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Digitale Medien

Regeneration in avian hair cell epithelia: identification of intracellular signals required for S-phase entry (2001)

Witte, Mark C. ; Montcouquiol, Mireille ; Corwin, Jeffrey T.

Oxford, UK : Blackwell Science Ltd

European journal of neuroscience 14 (2001), S. 0

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ISSN: 1460-9568

Quelle: Blackwell Publishing Journal Backfiles 1879-2005

Thema: Medizin

Notizen: Balance epithelia in birds closely resemble their mammalian counterparts, but their cells turnover rapidly and they quickly regenerate hair cells, leading to functional recovery from damage that would be permanent for a mammal. We isolated and cultured sheets of the chicken's utricular epithelium in bromo-deoxyuridine and specific inhibitors of different intracellular signalling pathways to identify signals that influence turnover and regeneration. Synthesis (S-phase) entry was effectively blocked by inhibition of PI3-K, TOR or MAPK, and significantly decreased by inhibitors of PKC. Comparisons indicate that activated PI3-K and TOR are required for S-phase entry in both avian and mammalian balance epithelia, but activation of the MAPK pathway appears to have a more significant role in avian utricles than in mammals. The dissimilarities in the requirements for these signalling pathways do not appear sufficient to explain the marked difference in regenerative capacity between the ears of birds and mammals.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1046/j.0953-816x.2001.01695.x

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Digitale Medien

Acoustic evoked activity in the brain in sharks (1979)

Bullock, Theodore H. ; Corwin, Jeffrey T.

Springer

Journal of comparative physiology 129 (1979), S. 223-234

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ISSN: 1432-1351

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Medizin

Notizen: Summary 1. Averaged evoked potentials (AEP's) were recorded in the medulla, cerebellum, mesencephalon and telencephalon of several species of carcharhinid and triakid sharks, in the anesthetized animal with microelectrodes in the exposed brain and in the unanesthetized animal with implanted electrodes. 2. A preparation is described for recording from implanted electrodes with the unanesthetized shark suspended in the water by rubber bands, subject to air- or water-borne acoustic stimuli, or electric fields or photic stimuli. 3. AEP's were found in each of the levels named above, to acoustic as well as to electric and photic stimuli. The responsive loci are discrete and small. The loci of best response are distinct for each of these three modalities. Anatomical localizations are given to within about one tenth of a neuromere but rarely to the microscopic level. 4. The form, latencies and recovery times of AEP's are given for the several levels and modalities. No interaction occurred between modalities at least with brief stimuli. 5. The best acoustic stimulus for AEP amplitude is a “click” with a resonance of a few hundred Hz. The best tone stimulus is a rapidly rising burst of about 300 Hz. This value may be a function of size of animal, species, and electrode position. The lowest sound pressure threshold observed was −8 dB re 1 μbar near the shark's head (=66 dB SPL), to a click delivered to the water surface. We do not know the velocity-wave amplitude, although it is believed to be the more relevant quantity. 6. Acoustic AEP's were markedly suppressed by background white noise or tones — best at about 100 Hz. 7. When sound was delivered very locally the largest AEP occurred if the sound source was directly over the parietal fossa in the dorsal midline of the head. When sound was delivered at a distance, from a larger speaker, experimental occlusion of the parietal fossa usually suppressed the acoustic AEP. We interpret this to support the view that the fossa is an important portal for sound. 8. In two experiments bilateral section of the VIIIth nerve twig to the macula neglecta, together with some incidental damage to the sacculus greatly reduced the acoustic AEP. This supports the view that the macula neglecta is an important concentration of acoustic receptors but does not definitely confirm that proposal. The evidence argues against any substantial role of the lateral line in these species in response to acoustic stimuli at low amplitudes.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00657658

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Digitale Medien

Peripheral auditory physiology in the lemon shark: Evidence of parallel otolithic and non-otolithic sound detection (1981)

Corwin, Jeffrey T.

