Advertisement
JOURNAL ARTICLES
her4, a zebrafish homologue of the Drosophila neurogenic gene E(spl), is a target of NOTCH signalling
C. Takke, P. Dornseifer, E. v Weizsacker, J.A. Campos-Ortega
Development 1999 126: 1811-1821;

Summary

her4 encodes a zebrafish bHLH protein of the hairy-E(spl) family. The gene is transcribed in a complex pattern in the developing nervous system and in the hypoblast. During early neurogenesis, her4 expression domains include the regions of the neural plate from which primary neurons arise, suggesting that the gene is involved in directing their development. Indeed, misexpression of specific her4 variants leads to a reduction in the number of primary neurons formed. The amino-terminal region of her4, including the basic domain, and the region between the putative helix IV and the carboxy-terminal tetrapeptide wrpw are essential for this effect, since her4 variants lacking either of these regions are non-functional. However, the carboxy-terminal wrpw itself is dispensable. We have examined the interrelationships between deltaD, deltaA, notch1, her4 and neurogenin1 by means of RNA injections. her4 is involved in a regulatory feedback loop which modulates the activity of the proneural gene neurogenin, and as a consequence, of deltaA and deltaD. Activation of notch1 leads to strong activation of her4, to suppression of neurogenin transcription and, ultimately, to a reduction in the number of primary neurons. These results suggest that her4 acts as a target of notch-mediated signals that regulate primary neurogenesis.

Reference

    1. Akazawa C.,
    2. Sasai Y.,
    3. Nakanishi S.,
    4. Kageyama R.
    (1992) Molecular characterization of a rat negative regulator with a basic helix-loop-helix structure predominantly expressed in the developing nervous system. J. Biol. Chem 267, 2187921885
    OpenUrlAbstract/FREE Full Text
    1. Appel B.,
    2. Eisen J. S.
    (1998) Regulation of neuronal specification in the zebrafish spinal cord by Delta function. Development 125, 371380
    OpenUrlAbstract
    1. Bailey A. M.,
    2. Posakony J. W.
    (1995) Suppressor of hairless directly activates transcription of Enhancer of split complex genes in response to Notch receptor activity. Genes Dev 9, 26092622
    OpenUrlAbstract/FREE Full Text
    1. Bierkamp C.,
    2. Campos-Ortega J. A.
    (1993) A zebrafish homologue of the Drosophila neurogenic gene Notch and its pattern of transcription during early embryogenesis. Mech. Dev 43, 87100
    OpenUrlCrossRefPubMedWeb of Science
    1. Blader P.,
    2. Fischer N.,
    3. Gradwohl G.,
    4. Guillemont F.,
    5. Strahle U.
    (1997) The activity of neurogenin1 is controlled by local cues in the zebrafish embryo. Development 124, 45574569
    OpenUrlAbstract
    1. Chitnis A.,
    2. Henrique D.,
    3. Lewis J.,
    4. Ish-Horowicz D.,
    5. Kintner C.
    (1995) Primary neurogenesis in Xenopus embryos regulated by a homologue of the Drosophila neurogenic gene Delta. Nature 375, 761766
    OpenUrlCrossRefPubMedWeb of Science
    1. Chitnis A.,
    2. Kintner C.
    (1996) Sensitivity of proneural genes to lateral inhibition affects the pattern of primary neurons in Xenopus embryos. Development 122, 22952301
    OpenUrlAbstract
    1. Coffman C.,
    2. Skoglund P.,
    3. Harris W. A.,
    4. Kintner C.
    (1990) Expression of an extracellular deletion of Xotch diverts cell fates in Xenopus embryos. Cell 21, 659671
    OpenUrl
    1. Dawson S. R.,
    2. Turner D. L.,
    3. Weintraub H.,
    4. Parkhurst S. M.
    (1995) Specificity for the Hairy/Enhancer of split basic helix-loop-helix (bHLH) proteins maps outside the bHLH domain and suggests two separable modes of transcriptional repression. Mol. Cell. Biol 15, 69236931
    OpenUrlAbstract/FREE Full Text
    1. de la Concha A.,
    2. Dietrich U.,
    3. Weigel D.,
    4. Campos-Ortega J. A.
    (1988) Functional interactions of neurgenic genes of Drosophila melanogaster. Genetics 118, 499508
