scholarly journals Olivocochlear suppression of outer hair cells in vivo: evidence for combined action of BK and SK2 channels throughout the cochlea

2013 ◽  
Vol 109 (6) ◽  
pp. 1525-1534 ◽  
Author(s):  
Stéphane F. Maison ◽  
Sonja J. Pyott ◽  
Andrea L. Meredith ◽  
M. Charles Liberman
Keyword(s):  
Hair Cells ◽  
In Vitro Study ◽  
Bk Channels ◽  
Outer Hair Cells ◽  
Cochlear Hair Cells ◽  
Α Subunit ◽  
Combined Action ◽  
Cholinergic Effects

Cholinergic inhibition of cochlear hair cells via olivocochlear (OC)-efferent feedback is mediated by Ca2+ entry through α9-/α10-nicotinic receptors, but the nature of the K+ channels activated by this Ca2+ entry has been debated (Yoshida N, Hequembourg SJ, Atencio CA, Rosowski JJ, Liberman MC. J Neurophysiol 85: 84–88, 2001). A recent in vitro study (Wersinger E, McLean WJ, Fuchs PA, Pyott SJ. PLoS One 5: e13836, 2010) suggests that small-conductance (SK2) channels mediate cholinergic effects in the apical turn, whereas large-conductance (BK) channels mediate basal turn effects. Here, we measure, as a function of cochlear frequency, the magnitude of BK and SK2 expression in outer hair cells and the strength of in vivo OC suppression in BK+/+ mice vs. BK−/− lacking the obligatory α-subunit (Meredith AL, Thorneloe KS, Werner ME, Nelson MT, Aldrich RW. J Biol Chem 279: 36746–36752, 2004). Except at the extreme apical tip, we see immunostaining for both BK and SK2 in BK+/+. Correspondingly, at all testable frequencies (8–45 kHz), we see evidence for both SK2 and BK contributions to OC effects evoked by electrically stimulating the OC bundle: OC-mediated suppression was reduced, but not eliminated, at all frequencies in the BK−/− ears. The suppression remaining in BK nulls was blocked by strychnine, suggesting involvement of α9-/α10-cholinergic receptors, coupled to activation of the remaining SK2 channels.

scholarly journals Overexpression of SK2 Channels Enhances Efferent Suppression of Cochlear Responses Without Enhancing Noise Resistance

2007 ◽  
Vol 97 (4) ◽  
pp. 2930-2936 ◽  
Author(s):  
Stéphane F. Maison ◽  
Lisan L. Parker ◽  
Lucy Young ◽  
John P. Adelman ◽  
Jian Zuo ◽  
...  
Keyword(s):  
Nicotinic Acetylcholine Receptors ◽  
Hair Cells ◽  
Otoacoustic Emissions ◽  
Outer Hair Cell ◽  
Outer Hair Cells ◽  
Sk Channels ◽  
Cochlear Function ◽  
Cochlear Hair Cells ◽  
Efferent Suppression

Cochlear hair cells express SK2, a small-conductance Ca2+-activated K+ channel thought to act in concert with Ca2+-permeable nicotinic acetylcholine receptors (nAChRs) α9 and α10 in mediating suppressive effects of the olivocochlear efferent innervation. To probe the in vivo role of SK2 channels in hearing, we examined gene expression, cochlear function, efferent suppression, and noise vulnerability in mice overexpressing SK2 channels. Cochlear thresholds, as measured by auditory brain stem responses and otoacoustic emissions, were normal in overexpressers as was overall cochlear morphology and the size, number, and distribution of efferent terminals on outer hair cells. Cochlear expression levels of SK2 channels were elevated eightfold without striking changes in other SK channels or in the α9/α10 nAChRs. Shock-evoked efferent suppression of cochlear responses was significantly enhanced in overexpresser mice as seen previously in α9 overexpresser mice; however, in contrast to α9 overexpressers, SK2 overexpressers were not protected from acoustic injury. Results suggest that efferent-mediated cochlear protection is mediated by other downstream effects of ACh-mediated Ca2+ entry different from those involving SK2-mediated hyperpolarization and the associated reduction in outer hair cell electromotility.