Springer

Journal of comparative physiology 142 (1981), S. 379-390

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ISSN: 1432-1351

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Medizin

Notizen: Summary The intact ear of the lemon shark,Negaprion brevirostris, is sensitive to sound at low frequencies by electrophysiological criteria. The click-evoked compound action potential of the eighth nerve has a dynamic range of at least 30 dB, with a latency shortening of 120 to 170 μs/dB and an amplitude increase of 4 to 11%/dB relative to a nearly saturated response. The shape of the potential is dependent on the click phase and with the top of the head out of water these potentials are evoked by clicks with air sound pressure levels as low as 19.5 dB re 1 μbar and velocity levels in the water as low as 23 dB re 1 μvar. The calculated displacement thresholds range from 5×10−8 to 4×10−7 cm for this response, overlapping and extending slightly below the thresholds previously reported for whole animals. The frequency sensitivity for this measure of the ear's response also agrees with behavioral data, suggesting that the ear is the primary site for sound detection. Units in the eighth nerve fall into three classes: regularly spontaneous and non-acoustic, irregularly spontaneous and acoustic, and nonspontaneous and acoustic. The best excitatory frequencies for the acoustic units range from 375 Hz down to 31 Hz if not lower, with the majority below 200 Hz. There are two maculae in this ear that are capable of detecting sound. One, the macula neglecta, is a non-otolithic detector composed of two large patches of sensory epithelium that line the walls of the posterior canal duct and extend cilia complexes toward a gelatinous cupula that fills the lumen of the duct. Units in the branch of the eighth nerve that serves this macula are responsive to sound that appears to be transmitted through parietal fossa connective tissue and a dorsal opening in the otic capsule wall. The other sound detector is the macula of the otolithic sacculus. In juvenile lemon sharks this epithelium contains an estimated 300,000 hair cells that extend their cilia toward a large mass of otoconia. It is proposed that these two maculae may detect sound by dissimilar mechanisms that provide different directional responses and possibly different frequency responses and might allow unambiguous sound localization.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00605450

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Digitale Medien

Solitary Hair Cells Are Distributed Throughout the Extramacular Epithelium in the Bullfrog's Saccule (2000)

Gale, Jonathan E. ; Meyers, Jason R. ; Corwin, Jeffrey T.

Springer

Journal of the Association for Research in Otolaryngology 1 (2000), S. 172-182

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ISSN: 1438-7573

Schlagwort(e): hair cell ; vestibular ; balance ; bullfrog ; amphibian ; sacculus ; vital dye

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Abstract The frog inner ear contains eight sensory organs that provide sensitivities to auditory, vestibular, and ground-borne vibrational stimuli. The saccule in bullfrogs is responsible for detecting ground- and air-borne vibrations and is used for studies of hair cell physiology, development, and regeneration. Based on hair bundle morphology, a number of hair cell types have been defined in this organ. Using immunocytochemistry, vital labeling, and electron microscopy, we have characterized a new hair cell type in the bullfrog saccule. A monoclonal antibody that is specific to hair cells revealed that a population of solitary hair cells exists outside the sensory macula in what was previously thought to be nonsensory epithelium. We call these extramacular hair cells. There are 80–100 extramacular hair cells in both tadpole and adult saccules, which extend up to 1 mm from the edge of the sensory macula. The extramacular hair cells have spherical cell bodies and small apical surfaces. Even in adults, the hair bundles of the extramacular cells appear immature, with a long kinocilium (6–9 μm) and short stereocilia (0.5–2 μm). At least 90% of extramacular hair cells are likely to be innervated as demonstrated by labeling of nerve fibers with an antineurofilament antibody. The extramacular hair cells may differentiate in regions just beyond the edge of the macula at an early stage in development and then be pushed out via the interstitial growth of the epithelium that surrounds the macula. It is also possible that they may be produced from cell divisions in the extramacular epithelium that has not been considered capable of giving rise to hair cells.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/s101620010037

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Digitale Medien

Morphology of the macula neglecta in sharks of the genus CarcharhinusSubmitted in partial fulfillment of the requirements for the M.S. degree in Zoology, University of Hawaii, Summer 1975. (1977)

Corwin, Jeffrey T.

New York, NY : Wiley-Blackwell

Journal of Morphology 152 (1977), S. 341-361

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ISSN: 0362-2525

Schlagwort(e): Life and Medical Sciences ; Cell & Developmental Biology

Quelle: Wiley InterScience Backfile Collection 1832-2000

Thema: Biologie , Medizin

Notizen: Ears from several species of carcharhinid sharks were studied by gross dissection, light microscopy, transmission electron microscopy, and scanning electron microscopy. Structures along a possible sound transmission path to the ear are described, but main consideration is given to the structure of the macula neglecta.The macula neglecta is composed of two patches of sensory epithelium which line part of the posterior canal duct. In an adult shark the larger of these contains 224,000 sensory hair cells oriented so as to detect forces directed posteroventrolaterally in the duct. The smaller patch contains 43,000 hair cells oriented so as to detect oppositely directed forces. These receptor cells project through numerous small terminals to a total for both patches of 4,700 myelinated nerve fibers. Cytostructural variations throughout the hair cell population are also reported.Estimated acoustic properties of the tissues in this complex and the processing potential of the neural elements are interpreted as suggestive of auditory function. A mechanism based on the geometry of the receptor arrays is proposed to explain behaviorally observed instantaneous sound localization from the farfield.Evolution of the macula neglecta is reviewed, and evidence for homology of the macula neglecta and amphibian papilla is presented.

Zusätzliches Material: 3 Ill.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1002/jmor.1051520306

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