    OpenUrlAbstract/FREE Full Text
    1. Delidakis C.,
    2. Artavanis-Tsakonas S.
    (1992) The Enhancer of split [E(spl)] locus of Drosophila encodes seven independent helix-loop-helix proteins. Proc. Natl. Acad. Sci. USA 89, 87318735
    OpenUrlAbstract/FREE Full Text
    1. Devoto S. H.,
    2. Melançon E.,
    3. Eisen J. S.,
    4. Westerfield M.
    (1996) Identification of seperate slow and fast muscle precursor cells in vivo, prior to somite formation. Development 122, 33713380
    OpenUrlAbstract
    1. Dornseifer P.,
    2. Takke C.,
    3. Campos-Ortega J. A.
    (1997) Overexpression of a zebrafish homologue of the Drosophila neurogenic gene Delta perturbs differentiation of primary neurons and somite development. Mech. Dev 63, 159171
    OpenUrlCrossRefPubMedWeb of Science
    1. Fisher A. L.,
    2. Ohsako S.,
    3. Caudy M.
    (1996) The WRPW motif of the hairy-related basic helix-loop-helix repressor proteins acts as a 4-amino-acid transcription repression and protein-protein interaction domain. Mol. Cell. Biol 16, 26702677
    OpenUrlAbstract/FREE Full Text
    1. Giebel B.,
    2. Campos-Ortega J. A.
    (1997) Functional dissection of the Drosophila ENHANCEROFSPLITprotein, a suppressor of neurogenesis. Proc. Natl. Acad. Sci. USA 94, 62506254
    OpenUrlAbstract/FREE Full Text
    1. Greenwald I.
    (1998) LIN 12/Notch signaling: lessons from worms and flies. Genes Dev 12, 17511762
    OpenUrlFREE Full Text
    1. Haddon C.,
    2. Smithers L.,
    3. Schneider-Maunoury S.,
    4. Coche T.,
    5. Henrique D.,
    6. Lewis J.
    (1998) Multiple Delta genes and lateral inhibition in zebrafish primary neurogenesis. Development 125, 359370
    OpenUrlAbstract
    1. Haenlin M.,
    2. Kunisch M.,
    3. Kramatschek B.,
    4. Campos-Ortega J. A.
    (1994) Genomic regions regulating early embryonic expression of the Drosophila neurogenic gene Delta. Mech. Dev 47, 99110
    OpenUrlCrossRefPubMed
    1. Heitzler P.,
    2. Bourouis M.,
    3. Ruel L.,
    4. Carteret C.,
    5. Simpson P.
    (1996) Genes of the Enhancer of split and achaete-scute complexes are required for a regulatory loop between Notch and Delta during lateral signalling in Drosophila. Development 122, 161171
    OpenUrlAbstract
    1. Heitzler P.,
    2. Simpson P.
    (1991) The choice of cell fate in the epidermis of Drosophila. Cell 64, 10831092
    OpenUrlCrossRefPubMedWeb of Science
    1. Henrique D.,
    2. Hirsinger E.,
    3. Adam J.,
    4. Le Roux I.,
    5. Pourquie O.,
    6. Ish-Horowicz D.,
    7. Lewis J.
    (1997) Maintenance of neuroepithelial progenitor cells by Delta-Notch signalling in the embryonic chick retina. Curr. Biol 7, 661670
    OpenUrlCrossRefPubMedWeb of Science
    1. Hinz U.,
    2. Giebel B.,
    3. Campos-Ortega J. A.
    (1994) The basic-helix-loop-helix domain of Drosophila lethal of scute protein is sufficient for proneural function and activates neurogenic genes. Cell 76, 7787
    OpenUrlCrossRefPubMedWeb of Science
    1. Inoue A.,
    2. Takahashi M.,
    3. Hatta K.,
    4. Hotta Y.,
    5. Okamoto H.
    (1994) Developmental regulation of islet-1 mRNA expression during neuronal differentiation in embryonic zebrafish. Dev. Dyn 199, 111
