Kevin Ohlemiller - Academia.edu (original) (raw)
Papers by Kevin Ohlemiller
Audiology and Neurotology
Mice homozygous for a defect of the tub (rd5) gene exhibit cochlear and retinal degeneration comb... more Mice homozygous for a defect of the tub (rd5) gene exhibit cochlear and retinal degeneration combined with obesity, and resemble certain human autosomal recessive sensory deficit syndromes. To establish the progressive nature of sensory cell loss associated with the tub gene, and to differentiate tub-related losses from those associated with the C57 background on which tub arose, we evaluated cochleas and retinas from tub/tub, tub/+, and +/+ mice, aged 2 weeks to 1 year by light and electron microscopy. Cochleas from mice of all three genotypes show progressive inner (IHC) and outer hair cell (OHC) loss. Relative to tub/+ and +/+ animals, however, tub homozygotes show accelerated OHC loss, affecting the extreme cochlear base (hook region) by 1 month, and the apex by 6 months. IHC loss in tub/tub animals is accelerated in the basal half of the cochlea, affecting the hook region by 6 months. Spiral ganglion cell losses were observed only in tub/tub mice, and only in the cochlear base....
From Behavior to Molecular Biology, 2001
Current opinion in otolaryngology & head and neck surgery, 2004
Recent developments in age-related hearing loss (ARHL) are reviewed with an emphasis on their rel... more Recent developments in age-related hearing loss (ARHL) are reviewed with an emphasis on their relation to the framework advocated by Schuknecht. More than a classification scheme, Schuknecht's typology incorporates testable hypotheses about the bases of ARHL. Since there is presently no widely accepted competing framework, research in this area should be aimed at supporting, modifying, or replacing Schuknecht scheme. Only recently has our understanding of cellular changes and gene/environment interactions in ARHL achieved the level needed for hypothesis-driven experiments in this area. New findings largely support or amplify aspects of Schuknecht's framework. Consideration of the kinds of cells involved in ARHL has broadened to include more nonsensory and supporting cells. This should provide more complete criteria for comparing models, and for diagnosing particular forms of ARHL. Newly discovered genetic effects and more detailed comparisons have imparted mechanistic signif...
Noise & health, 2001
One consequence of noise exposure is increased production of reactive oxygen species (ROS), such ... more One consequence of noise exposure is increased production of reactive oxygen species (ROS), such as superoxide, hydrogen peroxide, and hydroxyl radicals, in the cochlea. ROS can cause oxidative damage to diverse cellular components, including membranes, proteins, and DNA, if they are not "neutralised" by antioxidant defences. Two important enzymes of the cochlear antioxidant defense system are cytosolic copper/zinc superoxide dismutase (SOD1) and selenium-dependent glutathione peroxidase (GPx1). These metalloenzymes work together to regulate ROS production in virtually every cell in the body, and they may be important for limiting cochlear damage associated with aging and acoustic overexposure. In this chapter, we describe a series of experiments using mice with targeted deletions of Sod1 or Gpx1, the mouse genes that code for SOD1 and GPx1, respectively, to study the cellular mechanisms underlying noise-induced hearing loss (NIHL). The results from Sod1 and Gpx1 knockout ...
Translational Research, 2011
Oxidative stress has been broadly implicated as a cause of cell death and neural degeneration in ... more Oxidative stress has been broadly implicated as a cause of cell death and neural degeneration in multiple disease conditions; however, the evidence for successful intervention with dietary antioxidant manipulations has been mixed. In this study, we investigated the potential for protection of cells in the inner ear using a dietary supplement with multiple antioxidant components, selected for their potential interactive effectiveness. Protection against permanent threshold shift (PTS) was observed in CBA/J mice maintained on a diet supplemented with a combination of β-carotene, vitamins C and E, and magnesium when compared to PTS in control mice maintained on a nutritionally complete control diet. Although hair cell survival was not enhanced, noise-induced loss of Type II fibrocytes in the lateral wall was significantly reduced (p<0.05), and there was a trend towards less noise-induced loss in strial cell density in animals maintained on the supplemented diet. Taken together, our data suggest that pre-noise oral treatment with the high-nutrient diet can protect cells in the inner ear and reduce PTS in mice. Demonstration of functional and morphological preservation of cells in the inner ear with oral administration of this antioxidant supplemented diet supports the possibility of translation to human patients, and suggests an opportunity to evaluate antioxidant protection in mouse models of oxidative stress-related disease and pathology.
Mammalian Genome, 2012
Calcium-modulating cyclophilin ligand (Caml) is a ubiquitously expressed cytoplasmic protein that... more Calcium-modulating cyclophilin ligand (Caml) is a ubiquitously expressed cytoplasmic protein that is involved in multiple signaling and developmental pathways. An observation in our laboratory of a protein-protein interaction between Caml and the cytoplasmic region of Cadherin23 led us to speculate that Caml might be important in the inner ear and play a role in the development and/or function of hair cells. To address this question, we generated a mouse line in which Caml expression was eliminated in Atoh1-expressing cells of the inner ear upon administration of tamoxifen. Tamoxifen was administered immediately after birth to neonates to assess the effect of loss of Caml in the inner ear during postnatal development.
The Journal of the Acoustical Society of America, 1991
The relationship between characteristic frequency (CF) and rate-intensity curve shape was examine... more The relationship between characteristic frequency (CF) and rate-intensity curve shape was examined in 144 cochlear nerve fibers obtained from 39 Mongolian gerbils. Quasi-steady-state firing rates were measured in response to tone bursts at the CF. From each intensity curve, estimates of slope, firing rate at saturation, and dynamic range were derived using nonlinear curve fitting. Saturation firing rate was depressed for stimuli with a high duty cycle, especially for units with low rates of spontaneous discharge. The distributions of slope and saturation firing rate differed for fibers with CFs above and below 3 to 4 kHz. The interrelation of slope, dynamic range, maximum driven rate, and spontaneous firing rate was also different for fibers with CFs above and below this band. This mid-CF transition is discussed in terms of possible longitudinal changes in the function of the gerbil cochlea.
