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Growth hormone induces proliferation in the zebrafish inner ear
BMC Bioinformatics volume 11, Article number: P26 (2010)
While acoustic trauma results in a loss of hair cells in the ears of fishes, they have the ability to recover their hair cells and hearing sensitivity within a few weeks . Our previous microarray and RT-PCR analysis of sound-exposed zebrafish (Danio rerio) ears, showed that growth hormone (GH) was significantly upregulated during zebrafish auditory tissue cell proliferation and hair cell regeneration . This upregulation was greatest two days following acoustic trauma, coincident with an increase in cell proliferation . In order to better understand the role of GH in the regenerative abilities of the zebrafish ear, we performed two GH-injection experiments.
Materials and methods
In Experiment 1, treatment fish were injected intraperitoneally with salmon GH at 10 ug/1g body weight while controls were injected with buffer solution. Both groups were then allowed to recover for 24 h at 25 ºC before BrdU injection. Four hours following BrdU injection, fish were sacrificed and their saccules prepared for immunohistochemistry using mouse monoclonal anti-BrdU antibody (Invitrogen, Carlsbad, CA) as the primary and Alexa Fluor 568–conjugated rabbit anti-mouse antibody as the secondary.
In Experiment 2, fish were exposed for 36 h to a 100 Hz tone at 179 dB re 1 μPa RMS in a 19-L sound exposure chamber at 25 ºC, after which the fish were removed for immediate injection (GH or buffer control), and then moved to a recovery tank for a predetermined length of time. The effects of GH on hair cell proliferation after noise exposure were assessed by BrdU assay 48 h later. The role of GH in changing hair cell bundle density was examined by phalloidin staining 60 h post-sound exposure.
GH injection resulted in increased cell proliferation in the zebrafish ear, particularly in the utricle (Fig. 1A). At 48 h post-sound exposure, the saccules, lagenae, and utricles of GH-injected fish had significantly reduced BrdU-labeled cells compared to controls (Fig. 1B). GH may have induced proliferation earlier so that few cells were mitotic at this time point. At 60 h post-sound exposure, mean hair cell bundle densities were greater in GH-injected fish compared to controls, particularly in the saccule (Fig. 1C).
GH plays an important role in auditory cell proliferation and hair cell regeneration in zebrafish. Future experiments will examine genes involved in this process and if GH is necessary for such regeneration.
Smith ME, Coffin AB, Miller DL, Popper AN: Anatomical and functional recovery of the goldfish ( Carrasius auratus ) ear following noise exposure. J Exp Biol 2006, 209: 4193–4202. 10.1242/jeb.02490
Schuck JB, Lin C, Penberthy WT, Li X, Cooper NGF, Smith ME: Microarray analysis and quantitative real-time PCR validation of gene expression during auditory hair cell regeneration in zebrafish ( Danio rerio ). BMC Bioinformatics 2009, 10(Suppl 7):A12. 10.1186/1471-2105-10-S7-A12
Schuck JB, Smith ME: Cell proliferation follows acoustically-induced hair cell bundle loss in the zebrafish saccule. Hear Res 2009, 253: 67–76. 10.1016/j.heares.2009.03.008
This research was supported by NIH grant P20 RR-16481 and a WKU faculty scholarship to M.E.S.
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Smith, M.E., Sun, H., Schuck, J.B. et al. Growth hormone induces proliferation in the zebrafish inner ear. BMC Bioinformatics 11, P26 (2010). https://0-doi-org.brum.beds.ac.uk/10.1186/1471-2105-11-S4-P26
- Growth Hormone
- Hair Cell
- Noise Exposure
- Acoustic Trauma
- BrdU Injection