Mechanical Overstimulation of Hair Bundles: Suppression and Recovery of Active Motility

PLoS ONE

Volumn 8, Issue 3, 2013, Pages

  Kao, Albert ^a   Meenderink, Sebastiaan W F ^a   Bozovic, Dolores ^a  

^a UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CALCIUM;

ANIMAL CELL; ARTICLE; BULLFROG; CELL MOTILITY; CELL STIMULATION; CONTROLLED STUDY; HAIR CELL; HIGH FREQUENCY OSCILLATION; IN VITRO STUDY; MECHANICAL STIMULATION; NONHUMAN; SACCULUS; SIGNAL TRANSDUCTION; STIMULUS RESPONSE;

ANIMALS; CALCIUM; CILIA; ENDOLYMPH; HAIR CELLS, AUDITORY; PHYSICAL STIMULATION; RANA CATESBEIANA; TIME FACTORS;

EID: 84874682742     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0058143     Document Type: Article

References (51)

1. Hudspeth AJ (2000) Hearing. In: Kandel JH E R Schwartz, Jessell TM, editors, Principles of Neural Science, New York: McGraw-Hill. 590-624.
2. Robles L, Ruggero MA, (2001) Mechanics of the mammalian cochlea. Physiol Rev 81: 1305-1352.
3. Assad J, Shepherd GM, Corey D, (1991) Tip-link integrity and mechanical transduction in vertebrate hair cells. Neuron 7: 985-994.
4. Kachar B, Parakkal M, Kurc M, Zhao Y, Gillespie PG, (2000) High-resolution structure of hair-cell tip links. Proc Natl Acad Sci U S A 97: 13336-13341.
5. LeMasurier M, Gillespie PG, (2005) Hair-cell mechanotransduction and cochlear amplification. Neuron 48: 403-415.
6. Vollrath MA, Kwan KY, Corey DP, (2007) The micromachinery of mechanotransduction in hair cells. Annu Rev Neurosci 30: 339-365.
7. Howard J, Hudspeth AJ, (1988) Compliance of the hair bundle associated with gating of mechanoelectrical transduction channels in the bullfrog's saccular hair cell. Neuron 1: 189-199.
8. Martin P, Hudspeth AJ, (2001) Compressive nonlinearity in the hair bundle's active response to mechanical stimulation. Proc Natl Acad Sci U S A 98: 14386-14391.
9. Russell IJ, Kössl M, Richardson GP, (1992) Nonlinear mechanical responses of mouse cochlear hair bundles. Proc Biol Sci 250: 217-227.
10. Gold T, (1948) Hearing ii. the physical basis of the action of the cochlea. Proceedings of the Royal Society of London B 135: 492-498.
11. Hudspeth AJ, (2008) Making an effort to listen: mechanical amplification in the ear. Neuron 59: 530-545.
12. Manley GA, (2001) Evidence for an active process and a cochlear amplifier in nonmammals. J Neurophysiol 86: 541-549.
13. Fettiplace R, Ricci AJ, Hackney CM, (2001) Clues to the cochlear amplifier from the turtle ear. Trends Neurosci 24: 169-175.
14. Dallos P, (1992) The active cochlea. J Neurosci 12: 4575-4585.
15. Ashmore J, Avan P, Brownell W, Dallos P, Dierkes K, et al. (2010) The remarkable cochlear amplifier. Hearing Research 266: 1-17.
16. Kennedy HJ, Evans M, Crawford AC, Fettiplace R, (2006) Depolarization of cochlear outer hair cells evokes active hair bundle motion by two mechanisms. J Neurosci 26: 2757-2766.
17. Rabbitt RD, Boyle R, Highstein SM, (2010) Mechanical amplification by hair cells in the semicircular canals. Proc Natl Acad Sci U S A 107: 3864-3869.
18. Nuttall AL, Ren T, de Boer E, Zheng J, Parthasarathi A, et al. (2002) In vivo micromechanical measurements of the organ of corti in the basal cochlear turn. Audio Neurootol 7: 21-26.
19. Strogatz SH (1994) Nonlinear Dynamics and Chaos. Cambridge, MA: Westview Press, 513 pp.
20. Eguiluz VM, Ospeck M, Choe Y, Hudspeth AJ, Magnasco MO, (2000) Essential nonlinearities in hearing. Phys Rev Lett 84: 5232-5235.
21. Camalet S, Duke T, Julicher F, Prost J, (2000) Auditory sensitivity provided by self-tuned critical oscillations of hair cells. Proc Natl Acad Sci U S A 97: 3183-3188.
22. Choe Y, Magnasco MO, Hudspeth AJ, (1998) A model for amplification of hair-bundle motion by cyclical binding of ca2+ to mechanoelectrical-transduction channels. Proc Natl Acad Sci U S A 95: 15321-15326.
23. Benser ME, Marquis RE, Hudspeth AJ, (1996) Rapid, active hair bundle movements in hair cells from the bullfrog's sacculus. J Neurosci 16: 5629-5643.
24. Crawford AC, Fettiplace R, (1985) The mechanical properties of ciliary bundles of turtle cochlear hair cells. J Physiol 364: 359-379.