Journal of Comparative Physiology A, 1990
Single-unit recordings obtained from the auditory nerve of the Mongolian gerbil, Meriones unguicu... more Single-unit recordings obtained from the auditory nerve of the Mongolian gerbil, Meriones unguiculatus, revealed functional differences in the response properties of neurons tuned to low and high frequencies.
The Journal of Comparative Neurology, 2004
Several strains of mice hear well initially but show progressive sensorineural hearing loss. Affe... more Several strains of mice hear well initially but show progressive sensorineural hearing loss. Affected cochlear cell types include all those known to be affected in human age-related hearing loss (ARHL), or presbycusis. Thus these mice have been offered as models of human ARHL. At present, however, few mouse ARHL models are sufficiently well described to serve as the basis for specific hypotheses about human ARHL. We examined 1-month-old and 15-month-old 129S6/SvEv (129S6) mice and compared them with BALB/cJ and CBA/J mice. Age-related elevation of compound action potential thresholds was interpreted in the light of endocochlear potentials and changes in hair cells, afferent neurons, fibrocytes in spiral limbus and ligament, and supporting cells within the organ of Corti. Aging in 129S6 mice was associated with high-frequency hearing loss. Four components of age-related cochlear degeneration emerged from quantitative analyses, including 1) basal loss of outer hair cells; 2) basal loss of type IV fibrocytes in the spiral ligament; 3) apical loss of fibrocytes in spiral limbus, and 4) anomalies of supporting cells in the cochlear base. Although neuronal loss was not consistently found, two mice showed loss of afferent dendrites and cell bodies in the cochlear apex without inner hair cell loss. Despite multifaceted degeneration, hearing loss in 129S6 mice appears to be best explained by degenerative changes in outer hair cells and in the organ of Corti, conforming to human sensory ARHL. Age-related changes in the apical spiral limbus may promote pathology of the medial organ of Corti and eventual loss of afferent neurons, with possible implications for human neural ARHL.
The Journal of Comparative Neurology, 2004
The predominant conceptual framework for understanding human age-related hearing loss (ARHL, or p... more The predominant conceptual framework for understanding human age-related hearing loss (ARHL, or presbycusis) holds that three different cochlear elements (organ of Corti, afferent neurons, and stria vascularis) can degenerate independently, and exert independent influences on hearing. Within this framework, temporal bones from subjects with ARHL may be classified as exemplifying sensory (referring to organ of Corti), &amp;amp;amp;quot;primary&amp;amp;amp;quot; neural (loss of afferent neurons without loss of their hair cell targets), strial, or mixed ARHL. While there is general agreement as to the types of cochlear cells most affected by aging, there is less agreement about how to classify ARHL, and whether contributions of particular structures to hearing loss can be isolated. The cochlear apex of humans and animals is particularly prone to apparent primary loss of neurons that may represent an aspect of neural ARHL. We recently reported that in 129S6/SvEv mice apical neuronal loss is often accompanied by abnormalities of spiral limbus, pillar cells, and Reissner&amp;amp;amp;#39;s membrane (Ohlemiller and Gagnon [2004] J Comp Neurol 469:377-390). We proposed that the initial pathology occurs within limbus, leading to disruption of perilymphatic ion homeostasis, and eventual loss of neurons as one consequence. We have now examined this issue quantitatively in young and old mice of four different strains (129S6/SvEv, CBA/J, C57BL/6, and BALB/c). Abnormalities of apical spiral limbus were found to correlate only weakly with neuronal loss. Strong correlations were found between neuronal loss and abnormalities of both pillar cells and Reissner&amp;amp;amp;#39;s membrane, however. Apical neuronal loss and apical-to-basal progression of pathology of limbus, pillar cells, and Reissner&amp;amp;amp;#39;s membrane run counter to most reported age-related cochlear trends. Our findings suggest that these changes share a common triggering influence.
Journal of the Association for Research in Otolaryngology, 2000
cochlea injury, and cochlear degeneration. Such impairment produces characteristics expected of s... more cochlea injury, and cochlear degeneration. Such impairment produces characteristics expected of some mutations associated with age-related hearing loss and Reactive oxygen species (ROS) and oxidative stress have been implicated in cochlear injury following loud offers one possible mechanism for their action.
Journal of the Association for Research in Otolaryngology, 2011
The acute and permanent effects of noise exposure on the endocochlear potential (EP) and cochlear... more The acute and permanent effects of noise exposure on the endocochlear potential (EP) and cochlear lateral wall were evaluated in BALB/cJ (BALB) inbred mice, and compared with CBA/J (CBA) and C57BL/6 (B6) mice. Two-hour exposure to broadband noise (4-45 kHz) at 110 dB SPL leads to a~50 mV reduction in the EP in BALB and CBA, but not B6. EP reduction in BALB and CBA is reliably associated with characteristic acute cellular pathology in stria vascularis and spiral ligament. By 8 weeks after exposure, the EP in CBA mice has returned to normal. In BALBs, however, the EP remains depressed by an average~10 mV, so that permanent EP reduction contributes to permanent threshold shifts in these mice. We recently showed that the CBA noise phenotype in part reflects the influence of a large effect quantitative trait locus on Chr. 18, termed Nirep (Ohlemiller et al., Hear Res 260:47-53, 2010b). While CBA "EP susceptibility" alleles are dominant to those in B6, examination of (B6×BALB) F1 hybrid mice and (F1×BALB) N2 backcross mice revealed that noise-related EP reduction and associated cell pathology in BALBs are inherited in an autosomal recessive manner, and are dependent on multiple genes. Moreover, while N2 mice formed from B6 and CBA retain strong correspondence between acute EP reduction, ligament pathology, and strial pathology, N2s formed from B6 and BALB include subsets that dissociate pathology of ligament and stria. We conclude that the genes and cascades that govern the very similar EP susceptibility phenotypes in BALB and CBA mice need not be the same. BALBs appear to carry alleles that promote more pronounced long term effects of noise on the lateral wall. Separate loci in BALBs may preferentially impact stria versus ligament.