scholarly journals Umbilical Cord Mesenchymal Stromal Cell-Derived Exosomes Rescue the Loss of Outer Hair Cells and Repair Cochlear Damage in Cisplatin-Injected Mice

2021 ◽  
Vol 22 (13) ◽  
pp. 6664
Author(s):  
Stella Chin-Shaw Tsai ◽  
Kuender D. Yang ◽  
Kuang-Hsi Chang ◽  
Frank Cheau-Feng Lin ◽  
Ruey-Hwang Chou ◽  
...  
Keyword(s):  
Hearing Loss ◽  
Umbilical Cord ◽  
Hair Cells ◽  
Round Window ◽  
Outer Hair Cells ◽  
Protective Effects ◽  
Cochlear Hair Cells ◽  
Potential Applications ◽  
Round Window Niche

Umbilical cord-derived mesenchymal stromal cells (UCMSCs) have potential applications in regenerative medicine. UCMSCs have been demonstrated to repair tissue damage in many inflammatory and degenerative diseases. We have previously shown that UCMSC exosomes reduce nerve injury-induced pain in rats. In this study, we characterized UCMSC exosomes using RNA sequencing and proteomic analyses and investigated their protective effects on cisplatin-induced hearing loss in mice. Two independent experiments were designed to investigate the protective effects on cisplatin-induced hearing loss in mice: (i) chronic intraperitoneal cisplatin administration (4 mg/kg) once per day for 5 consecutive days and intraperitoneal UCMSC exosome (1.2 μg/μL) injection at the same time point; and (ii) UCMSC exosome (1.2 μg/μL) injection through a round window niche 3 days after chronic cisplatin administration. Our data suggest that UCMSC exosomes exert protective effects in vivo. The post-traumatic administration of UCMSC exosomes significantly improved hearing loss and rescued the loss of cochlear hair cells in mice receiving chronic cisplatin injection. Neuropathological gene panel analyses further revealed the UCMSC exosomes treatment led to beneficial changes in the expression levels of many genes in the cochlear tissues of cisplatin-injected mice. In conclusion, UCMSC exosomes exerted protective effects in treating ototoxicity-induced hearing loss by promoting tissue remodeling and repair.

In vivo noise exposure alters the in vitro motility and viability of outer hair cells

1991 ◽  
Vol 52 (1) ◽  
pp. 81-88 ◽  
Author(s):  
Laurent Décory ◽  
Hakim Hiel ◽  
Jean-Marie Aran
Keyword(s):  
Hair Cells ◽  
Noise Exposure ◽  
Outer Hair Cells ◽  
In Vitro Motility

scholarly journals Effects of SERCA and PMCA inhibitors on the survival of rat cochlear hair cells during ischemia in vitro

2008 ◽  
pp. 631-638
Author(s):  
N Amarjargal ◽  
B Mazurek ◽  
H Haupt ◽  
N Andreeva ◽  
J Fuchs ◽  
...  
Keyword(s):  
Hair Cells ◽  
Smooth Endoplasmic Reticulum ◽  
Cyclopiazonic Acid ◽  
Significant Loss ◽  
Outer Hair Cells ◽  
Calcium Atpase ◽  
Dependent Manner ◽  
Cochlear Hair Cells ◽  
Cochlear Hair Cell

An important mechanism underlying cochlear hair cell (HC) susceptibility to hypoxia/ischemia is the influx of Ca2+. Two main ATP-dependent mechanisms contribute to maintaining low Ca2+ levels: uptake of Ca2+ into intracellular stores via smooth endoplasmic reticulum calcium ATPase (SERCA) and extrusion of Ca2+ via plasma membrane calcium ATPase (PMCA). The effects of the SERCA inhibitors thapsigargin (10 nM-10 µM) and cyclopiazonic acid (CPA; 10-50 µM) and of the PMCA blockers eosin (1.5-10 µM) and o-vanadate (1-5 mM) on inner and outer hair cells (IHCs/OHCs) were examined in normoxia and ischemia using an in vitro model of the newborn rat cochlea. Exposure of the cultures to ischemia resulted in a significant loss of HCs. Thapsigargin and CPA had no effect. Eosin decreased the numbers of IHCs and OHCs by up to 25 % in normoxia and significantly aggravated the ischemia-induced damage to IHCs at 5 and 10 µM and to OHCs at 10 µM. o-Vanadate had no effect on IHC and OHC counts in normoxia, but aggravated the ischemiainduced HC loss in a dose-dependent manner. The effects of eosin and o-vanadate indicate that PMCA has an important role to play in protecting the HCs from ischemic cell death.

