Delta-Notch signalling and the patterning of sensory cell differentiation in the zebrafish ear: evidence from the mind bomb mutant

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JOURNAL ARTICLES

Delta-Notch signalling and the patterning of sensory cell differentiation in the zebrafish ear: evidence from the mind bomb mutant

C Haddon, YJ Jiang, L Smithers and J Lewis
Vertebrate Development Laboratory, Imperial Cancer Research Fund, PO Box 123, Lincoln's Inn Fields, London WC2A 3PX, UK.

Mechanosensory hair cells in the sensory patches of the vertebrate ear are interspersed among supporting cells, forming a fine-grained pattern of alternating cell types. Analogies with Drosophila mechanosensory bristle development suggest that this pattern could be generated through lateral inhibition mediated by Notch signalling. In the zebrafish ear rudiment, homologues of Notch are widely expressed, while the Delta homologues deltaA, deltaB and deltaD, coding for Notch ligands, are expressed in small numbers of cells in regions where hair cells are soon to differentiate. This suggests that the delta-expressing cells are nascent hair cells, in agreement with findings for Delta1 in the chick. According to the lateral inhibition hypothesis, the nascent hair cells, by expressing Delta protein, would inhibit their neighbours from becoming hair cells, forcing them to be supporting cells instead. The zebrafish mind bomb mutant has abnormalities in the central nervous system, somites, and elsewhere, diagnostic of a failure of Delta-Notch signalling: in the CNS, it shows a neurogenic phenotype accompanied by misregulated delta gene expression. Similar misregulation of delta ; genes is seen in the ear, along with misregulation of a Serrate homologue, serrateB, coding for an alternative Notch ligand. Most dramatically, the sensory patches in the mind bomb ear consist solely of hair cells, which are produced in great excess and prematurely; at 36 hours post fertilization, there are more than ten times as many as normal, while supporting cells are absent. A twofold increase is seen in the number of otic neurons also. The findings are strong evidence that lateral inhibition mediated by Delta-Notch signalling controls the pattern of sensory cell differentiation in the ear.

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				E. Y. Ma, E. W Rubel, and D. W. Raible Notch Signaling Regulates the Extent of Hair Cell Regeneration in the Zebrafish Lateral Line J. Neurosci., February 27, 2008; 28(9): 2261 - 2273. [Abstract] [Full Text] [PDF]

				N. Daudet, L. Ariza-McNaughton, and J. Lewis Notch signalling is needed to maintain, but not to initiate, the formation of prosensory patches in the chick inner ear Development, June 15, 2007; 134(12): 2369 - 2378. [Abstract] [Full Text] [PDF]

				L. S. Tang, H. M. Alger, and F. A. Pereira COUP-TFI controls Notch regulation of hair cell and support cell differentiation Development, September 15, 2006; 133(18): 3683 - 3693. [Abstract] [Full Text] [PDF]

				R. Brooker, K. Hozumi, and J. Lewis Notch ligands with contrasting functions: Jagged1 and Delta1 in the mouse inner ear Development, April 1, 2006; 133(7): 1277 - 1286. [Abstract] [Full Text] [PDF]

				A. E. Kiernan, R. Cordes, R. Kopan, A. Gossler, and T. Gridley The Notch ligands DLL1 and JAG2 act synergistically to regulate hair cell development in the mammalian inner ear Development, October 1, 2005; 132(19): 4353 - 4362. [Abstract] [Full Text] [PDF]

				B.-K. Koo, K.-J. Yoon, K.-W. Yoo, H.-S. Lim, R. Song, J.-H. So, C.-H. Kim, and Y.-Y. Kong Mind Bomb-2 Is an E3 Ligase for Notch Ligand J. Biol. Chem., June 10, 2005; 280(23): 22335 - 22342. [Abstract] [Full Text] [PDF]

				A. Filippi, N. Tiso, G. Deflorian, E. Zecchin, M. Bortolussi, and F. Argenton The basic helix-loop-helix olig3 establishes the neural plate boundary of the trunk and is necessary for development of the dorsal spinal cord PNAS, March 22, 2005; 102(12): 4377 - 4382. [Abstract] [Full Text] [PDF]

				C. Crosnier, N. Vargesson, S. Gschmeissner, L. Ariza-McNaughton, A. Morrison, and J. Lewis Delta-Notch signalling controls commitment to a secretory fate in the zebrafish intestine Development, March 1, 2005; 132(5): 1093 - 1104. [Abstract] [Full Text] [PDF]

				N. Daudet and J. Lewis Two contrasting roles for Notch activity in chick inner ear development: specification of prosensory patches and lateral inhibition of hair-cell differentiation Development, February 1, 2005; 132(3): 541 - 551. [Abstract] [Full Text] [PDF]

				R. D. Hawkins and M. Lovett The developmental genetics of auditory hair cells Hum. Mol. Genet., October 1, 2004; 13(suppl_2): R289 - R296. [Abstract] [Full Text] [PDF]