JARO - Journal of the Association for Research in Otolaryngology, 2002
Schuknecht proposed categories for human age-related hearing loss (ARHL) based upon whether the p... more Schuknecht proposed categories for human age-related hearing loss (ARHL) based upon whether the primary degeneration involves the organ of Corti (sensory ARHL), spiral ganglion cells (neural), stria vascularis (strial), or a combination of these (mixed). Genetically standardized mouse ARHL models can help validate Schuknecht's framework and clarify the underlying cellular processes. Much recent work has focused on the mouse Ahl locus, which promotes both ARHL and noise-induced hearing loss. On the C57BL/6 inbred background, Ahl has been associated with degeneration of organ of Corti, afferent neurons, and stria vascularis/spiral ligament, suggesting that it promotes mixed (sensory/neural/strial) ARHL. Some cochlear degeneration in C57BL/6 mice could be caused by genes other than Ahl, however. The question of what constitutes Ahl-related pathology can be addressed by comparing C57BL/6 mice with other strains that carry the same allele, including BALB/c substrains. We examined the effects of aging and broadband noise exposure in inbred BALB/cJ mice (1.5±13.0 mos) using measures of frequency tuning (compound action potential tuning curves) (CAPTCs), strial function (endocochlear potential recording, EP), and light microscopy. Aging and noise led to generally similar physiological and anatomical changes. Reductions in sensitivity and sharp-ness of frequency tuning were not consistently linked to hair cell loss, reduction in the EP, or changes in the lateral wall. Instead they appeared best explained by alterations in supporting cells in the basal half of the cochlear and in the spiral limbus in the apex. These results emphasize the importance of cell types other than hair cells in cochlear pathology. They also indicate that Ahl does not necessarily promote a strial form of ARHL.
Journal of the Association for Research in Otolaryngology, 2010
Animal studies indicate that a combination of kanamycin (KM) and noise produces a synergistic eff... more Animal studies indicate that a combination of kanamycin (KM) and noise produces a synergistic effect, whereby the threshold shift from the combination is greater than the sum of the shifts caused by either agent alone. Most such studies have focused on adult animals, and it has remained unclear whether younger, presumably more susceptible, animals show an even greater synergistic effect. The present study tested the hypothesis that young CBA/J mice receiving a low dose of KM (300 mg/kg, 2×/day, s.c.) from 20 to 30 days post-gestational age followed by brief noise exposure (110 dB SPL; 4-45 kHz, 30 s) would show greater noise-induced permanent threshold shifts (NIPTS) than mice receiving either treatment alone. Noise exposure produced 30-40 dB of NIPTS and moderate hair cell loss in young saline-treated mice. KM alone at this dose had no effect on thresholds. Surprisingly, mice receiving KM plus noise were protected from NIPTS, showing ABR thresholds not significantly different from unexposed controls. Mice receiving KM prior to noise exposure also showed significantly less outer hair cell loss than saline-treated mice. Additional experiments indicated protection by KM when the noise was applied either 24 or 48 h after the last KM injection. Our results demonstrate a powerful protective effect of subchronic low-dose kanamycin against NIPTS in young CBA/J mice. Repeated kanamycin exposure may establish a preconditioned protective state, the molecular bases of which remain to be determined.
Hearing Research, 2010
We recently demonstrated a striking difference among inbred mouse strains in the effects of a sin... more We recently demonstrated a striking difference among inbred mouse strains in the effects of a single noise exposure, whereby CBA/J and CBA/CaJ (CBA) mice show moderate reversible reduction in the endocochlear potential (EP) while C57BL/6J (B6) mice do not (Ohlemiller, K.K., . Genetic dependence of cochlear cells and structures injured by noise. Hearing Res. 224, 34-50). Acute EP reduction in CBA was reliably associated with characteristic pathology of the spiral ligament and stria vascularis, both immediately after noise and 8 weeks later. Analysis of B6×CBA F1 hybrid mice indicated that EP reduction and its anatomic correlates are co-inherited in an autosomal dominant manner. Further analysis of N2 mice resulting from the backcross of F1 hybrids to B6 mice led us to suggest that the EP reduction phenotype principally reflects the influence of a small number of quantitative trait loci (QTLs). Here we report the results of QTL mapping of the EP reduction phenotype in CBA/J using 106 N2 mice from a (CBA×B6) × B6 backcross. Correlation of acute post-noise EP with 135 markers distributed throughout the genome revealed a single major effect QTL on chromosome 18 (12.5 cM, LOD 3.57) (Nirep, for Noise-induced reduction in EP QTL), and two marginally significant QTLs on chromosomes 5 and 16 (LOD 1.43 and 1.73, respectively). Our results underscore that fact that different cochlear structures may possess different susceptibilities to noise through the influence of non-overlapping genes. While Nirep and similaracting QTLs do not appear to influence the extent of permanent hearing loss from a single noise exposure, they could reduce the homeostatic 'reserve' of the lateral wall in protracted or continual exposures, and thereby influence long term threshold stability.
