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This article is part of the supplement: UT-ORNL-KBRIN Bioinformatics Summit 2009

Open Access Meeting abstract

Microarray analysis and quantitative real-time PCR validation of gene expression during auditory hair cell regeneration in zebrafish (Danio rerio)

Julie B Schuck1, Chia-Hui Lin1, William T Penberthy1, Xiaohong Li2, Nigel GF Cooper2 and Michael E Smith1*

Author Affiliations

1 Department of Biology and Biotechnology Center, Western Kentucky University, Bowling Green, KY 42101, USA

2 Department of Anatomical Sciences and Neurobiology, University of Louisville, Louisville, KY, 40292, USA

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BMC Bioinformatics 2009, 10(Suppl 7):A12  doi:10.1186/1471-2105-10-S7-A12


The electronic version of this article is the complete one and can be found online at: http://www.biomedcentral.com/1471-2105/10/S7/A12


Published:25 June 2009

© 2009 Schuck et al; licensee BioMed Central Ltd.

Background

Fishes are capable of regenerating sensory hair cells in the inner ear after acoustic trauma [1]. We recently established the time course for auditory hair cell regeneration in zebrafish. Immediately following acoustic overexposure, zebrafish saccules exhibited significant hair cell loss, but recovered to pretreatment levels at 14 days post-sound exposure [2]. Cell proliferation peaked two days post-sound exposure (dpse), so we examined gene expression patterns before, during, and after this time to find genes associated with this proliferation and subsequent hair cell regeneration.

Materials and methods

Three groups of 18–20 adult zebrafish were exposed to a 100 Hz pure tone at 179 dB re 1 μPa RMS for 36 hours to cause acoustic trauma. The whole inner ears of each fish were removed and pooled for RNA extraction at 0, 2, and 4 dpse. Microarray analysis was used to examine expression levels of candidate genes known to regulate hair cell development and to search for new, as yet, unknown candidate genes. Fluorescent cRNA from each treatment sample was hybridized to three duplicate Agilent Zebrafish oligonucleotide arrays (4 × 44 K, 60-mer oligo-nucleotides). Subsequently, significantly regulated genes were validated using quantitative real-time PCR (Q-RT-PCR).

Results

Microarray analysis showed that a number of genes are significantly regulated in the sound-exposed zebrafish inner ear at 2 and 4 dpse. There were no significant changes in expression levels of Atonal 1A, JunB, Rb, nor CDKN1A but there were several other genes with altered expression levels. These results were validated using quantitative real-time PCR (Q-RT-PCR; Figure 1). A greater than 30-fold increase in growth hormone was seen at 2 dpse in direct correlation with saccular cell proliferation. Meanwhile two myosin heavy chain genes (atrial and smooth muscle) were repressed by comparable magnitudes at 2 and 4 dpse.

thumbnailFigure 1. Quantitative real-time PCR validation of some of the genes shown to be regulated by the microarray experiment at (A) 2 days and (B) 4 days post-sound exposure relative to controls. Ef1alpha was used as a housekeeping gene control.

Conclusion

A number of genes were either up- or down-regulated at 2- and 4-dpse. Our qrtPCR validation confirms the gene patterns found in our microarray results. Putative biological processes such as proliferation and differentiation for some of these genes have been identified, but more work will be needed to determine the importance of many of them, including the role of growth hormone in stimulating inner ear hair cell regeneration.

Acknowledgements

This research was supported by NIH grant P20 RR-16481, an NSF-EPSCoR grant, and a WKU faculty scholarship to M.E.S.

References

  1. 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. PubMed Abstract | Publisher Full Text OpenURL

  2. Schuck JB, Smith ME, Li X, Cooper NGF: Microarray analysis of gene expression during auditory hair cell regeneration in zebrafish (Danio rerio).

    BMC Bioinformatics 2008, 9(Suppl 7):P15. BioMed Central Full Text OpenURL