scholarly journals Calcium Balance and Mechanotransduction in Rat Cochlear Hair Cells

2010 ◽  
Vol 104 (1) ◽  
pp. 18-34 ◽  
Author(s):  
Maryline Beurg ◽  
Jong-Hoon Nam ◽  
Qingguo Chen ◽  
Robert Fettiplace
Keyword(s):  
Time Constant ◽  
Hair Cells ◽  
Pump Current ◽  
Outer Hair Cells ◽  
Hair Bundle ◽  
Calcium Balance ◽  
Cochlear Hair Cells ◽  
Fluorescent Indicators ◽  
Intracellular Ca

Auditory transduction occurs by opening of Ca2+-permeable mechanotransducer (MT) channels in hair cell stereociliary bundles. Ca2+ clearance from bundles was followed in rat outer hair cells (OHCs) using fast imaging of fluorescent indicators. Bundle deflection caused a rapid rise in Ca2+ that decayed after the stimulus, with a time constant of about 50 ms. The time constant was increased by blocking Ca2+ uptake into the subcuticular plate mitochondria or by inhibiting the hair bundle plasma membrane Ca2+ ATPase (PMCA) pump. Such manipulations raised intracellular Ca2+ and desensitized the MT channels. Measurement of the electrogenic PMCA pump current, which saturated at 18 pA with increasing Ca2+ loads, indicated a maximum Ca2+ extrusion rate of 3.7 fmol·s−1. The amplitude of the Ca2+ transient decreased in proportion to the Ca2+ concentration bathing the bundle and in artificial endolymph (160 mM K+, 20 μM Ca2+), Ca2+ carried 0.2% of the MT current. Nevertheless, MT currents in endolymph displayed fast adaptation with a submillisecond time constant. In endolymph, roughly 40% of the MT current was activated at rest when using 1 mM intracellular BAPTA compared with 12% with 1 mM EGTA, which enabled estimation of the in vivo Ca2+ load as 3 pA at rest. The results were reproduced by a model of hair bundle Ca2+ diffusion, showing that the measured PMCA pump density could handle Ca2+ loads incurred from resting and maximal MT currents in endolymph. The model also indicated the endogenous mobile buffer was equivalent to 1 mM BAPTA.

scholarly journals In vivo optogenetics reveals homeostatic control of cochlear sensitivity by supporting cells

2020 ◽  
Author(s):  
Victoria Lukashkina ◽  
Snezana Levic ◽  
Patricio Simões ◽  
Zhenhang Xu ◽  
Joseph DiGuiseppi ◽  
...  
Keyword(s):  
Hair Cells ◽  
Dynamic Range ◽  
Organ Of Corti ◽  
Feedback System ◽  
Supporting Cell ◽  
Outer Hair Cells ◽  
Supporting Cells ◽  
Cochlear Supporting Cells

Abstract We used optogenetics to investigate the control of auditory sensitivity by cochlear supporting cells that scaffold outer hair cells, which transduce and amplify cochlear responses to sound. In vivo and in vitro measurements of sound-induced cochlear mechanical and electrical responses were made from mice that conditionally expressed nonselective cationic channelrhodopsins in Deiters’ and outer pillar supporting cells in the organ of Corti. We demonstrated that cochlear light-stimulation and subsequent activation of channelrhodopsins depolarized the supporting cells, changed their extracellular electrical environment, and sensitized insensitive and desensitized sensitive cochlear responses to sound. We concluded that outer hair cells, Deiters’ cells and outer pillar cells interact through feedback which regulates their immediate ionic and electrical environment and controls energy flow in the mammalian cochlea to optimize its performance over its entire dynamic range. Activation of the supporting cell channelrhodopsins shunts this feedback system and restores cochlear sensitivity to a set level.