Hearing Research, 2000
Vulnerability of the cochlea to noise-induced permanent threshold shifts (NIPTS) was examined in ... more Vulnerability of the cochlea to noise-induced permanent threshold shifts (NIPTS) was examined in young adult (1-2 months) and 'middle-aged' (5-7 months) CBA/CaJ, C57BL/6J, and BALB/cJ inbred mice. For each age and strain, a dose-response paradigm was applied, whereby groups of up to 12 animals were exposed to intense broadband noise (110 dB SPL) for varying durations. Exposure durations reliably associated with <10% and >90% probability of a criterion amount of NIPTS (determined 2 weeks post-exposure) were identified, and the minimum NIPTS exposure and the slope of the dose-response relation were then derived by numerical modeling. For all three strains, young adult mice were more susceptible to NIPTS than older adults; That is, a shorter exposure was able to cause NIPTS in the younger mice. Strain comparisons revealed that C57 mice were more susceptible than CBAs in the older age group only. At both ages examined, however, BALB mice were most susceptible to NIPTS. When animals with a similar amount of NIPTS were compared, outer hair cell loss in the cochlear base was more widespread in the younger animals. BALB mice appear particularly susceptible to noise-induced outer hair cell loss throughout life. Our data suggest that the mechanism or site of noise injury differs between young adults and older adults, and may depend on genetic background. The finding that both BALB and C57 mice, which show pronounced age-related hearing loss, are also especially vulnerable to noise supports the notion that genes associated with age-related hearing loss often act by rendering the cochlea susceptible to insults.
Hearing Research, 1992
Changes in the threshold of the compound action potential (CAP) response in the gerbil to low- an... more Changes in the threshold of the compound action potential (CAP) response in the gerbil to low- and high-frequency tonebursts were monitored during uniform cooling of the cochlea by 7-8 degrees C below normal body temperature. Recordings of the endocochlear potential (EP), cochlear microphonic (CM), and summating potentials (SP) were also obtained from the base and apex of the cochlea under the same conditions. Cooling-related changes in the CAP, as well as the CM and SP response obtained near the best frequency of the recording location, were greater in the base than in the apex. In contrast, reductions in the EP appeared uniform throughout the cochlea. Thus the greater vulnerability of CAP thresholds in the base does not result from a greater vulnerability of the stria vascularis in this region. Our results suggest that the enhanced susceptibility to cooling of the CAP in the cochlear base reflects changes in hair cell mechanisms.
Hearing Research, 2008
NOD/ShiLtJ (previously NOD/LtJ) inbred mice show polygenic autoimmune disease and are commonly us... more NOD/ShiLtJ (previously NOD/LtJ) inbred mice show polygenic autoimmune disease and are commonly used to model autoimmune-related Type I diabetes, as well as Sjogren's syndrome. They also show rapidly progressing hearing loss, partly due to the combined effects of Cdh23 ahl and Ahl2. Congenic NOD.NON-H2 nb1 /LtJ mice, which carry corrective alleles within the H2 histocompatibility gene complex, are free from diabetes and other overt signs of autoimmune disease, but still exhibit rapidly progressive hearing loss. Here we show that cochlear pathology in these congenics broadly includes hair cell and neuronal loss, plus endocochlear potential (EP) decline from initially normal values after 2 months of age. The EP reduction follows often dramatic degeneration of capillaries in stria vascularis, with resulting strial degeneration. The cochlear modiolus in the congenic mice also features perivascular inclusions that resemble those in some mouse autoimmune models. We posit that cochlear hair cell/neural and strial pathology in NOD.NON-H2 nb1 mice arise independently. While sensory cell loss may be closely tied to Cdh23 ahl and Ahl2, the strial microvascular pathology and modiolar anomalies we observe may arise from alleles on the NOD background related to immune function. Age-associated EP decline in NOD.NON-H2 nb1 mice may model forms of strial age-related hearing loss caused principally by microvascular disease. The remarkable strial capillary loss in these mice may also be useful for studying the relation between strial vascular insufficiency and strial function.
Hearing Research, 1994
Responses of single auditory nerve fibers in the Mongolian gerbil were examined before and during... more Responses of single auditory nerve fibers in the Mongolian gerbil were examined before and during rapid, moderate cooling of the cochlea. Reducing cochlear temperature from 35-39 degrees C to 29-32 degrees C led to stable, reversible changes in spontaneous firing rates (SRs), and responses to tonebursts, as characterized by frequency tuning curves and rate-versus-intensity curves. The nature and extent of effects of cooling were strongly linked to characteristic frequency (CF). Rate thresholds at the CF were increased by 0-15 dB for fibers with CFs below 8 kHz, and by 10-30 dB for higher CFs. Although SRs were generally reduced, the percent reduction in SR was striking CF dependent. For fibers with CFs below 4 kHz, the reduction did not exceed 50% of the initial SR. For higher CFs, the reduction was always greater than 50%. The effects of cooling on intensity curve shape differed qualitatively for fibers with CFs below and above 3-4 kHz. The slope of the curve was reduced by an average of 50% for lower CFs, but on average was unchanged for higher CFs. Cooling-related increases in CF threshold probably reflect impairment of active mechanical processes. The CF dependence of these increases suggests either that active mechanical processes are more impaired in the cochlear base relative to the apex, or that they play a more crucial role in determining sensitivity in the base. The CF-dependent changes in SR and in the shape of rate-intensity curves caused by cooling correspond to an enhancement of basal/apical differences seen at normal temperatures. They are best explained by longitudinal gradients in the properties of the inner hair cells and their afferent synapses. Basal and apical differences in the distribution of SRs and in supra-threshold response properties suggest that stimulus coding strategies differ between low and high frequency regions of the cochlea.
