The development of hair cells in both the auditory and vestibular sensory epithelia is a complex process that involves the coordinated expression of many regulatory proteins. Among these is the POU-domain transcription factor Brn-3.1. This factor is expressed in hair cell precursors immediately after commitment to the hair cell fate, and continues throughout life. Deletion of this factor in mice leads to failure of hair cell differentiation during development, and to the death of a majority of the undifferentiated cells. Normal expression of Brn-3.1 is required for adult hair cell survival as well, since a mutation in this gene causes dominant, late-onset, inherited hearing loss in humans. The timing of the onset of Brn-3.1 expression suggests that factors regulating its expression may be involved in fate determination of hair cells. Moreover, genes that are themselves directly regulated by Brn-3.1 appear to play critical roles in hair cell development and survival.

1.
Bermingham N, Hassan B, Price S, Vollrath M, Ben-Arie N, Eatock R, Bellen H, Lysakowski A, Zoghbi H: Math1: An essential gene for the generation of inner ear hair cells. Science 1999;284:1837–1841.
2.
Duggan A, Ma C, Chalfie M: Regulation of touch receptor differentiation by the Caenorhabditis elegans mec-3 and unc-86 genes. Development 1998;125:4107–4119.
3.
Erkman L, McEvilly RJ, Luo L, Ryan AE, Hoosmand F, O’Connell SM, Keithley EM, Rappaport DH, Ryan AF, Rosenfeld MG: Role of transcription factors Brn-3.1 and Brn-3.2 in auditory and visual system development. Nature 1996;381:603–606.
4.
Geire A: Molecular models and combinatorial principals in cell differentiation and morphogenesis. Cold Spring Harb Symp 1974;38:951–961.
5.
Gerrero M, McEvilly R, Turner E, Lin C, O’Connel S, Jenne K, Hobbs M, Rosenfeld MG: Brn-3.0:A POU-domain protein expressed in the sensory, immune and endocrine systems that functions on elements distinct from known octamer motifs. Proc Natl Acad Sci USA 1993;90:10841–10845.
6.
Jorgensen JM: Evolution of octavolateralis sensory cells; in Coombs S, Popper A, Fay R (eds): Mechanosensory Systems. Springer, 1987, pp 115–145.
7.
Keithley EM, Erkman L, Bennett T, Lou L, Ryan AF: Effects of a hair cell transcription factor, Brn-3.1, gene deletion on homozygous and heterozygous mouse cochleas in adulthood and aging. Hear Res 1999;134:71–76.
8.
Lanford PJ, Lan Y, Jiang R, Lindsell C, Weinmaster G, Gridley T, Kelley MW: Notch signalling pathway mediates hair cell development in mammalian cochlea. Nat Genet 1999;21:289–292.
9.
McEvilly R, Erkman L, Luo L, Sawchenko P, Ryan AF, Rosenfeld MG: Requirement for Brn-3.0 in differentiation and survival of sensory and motor neurons. Nature 1996;384:574–577.
10.
Ninkina N, Stevens G, Wood J, Richardson W: A novel Brn3-like POU transcription factor expressed in subsets of rat sensory and spinal cord neurons. Nucl Acids Res 1993;21:3175–3182.
11.
Ryan AF: Transcription factors and the control of inner ear development. Semin Cell Dev Biol 1997;8:249–256.
12.
Ryan AF, Simmons DM, Crenshaw EB: Gene expression in normal and abnormal inner ears. Ann NY Acad Sci 1991;630:129–132.
13.
Theil T, McLean-Hunter S, Zornig M, Moroy T: Mouse BRN-3 family of POU transcription factors: A new aminoterminal domain is crucial for the oncogenic activity of BRN-3A. Nucl Acids Res 1993;21:5921–5929.
14.
Theil T, Zechner U, Klett C, Adolph S, Moroy T: Chromosomal localization and sequences of the murine Brn-3 family of developmental control genes. Cytogenet Cell Genet 1994;66:267–271.
15.
Turner E, Jenne K, Rosenfeld M: Brn-3.2:A Brn-3-related transcription factor with distinctive central nervous system expression and regulation by retinoic acid. Neuron 1994;12:205–218.
16.
Vahava O, Morell R, Lynch E, Weiss S, Kagan M, Ahituv N, Morrow J, Lee M, Skvorak A, Morton C, Blumenfeld A, Frydman M, Friedman T, King M, Avraham K: Mutation in transcription factor POU4F3 associated with inherited progressive hearing loss in humans. Science 1998;279:1950–1954.
17.
Xiang M, Gan L, Li D, Chen ZY, Zhou L, O’Malley B, Klein W, Nathans J: Essential role of POU-domain factor Brn-3c in auditory and vestibular hair cell development. Proc Natl Acad Sci USA 1997;94:9445–9450.
18.
Xiang M, Gao WQ, Hasson T, Shin JJ: Requirement for Brn-3c in maturation and survival, but not in fate determination of inner ear hair cells. Development 1998;125:3935–3946.
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