scholarly journals Innervation of Cochlear Hair Cells by Human Induced Pluripotent Stem Cell-Derived NeuronsIn Vitro

2016 ◽  
Vol 2016 ◽  
pp. 1-10 ◽  
Author(s):  
Niliksha Gunewardene ◽  
Duncan Crombie ◽  
Mirella Dottori ◽  
Bryony A. Nayagam
Keyword(s):  
Hair Cells ◽  
Early Stage ◽  
Induced Pluripotent Stem Cell ◽  
Outer Hair Cells ◽  
Hesc Line ◽  
Auditory Neuron ◽  
Cochlear Hair Cells ◽  
Neural Processes ◽  
Induced Pluripotent

Induced pluripotent stem cells (iPSCs) may serve as an autologous source of replacement neurons in the injured cochlea, if they can be successfully differentiated and reconnected with residual elements in the damaged auditory system. Here, we explored the potential of hiPSC-derived neurons to innervate early postnatal hair cells, using establishedin vitroassays. We compared two hiPSC lines against a well-characterized hESC line. After ten days’ coculturein vitro, hiPSC-derived neural processes contacted inner and outer hair cells in whole cochlear explant cultures. Neural processes from hiPSC-derived neurons also made contact with hair cells in denervated sensory epithelia explants and expressed synapsin at these points of contact. Interestingly, hiPSC-derived neurons cocultured with hair cells at an early stage of differentiation formed synapses with a higher number of hair cells, compared to hiPSC-derived neurons cocultured at a later stage of differentiation. Notable differences in the innervation potentials of the hiPSC-derived neurons were also observed and variations existed between the hiPSC lines in their innervation efficiencies. Collectively, these data illustrate the promise of hiPSCs for auditory neuron replacement and highlight the need to develop methods to mitigate variabilities observed amongst hiPSC lines, in order to achieve reliable clinical improvements for patients.

scholarly journals Ouabain-Induced Apoptosis in Cochlear Hair Cells and Spiral Ganglion NeuronsIn Vitro

2013 ◽  
Vol 2013 ◽  
pp. 1-16 ◽  
Author(s):  
Yong Fu ◽  
Dalian Ding ◽  
Lei Wei ◽  
Haiyan Jiang ◽  
Richard Salvi
Keyword(s):  
Hair Cells ◽  
Gene Array ◽  
Spiral Ganglion ◽  
Spiral Ganglion Neuron ◽  
Round Window Membrane ◽  
Spiral Ganglion Neurons ◽  
Cochlear Hair Cells ◽  
Ganglion Neurons

Ouabain is a common tool to explore the pathophysiological changes in adult mammalian cochleain vivo. In prior studies, locally administering ouabain via round window membrane demonstrated that the ototoxic effects of ouabainin vivovaried among mammalian species. Little is known about the ototoxic effectsin vitro. Thus, we prepared cochlear organotypic cultures from postnatal day-3 rats and treated these cultures with ouabain at 50, 500, and 1000 μM for different time to elucidate the ototoxic effects of ouabainin vitroand to provide insights that could explain the comparative ototoxic effects of ouabainin vivo. Degeneration of cochlear hair cells and spiral ganglion neurons was evaluated by hair-cell staining and neurofilament labeling, respectively. Annexin V staining was used to detect apoptotic cells. A quantitative RT-PCR apoptosis-focused gene array determined changes in apoptosis-related genes. The results showed that ouabain-induced damagein vitrowas dose and time dependent. 500 μM ouabain and 1000 μM ouabain were destructively traumatic to both spiral ganglion neurons and cochlear hair cells in an apoptotic signal-dependent pathway. The major apoptotic pathways in ouabain-induced spiral ganglion neuron apoptosis culminated in the stimulation of the p53 pathway and triggering of apoptosis by a network of proapoptotic signaling pathways.