Audiology and Neurotology
Mice homozygous for a defect of the tub (rd5) gene exhibit cochlear and retinal degeneration comb... more Mice homozygous for a defect of the tub (rd5) gene exhibit cochlear and retinal degeneration combined with obesity, and resemble certain human autosomal recessive sensory deficit syndromes. To establish the progressive nature of sensory cell loss associated with the tub gene, and to differentiate tub-related losses from those associated with the C57 background on which tub arose, we evaluated cochleas and retinas from tub/tub, tub/+, and +/+ mice, aged 2 weeks to 1 year by light and electron microscopy. Cochleas from mice of all three genotypes show progressive inner (IHC) and outer hair cell (OHC) loss. Relative to tub/+ and +/+ animals, however, tub homozygotes show accelerated OHC loss, affecting the extreme cochlear base (hook region) by 1 month, and the apex by 6 months. IHC loss in tub/tub animals is accelerated in the basal half of the cochlea, affecting the hook region by 6 months. Spiral ganglion cell losses were observed only in tub/tub mice, and only in the cochlear base....
From Behavior to Molecular Biology, 2001
Current opinion in otolaryngology & head and neck surgery, 2004
Recent developments in age-related hearing loss (ARHL) are reviewed with an emphasis on their rel... more Recent developments in age-related hearing loss (ARHL) are reviewed with an emphasis on their relation to the framework advocated by Schuknecht. More than a classification scheme, Schuknecht's typology incorporates testable hypotheses about the bases of ARHL. Since there is presently no widely accepted competing framework, research in this area should be aimed at supporting, modifying, or replacing Schuknecht scheme. Only recently has our understanding of cellular changes and gene/environment interactions in ARHL achieved the level needed for hypothesis-driven experiments in this area. New findings largely support or amplify aspects of Schuknecht's framework. Consideration of the kinds of cells involved in ARHL has broadened to include more nonsensory and supporting cells. This should provide more complete criteria for comparing models, and for diagnosing particular forms of ARHL. Newly discovered genetic effects and more detailed comparisons have imparted mechanistic signif...
Noise & health, 2001
One consequence of noise exposure is increased production of reactive oxygen species (ROS), such ... more One consequence of noise exposure is increased production of reactive oxygen species (ROS), such as superoxide, hydrogen peroxide, and hydroxyl radicals, in the cochlea. ROS can cause oxidative damage to diverse cellular components, including membranes, proteins, and DNA, if they are not "neutralised" by antioxidant defences. Two important enzymes of the cochlear antioxidant defense system are cytosolic copper/zinc superoxide dismutase (SOD1) and selenium-dependent glutathione peroxidase (GPx1). These metalloenzymes work together to regulate ROS production in virtually every cell in the body, and they may be important for limiting cochlear damage associated with aging and acoustic overexposure. In this chapter, we describe a series of experiments using mice with targeted deletions of Sod1 or Gpx1, the mouse genes that code for SOD1 and GPx1, respectively, to study the cellular mechanisms underlying noise-induced hearing loss (NIHL). The results from Sod1 and Gpx1 knockout ...
Translational Research, 2011
Oxidative stress has been broadly implicated as a cause of cell death and neural degeneration in ... more Oxidative stress has been broadly implicated as a cause of cell death and neural degeneration in multiple disease conditions; however, the evidence for successful intervention with dietary antioxidant manipulations has been mixed. In this study, we investigated the potential for protection of cells in the inner ear using a dietary supplement with multiple antioxidant components, selected for their potential interactive effectiveness. Protection against permanent threshold shift (PTS) was observed in CBA/J mice maintained on a diet supplemented with a combination of β-carotene, vitamins C and E, and magnesium when compared to PTS in control mice maintained on a nutritionally complete control diet. Although hair cell survival was not enhanced, noise-induced loss of Type II fibrocytes in the lateral wall was significantly reduced (p<0.05), and there was a trend towards less noise-induced loss in strial cell density in animals maintained on the supplemented diet. Taken together, our data suggest that pre-noise oral treatment with the high-nutrient diet can protect cells in the inner ear and reduce PTS in mice. Demonstration of functional and morphological preservation of cells in the inner ear with oral administration of this antioxidant supplemented diet supports the possibility of translation to human patients, and suggests an opportunity to evaluate antioxidant protection in mouse models of oxidative stress-related disease and pathology.
Mammalian Genome, 2012
Calcium-modulating cyclophilin ligand (Caml) is a ubiquitously expressed cytoplasmic protein that... more Calcium-modulating cyclophilin ligand (Caml) is a ubiquitously expressed cytoplasmic protein that is involved in multiple signaling and developmental pathways. An observation in our laboratory of a protein-protein interaction between Caml and the cytoplasmic region of Cadherin23 led us to speculate that Caml might be important in the inner ear and play a role in the development and/or function of hair cells. To address this question, we generated a mouse line in which Caml expression was eliminated in Atoh1-expressing cells of the inner ear upon administration of tamoxifen. Tamoxifen was administered immediately after birth to neonates to assess the effect of loss of Caml in the inner ear during postnatal development.
The Journal of the Acoustical Society of America, 1991
The relationship between characteristic frequency (CF) and rate-intensity curve shape was examine... more The relationship between characteristic frequency (CF) and rate-intensity curve shape was examined in 144 cochlear nerve fibers obtained from 39 Mongolian gerbils. Quasi-steady-state firing rates were measured in response to tone bursts at the CF. From each intensity curve, estimates of slope, firing rate at saturation, and dynamic range were derived using nonlinear curve fitting. Saturation firing rate was depressed for stimuli with a high duty cycle, especially for units with low rates of spontaneous discharge. The distributions of slope and saturation firing rate differed for fibers with CFs above and below 3 to 4 kHz. The interrelation of slope, dynamic range, maximum driven rate, and spontaneous firing rate was also different for fibers with CFs above and below this band. This mid-CF transition is discussed in terms of possible longitudinal changes in the function of the gerbil cochlea.