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				K. L. Hammond, H. E. Loynes, A. A. Folarin, J. Smith, and T. T. Whitfield Hedgehog signalling is required for correct anteroposterior patterning of the zebrafish otic vesicle Development, April 1, 2003; 130(7): 1403 - 1417. [Abstract] [Full Text] [PDF]

				S.-J. Kwak, B. T. Phillips, R. Heck, and B. B. Riley An expanded domain of fgf3 expression in the hindbrain of zebrafish valentino mutants results in mis-patterning of the otic vesicle Development, March 13, 2003; 129(22): 5279 - 5287. [Abstract] [Full Text] [PDF]

				P. Chen, J. E. Johnson, H. Y. Zoghbi, and N. Segil The role of Math1 in inner ear development: Uncoupling the establishment of the sensory primordium from hair cell fate determination Development, March 7, 2003; 129(10): 2495 - 2505. [Abstract] [Full Text] [PDF]

				J. Bryant, R. J Goodyear, and G. P Richardson Sensory organ development in the inner ear: molecular and cellular mechanisms Br. Med. Bull., October 1, 2002; 63(1): 39 - 57. [Abstract] [Full Text] [PDF]

				M. N. Rivolta, A. Halsall, C. M. Johnson, M. A. Tones, and M. C. Holley Transcript Profiling of Functionally Related Groups of Genes During Conditional Differentiation of a Mammalian Cochlear Hair Cell Line Genome Res., July 1, 2002; 12(7): 1091 - 1099. [Abstract] [Full Text] [PDF]

				R. S. Coimbra, D. Weil, P. Brottier, S. Blanchard, M. Levi, J.-P. Hardelin, J. Weissenbach, and C. Petit A Subtracted cDNA Library from the Zebrafish (Danio rerio) Embryonic Inner Ear Genome Res., June 1, 2002; 12(6): 1007 - 1011. [Abstract] [Full Text] [PDF]

				R. A. Cornell and J. S. Eisen Delta/Notch signaling promotes formation of zebrafish neural crest by repressing Neurogenin 1 function Development, January 6, 2002; 129(11): 2639 - 2648. [Abstract] [Full Text] [PDF]

				A. Zine, A. Aubert, J. Qiu, S. Therianos, F. Guillemot, R. Kageyama, and F. de Ribaupierre Hes1 and Hes5 Activities Are Required for the Normal Development of the Hair Cells in the Mammalian Inner Ear J. Neurosci., July 1, 2001; 21(13): 4712 - 4720. [Abstract] [Full Text] [PDF]

				H. Tsai, R. E. Hardisty, C. Rhodes, A. E. Kiernan, P. Roby, Z. Tymowska-Lalanne, P. Mburu, S. Rastan, A. J. Hunter, S. D. M. Brown, et al. The mouse slalom mutant demonstrates a role for Jagged1 in neuroepithelial patterning in the organ of Corti Hum. Mol. Genet., March 1, 2001; 10(5): 507 - 512. [Abstract] [Full Text] [PDF]

				M. Eddison, I. Le Roux, and J. Lewis Notch signaling in the development of the inner ear: Lessons from Drosophila PNAS, October 24, 2000; 97(22): 11692 - 11699. [Abstract] [Full Text] [PDF]

				J. S. Stone and E. W Rubel Cellular studies of auditory hair cell regeneration in birds PNAS, October 24, 2000; 97(22): 11714 - 11721. [Abstract] [Full Text] [PDF]

				B. A. Hassan and H. J. Bellen Doing the MATH: is the mouse a good model for fly development? Genes & Dev., August 1, 2000; 14(15): 1852 - 1865. [Full Text]

				J. Zheng, J Shou, F Guillemot, R Kageyama, and W. Gao Hes1 is a negative regulator of inner ear hair cell differentiation Development, January 11, 2000; 127(21): 4551 - 4560. [Abstract] [PDF]

				M. Rones, K. McLaughlin, M Raffin, and M Mercola Serrate and Notch specify cell fates in the heart field by suppressing cardiomyogenesis Development, January 9, 2000; 127(17): 3865 - 3876. [Abstract] [PDF]

				A Zine, T. Van De Water, and F de Ribaupierre Notch signaling regulates the pattern of auditory hair cell differentiation in mammals Development, January 8, 2000; 127(15): 3373 - 3383. [Abstract] [PDF]

				R. Cornell and J. Eisen Delta signaling mediates segregation of neural crest and spinal sensory neurons from zebrafish lateral neural plate Development, January 7, 2000; 127(13): 2873 - 2882. [Abstract] [PDF]

				P. Lawlor, W. Marcotti, M. N. Rivolta, C. J. Kros, and M. C. Holley Differentiation of Mammalian Vestibular Hair Cells from Conditionally Immortal, Postnatal Supporting Cells J. Neurosci., November 1, 1999; 19(21): 9445 - 9458. [Abstract] [Full Text] [PDF]