Pengaruh sisplatin dosis tinggi terhadap penurunan fungsi sel rambut luar koklea

2013 ◽  
Vol 40 (2) ◽  
Author(s):  
Asti Kristianti ◽  
Teti Madiadipoera ◽  
Bogi Soeseno
Keyword(s):  
Hair Cells ◽  
Malignant Neoplasm ◽  
Otoacoustic Emission ◽  
Outer Hair Cells ◽  
High Dose ◽  
Distortion Product Otoacoustic Emission ◽  
Inclusion Criteria ◽  
Cochlear Hair Cells ◽  
Distortion Product ◽  
Bilateral Sensorineural Hearing Loss

Background: Chemotherapy is worldwide used nowadays, and its toxicity still remain a problemespecially toxicity to the ear (ototoxicity). Cisplatin (cis-diamminedichloroplatinum) is one of themost commonly used chemotherapy and highly potent in treating epithelial malignancies. Ototoxicitycaused by cisplatin is irreversible, progressive, bilateral, sensorineural hearing loss especially on highfrequency (4-8 KHz) accompanied by tinnitus. Purpose: To observe the cochlear outer hair cells damagein malignancies patients treated with cisplatin. Methods: This study is an observational analytic studywith prospective design to determine the influence of high dose cisplatin on cochlear outer hair cellsfunction. The research was carried out at the ENT-HNS Department, Hasan Sadikin General HospitalBandung, from November 2007 until June 2008. Audiometry, tympanometry, and distortion productotoacoustic emission (DPOAE) examinations were conducted before chemotherapy and DPOAE, andtimpanometry was again measured three days after first and second cycles of cisplatin administration. McNemar test was performed to calculate the effects of high-dose cisplatin to the cochlear outer haircells function. To compare pre and post-cisplatin on alteration of cochlear hair cells function, Wilcoxontest was used. Results: In this study 60 ears from 30 subjects that meet the inclusion criteria, consistedof 25 man (83.3%) and 5 women (16.7%). The prevalence of damaged cochlear outer hair cells were63% at first cycle and 70% at second cycle of cisplatin administration. The decline of cochlear outerhair cells function was significant (p<0.001). Conclusion: High-dose cisplatin decreases cochlear outerhair cells function in patients with malignant neoplasm. Abstrak : Latar belakang: Kemoterapi sekarang rutin digunakan secara klinis di seluruh dunia. Sejalan denganhal tersebut toksisitas kemoterapi, khususnya terhadap telinga saat ini menjadi perhatian. Sisplatin(cis-diamminedichloroplatinum) adalah salah satu obat kemoterapi yang paling banyak digunakandan paling manjur untuk terapi keganasan epitelial. Efek ototoksik sisplatin yaitu terjadi gangguandengar sensorineural yang irreversible, progresif, bilateral pada frekuensi tinggi (4-8 kHz), dan disertaidengan tinitus. Tujuan: Untuk menilai penurunan fungsi sel rambut luar koklea pada penderita tumorganas sesudah pemberian sisplatin dosis tinggi dengan menggunakan DPOAE. Metode: Studi analitikobservasional dengan rancangan prospektif di Bagian IK. THT-KL RS. Hasan Sadikin Bandung mulaibulan November 2007 sampai dengan Juni 2008. Pada penelitian ini dilakukan pemeriksaan audiometrinada murni, timpanometri, dan distortion product otoacoustic emission (DPOAE) prakemoterapi, kemudianDPOAE dan timpanometri diulang tiga hari sesudah siklus pertama dan kedua kemoterapi sisplatin. Datayang diperoleh diuji dengan uji McNemar dan uji Wilcoxon. Hasil: Dari penelitian didapat 60 telingadari 30 subjek penelitian yang memenuhi kriteria inklusi yang terdiri dari 25 laki-laki (83,3%) dan 5perempuan (16,7%). Insidens penurunan fungsi sel rambut luar koklea sebesar 63% (38 kasus) sesudahsiklus pertama dan 70% (42 kasus) sesudah siklus kedua. Hubungan penurunan fungsi sel rambut luarkoklea memberikan nilai yang sangat bermakna sejak pemberian siklus pertama (p<0,001). Kesimpulan:Pemberian sisplatin dosis tinggi pada penderita tumor ganas menyebabkan penurunan fungsi sel rambutluar koklea.Kata kunci: kemoterapi, sisplatin dosis tinggi, sel rambut luar koklea.

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