisplatin ototoxicity is rather meager. Therefore, we conducted a basic dose-effect study for cisplatin without any concomitant additives. A follow-up of the Hamers et al. (1994) study, based on dose-effect data from this paper, is presented in a companion paper. The effects of cisplatin on the compound action potential (CAP), cochlear microphonics (CM) and summating potential (SP) were determined in acute experiments, in different groups of albino guinea pigs, each group injected with a different dose of cisplatin. Daily doses ranged from 0.7 to 2.0 mg/kg/day cisplatin (i.p.) for 8 consecutive days. Electrocochleography was performed at day 10. The measurements were performed over a broad range of frequencies (0.5-16 kHz). The results showed clustering of the data in two groups, the first group concerning the treatments of 1.5 and 2.0 mg/kg/day with large frequency-dependent losses in the three cochlear potentials, the second group concerning the treatments with lower doses of cisplatin (0.7, 1.0 and 1.25 mg/kg/day) where almost no losses in the three cochlear potentials were found. The threshold curves regarding the lower doses (0.7-1.25 mg/kg/day) were almost indistinguishable from the control threshold curve except at the higher frequencies (12 and 16 kHz). Thus, a marked transition from almost no ototoxic effect to a large effect seems to occur between cisplatin doses of 1.25 and 1.5 mg/kg/day for 8 days. The small difference between the effects found for 1.5 mg/kg/day and 2 mg/kg/day suggests that a smaller dose than the one of 2 mg/kg/day for 8 days used previously (Hamers et al., 1994) might better suit research into protection against cisplatin ototoxicity.

Cisplatin-induced ototoxicity; electrophysiological evidence of spontaneous recovery in the albino guinea pig

For 8 days albino guinea pigs (n = 48) were treated with cisplatin (cis-diamminedichloroplatinum(II), 1.5 mg/kg body weight/day). Compound action potentials (CAP), cochlear microphonics (CM) and summating potentials (SP) were recorded from the apical surface of the cochlea in response to tone bursts ranging in frequency from 0.5 to 16 kHz. The recordings were collected in different groups of animals, 1 day, 1 week, 2, 4, 8 and 16 weeks after cisplatin treatment, respectively. One day after the 8-day treatment we found frequency-dependent loss in the amplitudes of the three cochlear potentials, with the larger losses occurring at the higher frequencies. In terms of threshold shift the losses were larger for the CAP than for the hair cell-related potentials SP and CM. A salient improvement in both CAP and CM amplitude occurred over the next 8 weeks. Also, the SP showed improvement. These results indicate that guinea pig cochlear transduction recovers spontaneously after cisplatin injury. Recovery of the hair cell-related potentials suggests that recovery occurs already at the hair cell level. The question whether this recovery originates with the formation of new hair cells or with repair of damaged hair cells should be answered on the basis of subsequent morphological investigations.