Journal of Comparative Physiology A, 1990
Single-unit recordings obtained from the auditory nerve of the Mongolian gerbil, Meriones unguicu... more Single-unit recordings obtained from the auditory nerve of the Mongolian gerbil, Meriones unguiculatus, revealed functional differences in the response properties of neurons tuned to low and high frequencies.
The Journal of Comparative Neurology, 2004
Several strains of mice hear well initially but show progressive sensorineural hearing loss. Affe... more Several strains of mice hear well initially but show progressive sensorineural hearing loss. Affected cochlear cell types include all those known to be affected in human age-related hearing loss (ARHL), or presbycusis. Thus these mice have been offered as models of human ARHL. At present, however, few mouse ARHL models are sufficiently well described to serve as the basis for specific hypotheses about human ARHL. We examined 1-month-old and 15-month-old 129S6/SvEv (129S6) mice and compared them with BALB/cJ and CBA/J mice. Age-related elevation of compound action potential thresholds was interpreted in the light of endocochlear potentials and changes in hair cells, afferent neurons, fibrocytes in spiral limbus and ligament, and supporting cells within the organ of Corti. Aging in 129S6 mice was associated with high-frequency hearing loss. Four components of age-related cochlear degeneration emerged from quantitative analyses, including 1) basal loss of outer hair cells; 2) basal loss of type IV fibrocytes in the spiral ligament; 3) apical loss of fibrocytes in spiral limbus, and 4) anomalies of supporting cells in the cochlear base. Although neuronal loss was not consistently found, two mice showed loss of afferent dendrites and cell bodies in the cochlear apex without inner hair cell loss. Despite multifaceted degeneration, hearing loss in 129S6 mice appears to be best explained by degenerative changes in outer hair cells and in the organ of Corti, conforming to human sensory ARHL. Age-related changes in the apical spiral limbus may promote pathology of the medial organ of Corti and eventual loss of afferent neurons, with possible implications for human neural ARHL.
The Journal of Comparative Neurology, 2004
The predominant conceptual framework for understanding human age-related hearing loss (ARHL, or p... more The predominant conceptual framework for understanding human age-related hearing loss (ARHL, or presbycusis) holds that three different cochlear elements (organ of Corti, afferent neurons, and stria vascularis) can degenerate independently, and exert independent influences on hearing. Within this framework, temporal bones from subjects with ARHL may be classified as exemplifying sensory (referring to organ of Corti), &amp;amp;amp;quot;primary&amp;amp;amp;quot; neural (loss of afferent neurons without loss of their hair cell targets), strial, or mixed ARHL. While there is general agreement as to the types of cochlear cells most affected by aging, there is less agreement about how to classify ARHL, and whether contributions of particular structures to hearing loss can be isolated. The cochlear apex of humans and animals is particularly prone to apparent primary loss of neurons that may represent an aspect of neural ARHL. We recently reported that in 129S6/SvEv mice apical neuronal loss is often accompanied by abnormalities of spiral limbus, pillar cells, and Reissner&amp;amp;amp;#39;s membrane (Ohlemiller and Gagnon [2004] J Comp Neurol 469:377-390). We proposed that the initial pathology occurs within limbus, leading to disruption of perilymphatic ion homeostasis, and eventual loss of neurons as one consequence. We have now examined this issue quantitatively in young and old mice of four different strains (129S6/SvEv, CBA/J, C57BL/6, and BALB/c). Abnormalities of apical spiral limbus were found to correlate only weakly with neuronal loss. Strong correlations were found between neuronal loss and abnormalities of both pillar cells and Reissner&amp;amp;amp;#39;s membrane, however. Apical neuronal loss and apical-to-basal progression of pathology of limbus, pillar cells, and Reissner&amp;amp;amp;#39;s membrane run counter to most reported age-related cochlear trends. Our findings suggest that these changes share a common triggering influence.
Journal of the Association for Research in Otolaryngology, 2000
cochlea injury, and cochlear degeneration. Such impairment produces characteristics expected of s... more cochlea injury, and cochlear degeneration. Such impairment produces characteristics expected of some mutations associated with age-related hearing loss and Reactive oxygen species (ROS) and oxidative stress have been implicated in cochlear injury following loud offers one possible mechanism for their action.
Journal of the Association for Research in Otolaryngology, 2011
The acute and permanent effects of noise exposure on the endocochlear potential (EP) and cochlear... more The acute and permanent effects of noise exposure on the endocochlear potential (EP) and cochlear lateral wall were evaluated in BALB/cJ (BALB) inbred mice, and compared with CBA/J (CBA) and C57BL/6 (B6) mice. Two-hour exposure to broadband noise (4-45 kHz) at 110 dB SPL leads to a~50 mV reduction in the EP in BALB and CBA, but not B6. EP reduction in BALB and CBA is reliably associated with characteristic acute cellular pathology in stria vascularis and spiral ligament. By 8 weeks after exposure, the EP in CBA mice has returned to normal. In BALBs, however, the EP remains depressed by an average~10 mV, so that permanent EP reduction contributes to permanent threshold shifts in these mice. We recently showed that the CBA noise phenotype in part reflects the influence of a large effect quantitative trait locus on Chr. 18, termed Nirep (Ohlemiller et al., Hear Res 260:47-53, 2010b). While CBA "EP susceptibility" alleles are dominant to those in B6, examination of (B6×BALB) F1 hybrid mice and (F1×BALB) N2 backcross mice revealed that noise-related EP reduction and associated cell pathology in BALBs are inherited in an autosomal recessive manner, and are dependent on multiple genes. Moreover, while N2 mice formed from B6 and CBA retain strong correspondence between acute EP reduction, ligament pathology, and strial pathology, N2s formed from B6 and BALB include subsets that dissociate pathology of ligament and stria. We conclude that the genes and cascades that govern the very similar EP susceptibility phenotypes in BALB and CBA mice need not be the same. BALBs appear to carry alleles that promote more pronounced long term effects of noise on the lateral wall. Separate loci in BALBs may preferentially impact stria versus ligament.
