Inna Meltser scite author profile

The hormone estradiol affects the auditory system both by itself and by its interaction with neuroprotective factors. In this study, we examined the role of estrogen receptors (ERs) in response to auditory trauma. We found a ligand-dependent protective role for ERβ in the auditory system by investigating mice deficient in ERα (ERKO mice), ERβ (BERKO mice), and aromatase (ARKO mice). Basal auditory brainstem response (ABR) thresholds were similar in all animals. An acoustic trauma causing a temporary hearing loss raised ABR thresholds in male and female BERKO and ARKO mice compared with WT and ERKO mice. The ERα-selective agonist, propyl(1H) pyrazole-1,3,5-triyl-trisphenol (PPT), partially protected ARKO mice from trauma, while the ERβ-selective agonist, 2,3-bis (4-hydroxyphenyl)-propionitrile (DPN), protected WT and ARKO mice. Immunohistochemistry and western blotting confirmed the expression of ERβ in cochlea of WT males and females. Levels of brain-derived neurotrophic factor (BDNF), a neuroprotective peptide that can be induced by estrogen, was lower in BERKO and ARKO mice compared with WT. DPN treatment increased BDNF expression in ARKO mice. These data indicate ERβ-mediated neuroprotection involving BDNF in the auditory system of males and females.

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NF‐κB mediated glucocorticoid response in the inner ear after acoustic trauma

Tahera

Meltser

Johansson

et al. 2006

J of Neuroscience Research

111

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The inner ear of humans and experimental animals demonstrate an abundance of glucocorticoid receptors (GR). Glucocorticoids (GC) are widely used to treat different hearing disorders; yet the mechanisms of GC action on the inner ear are unknown. We demonstrate how GR can directly modulate hearing sensitivity in response to a moderate acoustic trauma that results in a hearing loss (10-30 dB). The GC agonist (dexamethasone) and the drugs (metyrapone + RU 486) showed opposing effects on hearing threshold shifts. GC agonist (dexamethasone) decreased the hearing threshold whereas pre-treatment with a GC synthesis inhibitor (metyrapone) in combination with a GR antagonist (RU 486) exacerbated auditory threshold shifts (25-60 dB) after acoustic trauma with statistically significant increase in GR mRNA and GR protein compared with the vehicle and acoustic trauma group. Acoustic trauma caused a significant increase in the nuclear transport of NF-kappaB, whereas pre-treatment with the drugs (metyrapone and RU 486) blocked NF-kappaB nuclear transport into spiral ganglion nuclei. An NF-kappaB inhibitor, pyrrolidine dithiocarbamate ammonium blocked the trauma-induced translocation of NF-kappaB and resulted in a hearing loss (45-60) dB. These results indicate that several factors define the responsiveness of the inner ear to GC, including the availability of ligand or receptor, and the nuclear translocation of GR and NF-kappaB. These findings will further our understanding of individual GC responsiveness to steroid treatment, and will help improve the development of pharmaceuticals to selectively target GR in the inner ear for individuals with increased sensitivity to acoustic trauma.

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TrkB-Mediated Protection against Circadian Sensitivity to Noise Trauma in the Murine Cochlea

et al. 2014

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Summary Noise induced hearing loss (NIHL) is a debilitating sensory impairment affecting 10–15% of the population caused primarily through damage to the sensory hair cells or to the auditory neurons. Once lost, these never regenerate [1] and no effective drugs are available [2, 3]. Emerging evidence point towards an important contribution of synaptic ribbons in the long-term coupling of the inner hair cell and afferent neuron synapse to maintain hearing [4]. Here we show in mice (nocturnal) that night noise overexposure triggers permanent hearing loss whereas mice overexposed during the day recover to normal auditory thresholds. In view of this time-dependent sensitivity, we identified a self-sustained circadian rhythm in the isolated cochlea, as evidenced by circadian expression of clock genes and ample PERIOD2::LUCIFERASE oscillations, originating mainly from the primary auditory neurons and hair cells. The transcripts of the otoprotecting brain-derived neurotrophic factor (BDNF) showed higher levels in response to day noise versus night noise, suggesting that BDNF-mediated signaling regulates noise sensitivity throughout the day. Administration of an agonist of the selective BDNF receptor TrkB in the night protected the inner hair cell’s synaptic ribbons and subsequent full recovery of hearing thresholds after night noise overexposure. The TrkB agonist shifted the phase and boosted the amplitude of circadian rhythms in the isolated cochlea. These findings highlight the coupling of circadian rhythmicity and TrkB receptor for the successful prevention and treatment of NIHL.

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Glucocorticoid receptors modulate auditory sensitivity to acoustic trauma

et al. 2007

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Protecting the auditory system with glucocorticoids

Meltser

Canlon

2011

Hearing Research

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Inna Meltser

Estrogen receptor β protects against acoustic trauma in mice

NF‐κB mediated glucocorticoid response in the inner ear after acoustic trauma

TrkB-Mediated Protection against Circadian Sensitivity to Noise Trauma in the Murine Cochlea

Glucocorticoid receptors modulate auditory sensitivity to acoustic trauma

Protecting the auditory system with glucocorticoids

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