25. Martin P, Hudspeth AJ, (1999) Active hair-bundle movements can amplify a hair cell's response to oscillatory mechanical stimuli. Proc Natl Acad Sci U S A 96: 14306-14311.
26. Martin P, Hudspeth AJ, Julicher F, (2001) Comparison of a hair bundle's spontaneous oscillations with its response to mechanical stimulation reveals the underlying active process. Proc Natl Acad Sci U S A 98: 14380-14385.
27. Martin P, Bozovic D, Choe Y, Hudspeth AJ, (2003) Spontaneous oscillation by hair bundles of the bullfrog's sacculus. J Neurosci 23: 4533-4548.
28. Tinevez JY, Jülicher F, Martin P, (2007) Unifying the various incarnations of active hair-bundle motility by the vertebrate hair cell. Biophys J 93: 4053-4067.
29. Nadrowski B, Martin P, Jülicher F, (2004) Active hair-bundle motility harnesses noise to operate near an optimum of mechanosensitivity. Proc Natl Acad Sci U S A 101: 12195-12200.
30. Han LJ, Neiman AB, (2010) Spontaneous oscillations, signal amplification, and synchronization in a model of active hair bundle mechanics. Phys Rev E 81: 041913.
31. Vilfan A, Duke T, (2003) Two adaptation processes in auditory hair cells together can provide an active amplifier. Biophys J 85: 191-203.
32. Clark WW, (1991) Recent studies of temporary threshold shift (tts) and permanent threshold shift (pts) in animals. J Acoust Soc Am 90: 155-163.
33. Melnick W, (1991) Human temporary threshold shift (tts) and damage risk. J Acoust Soc Am 90: 147-154.
34. Lichtenhan JT CM, (2008) Temporary hearing loss influences post-stimulus time histogram and single neuron action potential estimates from human compound action potentials. J Acoust Soc Am 123: 2200-2212.
35. Patuzzi R, (2002) Non-linear aspects of outer hair cell transduction and the temporary threshold shifts after acoustic trauma. Audiology and Neuro-Otology 7: 17-20.
36. Eatock RA, (2000) Adaptation in hair cells. Annu Rev Neurosci 23: 285-314.
37. Hudspeth AJ, Gillespie PG, (1994) Pulling springs to tune transduction: adaptation by hair cells. Neuron 12: 1-9.
38. Holt JR, Corey DP, (2000) Two mechanisms for transducer adaptation in vertebrate hair cells. Proc Natl Acad Sci U S A 97: 11730-11735.
39. Stauffer EA, Scarborough JD, Hirono M, Miller ED, Shah K, et al. (2005) Fast adaptation in vestibular hair cells requires myosin-1c activity. Neuron 47: 541-553.
40. Crawford AC, Evans MG, Fettiplace R, (1989) Activation and adaptation of transducer currents in turtle hair cells. J Physiol 419: 405-434.
41. Wu YC, Ricci AJ, Fettiplace R, (1999) Two components of transducer adaptation in auditory hair cells. J Neurophysiol 82: 2171-2181.
42. Beurg M, Nam JH, Crawford A, Fettiplace R, (2008) The actions of calcium on hair bundle mechanics in mammalian cochlear hair cells. Biophys J 94: 2639-2653.
43. Denk W, Webb WW, (1992) Forward and reverse transduction at the limit of sensitivity studied by correlating electrical and mechanical uctuations in frog saccular hair cells. Hear Res 60: 89-102.
44. Bozovic D, Hudspeth AJ, (2003) Hair-bundle movements elicited by transepithelial electrical stimulation of hair cells in the sacculus of the bullfrog. Proc Natl Acad Sci U S A 100: 958-963.
45. Cheung EL, Corey DP, (2006) Ca2+ changes the force sensitivity of the hair-cell transduction channel. Biophys J 90: 124-139.
46. Ricci AJ, Crawford AC, Fettiplace R, (2000) Active hair bundle motion linked to fast transducer adaptation in auditory hair cells. J Neurosci 20: 7131-7142.
47. Roongthumskul Y, Fredrickson-Hemsing L, Kao A, Bozovic D, (2011) Multiple-timescale dynamics underlying spontaneous oscillations of saccular hair bundles. Biophys J 101: 603-610.
48. Shlomovitz R, Fredrickson-Hemsing L, Kao A, Meenderink S, Bruinsma R, et al. (2013) Low frequency entrainment of oscillatory bursts in hair cells. Biophy J (submitted).
49. Lumpkin EA, Hudspeth AJ, (1998) Regulation of free ca2+ concentration in hair-cell stereocilia. J Neurosci 18: 6300-6318.
50. Narins PM, Lewis ER, (1984) The vertebrate ear as an exquisite seismic sensor. J Acous Soc Am 76: 1384-1387.
51. Lewis ER, (1988) Tuning in the bullfrog ear. Biophys J 53: 441-447.