JARO - Journal of the Association for Research in Otolaryngology, 2002
Schuknecht proposed categories for human age-related hearing loss (ARHL) based upon whether the p... more Schuknecht proposed categories for human age-related hearing loss (ARHL) based upon whether the primary degeneration involves the organ of Corti (sensory ARHL), spiral ganglion cells (neural), stria vascularis (strial), or a combination of these (mixed). Genetically standardized mouse ARHL models can help validate Schuknecht's framework and clarify the underlying cellular processes. Much recent work has focused on the mouse Ahl locus, which promotes both ARHL and noise-induced hearing loss. On the C57BL/6 inbred background, Ahl has been associated with degeneration of organ of Corti, afferent neurons, and stria vascularis/spiral ligament, suggesting that it promotes mixed (sensory/neural/strial) ARHL. Some cochlear degeneration in C57BL/6 mice could be caused by genes other than Ahl, however. The question of what constitutes Ahl-related pathology can be addressed by comparing C57BL/6 mice with other strains that carry the same allele, including BALB/c substrains. We examined the effects of aging and broadband noise exposure in inbred BALB/cJ mice (1.5±13.0 mos) using measures of frequency tuning (compound action potential tuning curves) (CAPTCs), strial function (endocochlear potential recording, EP), and light microscopy. Aging and noise led to generally similar physiological and anatomical changes. Reductions in sensitivity and sharp-ness of frequency tuning were not consistently linked to hair cell loss, reduction in the EP, or changes in the lateral wall. Instead they appeared best explained by alterations in supporting cells in the basal half of the cochlear and in the spiral limbus in the apex. These results emphasize the importance of cell types other than hair cells in cochlear pathology. They also indicate that Ahl does not necessarily promote a strial form of ARHL.
Journal of the Association for Research in Otolaryngology, 2010
Animal studies indicate that a combination of kanamycin (KM) and noise produces a synergistic eff... more Animal studies indicate that a combination of kanamycin (KM) and noise produces a synergistic effect, whereby the threshold shift from the combination is greater than the sum of the shifts caused by either agent alone. Most such studies have focused on adult animals, and it has remained unclear whether younger, presumably more susceptible, animals show an even greater synergistic effect. The present study tested the hypothesis that young CBA/J mice receiving a low dose of KM (300 mg/kg, 2×/day, s.c.) from 20 to 30 days post-gestational age followed by brief noise exposure (110 dB SPL; 4-45 kHz, 30 s) would show greater noise-induced permanent threshold shifts (NIPTS) than mice receiving either treatment alone. Noise exposure produced 30-40 dB of NIPTS and moderate hair cell loss in young saline-treated mice. KM alone at this dose had no effect on thresholds. Surprisingly, mice receiving KM plus noise were protected from NIPTS, showing ABR thresholds not significantly different from unexposed controls. Mice receiving KM prior to noise exposure also showed significantly less outer hair cell loss than saline-treated mice. Additional experiments indicated protection by KM when the noise was applied either 24 or 48 h after the last KM injection. Our results demonstrate a powerful protective effect of subchronic low-dose kanamycin against NIPTS in young CBA/J mice. Repeated kanamycin exposure may establish a preconditioned protective state, the molecular bases of which remain to be determined.
Hearing Research, 2010
We recently demonstrated a striking difference among inbred mouse strains in the effects of a sin... more We recently demonstrated a striking difference among inbred mouse strains in the effects of a single noise exposure, whereby CBA/J and CBA/CaJ (CBA) mice show moderate reversible reduction in the endocochlear potential (EP) while C57BL/6J (B6) mice do not (Ohlemiller, K.K., . Genetic dependence of cochlear cells and structures injured by noise. Hearing Res. 224, 34-50). Acute EP reduction in CBA was reliably associated with characteristic pathology of the spiral ligament and stria vascularis, both immediately after noise and 8 weeks later. Analysis of B6×CBA F1 hybrid mice indicated that EP reduction and its anatomic correlates are co-inherited in an autosomal dominant manner. Further analysis of N2 mice resulting from the backcross of F1 hybrids to B6 mice led us to suggest that the EP reduction phenotype principally reflects the influence of a small number of quantitative trait loci (QTLs). Here we report the results of QTL mapping of the EP reduction phenotype in CBA/J using 106 N2 mice from a (CBA×B6) × B6 backcross. Correlation of acute post-noise EP with 135 markers distributed throughout the genome revealed a single major effect QTL on chromosome 18 (12.5 cM, LOD 3.57) (Nirep, for Noise-induced reduction in EP QTL), and two marginally significant QTLs on chromosomes 5 and 16 (LOD 1.43 and 1.73, respectively). Our results underscore that fact that different cochlear structures may possess different susceptibilities to noise through the influence of non-overlapping genes. While Nirep and similaracting QTLs do not appear to influence the extent of permanent hearing loss from a single noise exposure, they could reduce the homeostatic 'reserve' of the lateral wall in protracted or continual exposures, and thereby influence long term threshold stability.
Hearing Research, 2000
Vulnerability of the cochlea to noise-induced permanent threshold shifts (NIPTS) was examined in ... more Vulnerability of the cochlea to noise-induced permanent threshold shifts (NIPTS) was examined in young adult (1-2 months) and 'middle-aged' (5-7 months) CBA/CaJ, C57BL/6J, and BALB/cJ inbred mice. For each age and strain, a dose-response paradigm was applied, whereby groups of up to 12 animals were exposed to intense broadband noise (110 dB SPL) for varying durations. Exposure durations reliably associated with <10% and >90% probability of a criterion amount of NIPTS (determined 2 weeks post-exposure) were identified, and the minimum NIPTS exposure and the slope of the dose-response relation were then derived by numerical modeling. For all three strains, young adult mice were more susceptible to NIPTS than older adults; That is, a shorter exposure was able to cause NIPTS in the younger mice. Strain comparisons revealed that C57 mice were more susceptible than CBAs in the older age group only. At both ages examined, however, BALB mice were most susceptible to NIPTS. When animals with a similar amount of NIPTS were compared, outer hair cell loss in the cochlear base was more widespread in the younger animals. BALB mice appear particularly susceptible to noise-induced outer hair cell loss throughout life. Our data suggest that the mechanism or site of noise injury differs between young adults and older adults, and may depend on genetic background. The finding that both BALB and C57 mice, which show pronounced age-related hearing loss, are also especially vulnerable to noise supports the notion that genes associated with age-related hearing loss often act by rendering the cochlea susceptible to insults.
Hearing Research, 1992
Changes in the threshold of the compound action potential (CAP) response in the gerbil to low- an... more Changes in the threshold of the compound action potential (CAP) response in the gerbil to low- and high-frequency tonebursts were monitored during uniform cooling of the cochlea by 7-8 degrees C below normal body temperature. Recordings of the endocochlear potential (EP), cochlear microphonic (CM), and summating potentials (SP) were also obtained from the base and apex of the cochlea under the same conditions. Cooling-related changes in the CAP, as well as the CM and SP response obtained near the best frequency of the recording location, were greater in the base than in the apex. In contrast, reductions in the EP appeared uniform throughout the cochlea. Thus the greater vulnerability of CAP thresholds in the base does not result from a greater vulnerability of the stria vascularis in this region. Our results suggest that the enhanced susceptibility to cooling of the CAP in the cochlear base reflects changes in hair cell mechanisms.
Hearing Research, 2008
NOD/ShiLtJ (previously NOD/LtJ) inbred mice show polygenic autoimmune disease and are commonly us... more NOD/ShiLtJ (previously NOD/LtJ) inbred mice show polygenic autoimmune disease and are commonly used to model autoimmune-related Type I diabetes, as well as Sjogren's syndrome. They also show rapidly progressing hearing loss, partly due to the combined effects of Cdh23 ahl and Ahl2. Congenic NOD.NON-H2 nb1 /LtJ mice, which carry corrective alleles within the H2 histocompatibility gene complex, are free from diabetes and other overt signs of autoimmune disease, but still exhibit rapidly progressive hearing loss. Here we show that cochlear pathology in these congenics broadly includes hair cell and neuronal loss, plus endocochlear potential (EP) decline from initially normal values after 2 months of age. The EP reduction follows often dramatic degeneration of capillaries in stria vascularis, with resulting strial degeneration. The cochlear modiolus in the congenic mice also features perivascular inclusions that resemble those in some mouse autoimmune models. We posit that cochlear hair cell/neural and strial pathology in NOD.NON-H2 nb1 mice arise independently. While sensory cell loss may be closely tied to Cdh23 ahl and Ahl2, the strial microvascular pathology and modiolar anomalies we observe may arise from alleles on the NOD background related to immune function. Age-associated EP decline in NOD.NON-H2 nb1 mice may model forms of strial age-related hearing loss caused principally by microvascular disease. The remarkable strial capillary loss in these mice may also be useful for studying the relation between strial vascular insufficiency and strial function.
Hearing Research, 1994
Responses of single auditory nerve fibers in the Mongolian gerbil were examined before and during... more Responses of single auditory nerve fibers in the Mongolian gerbil were examined before and during rapid, moderate cooling of the cochlea. Reducing cochlear temperature from 35-39 degrees C to 29-32 degrees C led to stable, reversible changes in spontaneous firing rates (SRs), and responses to tonebursts, as characterized by frequency tuning curves and rate-versus-intensity curves. The nature and extent of effects of cooling were strongly linked to characteristic frequency (CF). Rate thresholds at the CF were increased by 0-15 dB for fibers with CFs below 8 kHz, and by 10-30 dB for higher CFs. Although SRs were generally reduced, the percent reduction in SR was striking CF dependent. For fibers with CFs below 4 kHz, the reduction did not exceed 50% of the initial SR. For higher CFs, the reduction was always greater than 50%. The effects of cooling on intensity curve shape differed qualitatively for fibers with CFs below and above 3-4 kHz. The slope of the curve was reduced by an average of 50% for lower CFs, but on average was unchanged for higher CFs. Cooling-related increases in CF threshold probably reflect impairment of active mechanical processes. The CF dependence of these increases suggests either that active mechanical processes are more impaired in the cochlear base relative to the apex, or that they play a more crucial role in determining sensitivity in the base. The CF-dependent changes in SR and in the shape of rate-intensity curves caused by cooling correspond to an enhancement of basal/apical differences seen at normal temperatures. They are best explained by longitudinal gradients in the properties of the inner hair cells and their afferent synapses. Basal and apical differences in the distribution of SRs and in supra-threshold response properties suggest that stimulus coding strategies differ between low and high frequency regions of the cochlea.