    OpenUrlCrossRefPubMedWeb of Science
    1. Kimmel C. B.,
    2. Ballard W. W.,
    3. Kimmel S. R.,
    4. Ullmann B.,
    5. Schilling T.
    (1995) Stages of embryonic development of the zebrafish. Dev. Dyn 203, 253310
    OpenUrlCrossRefPubMedWeb of Science
    1. Kim C.,
    2. Ueshima E.,
    3. Muraoka O.,
    4. Tanaka H.,
    5. Yeo S.,
    6. Huh T.,
    7. Miki N.
    (1996) Zebrafish elav/ Hu(C) homologue as a very early neuronal marker. Neuroscience Lett 216, 109112
    OpenUrlCrossRefPubMedWeb of Science
    1. Klämbt C.,
    2. Knust E.,
    3. Tietze K.,
    4. Campos-Ortega J. A.
    (1989) Closely related transcripts encoded by the neurogenic gene complex Enhancer of split of Drosophila melanogaster. EMBO J 8, 203210
    OpenUrlPubMedWeb of Science
    1. Knust E.,
    2. Schrons H.,
    3. Grawe F.,
    4. Campos-Ortega J. A.
    (1992) Seven genes of the Enhancer of split complex of Drosophila melanogaster encode helix-loop-helix proteins. Genetics 132, 505518
    OpenUrlAbstract/FREE Full Text
    1. Korzh V.,
    2. Edlund T.,
    3. Thor S.
    (1993) Zebrafish primary neurons initiate expression of the LIM homeodomain protein Isl-1 at the end of gastrulation. Development 118, 417425
    OpenUrlAbstract
    1. Kramatschek B.,
    2. Campos-Ortega J. A.
    (1994) Neuroectodermal transcription of the Drosophila neurogenic genes E(spl) and HLH-m5 is regulated by proneural genes. Development 120, 815826
    OpenUrlAbstract
    1. Kunisch M.,
    2. Haenlin M.,
    3. Campos-Ortega J. A.
    (1994) Lateral inhibition mediated by the Drosophila neurogenic gene Delta is enhanced by proneural proteins. Proc. Natl. Acad. Sci. USA 91, 1013910143
    OpenUrlAbstract/FREE Full Text
    1. Lardelli M.,
    2. Williams R.,
    3. Lendahl U.
    (1995) Notch -related genes in animal development. Int. J. Dev. Biol 39, 769780
    OpenUrlPubMedWeb of Science
    1. Lecourtois M.,
    2. Schweisguth F.
    (1995) The neurogenic SUPPRESSOROF HAIRLESSDNA-binding protein mediates the transcriptional activation of the Enhancer of split complex genes triggered by Notch signaling. Genes Dev 9, 25982608
    OpenUrlAbstract/FREE Full Text
    1. Lieber T.,
    2. Kidd S.,
    3. Alcamo E.,
    4. Corbin V.,
    5. Young M. W.
    (1993) Antineurogenic phenotypes induced by truncated Notch proteins indicate a role in signal transduction and may point to a novel function for Notch in nuclei. Genes Dev 7, 19491965
    OpenUrlAbstract/FREE Full Text
    1. Ma Q.,
    2. Kintner C.,
    3. Anderson D. A.
    (1996) Identification of neurogenin, a vertebrate neuronal determination gene. Cell 87, 4352
    OpenUrlCrossRefPubMedWeb of Science
    1. Miller J. B.,
    2. Teal S. B.,
    3. Stockdale F. E.
    (1989) Evolutionarily conserved sequences of striated muscle myosin heavy chain isoforms. Epitope mapping by cDNA expression. J. Biol. Chem 264, 1312213130
    OpenUrlAbstract/FREE Full Text
    1. Murre C.,
    2. Schonleber McCaw P.,
    3. Vaessin H.,
    4. Caudy M.,
    5. Jan L. Y.,
    6. Jan Y. N.,
    7. Cabrera C. V.,
    8. Buskin J. N.,
    9. Hauschka S. D.,
    10. Lassar A. B.,
    11. Weintraub H.,
    12. Baltimore D.
    (1989) Interactions between heterologous helix-loop-helix proteins generate complexes that bind specifically to a common DNA sequence. Cell 58, 537544
    OpenUrlCrossRefPubMedWeb of Science
    1. Nakao K.,
    2. Campos-Ortega J. A.
    (1996) Persistent expression of genes of the Enhancer of split complex suppresses neural development in Drosophila. Neuron 16, 275286
    OpenUrlCrossRefPubMedWeb of Science
    1. Oellers N.,
    2. Dehio M.,
    3. Knust E.
    (1994) bHLH proteins encoded by the Enhancer of split complex of Drosophila negatively interfere with transcriptional activation mediated by proneural genes. Mol. Gen. Genet 244, 465473
    OpenUrlCrossRefPubMedWeb of Science
    1. Palmeirim I.,
    2. Henrique D.,
    3. Ish-Horowicz D.,
    4. Pourquie O.
    (1997) Avian hairy gene expression identifies a molecular clock linked to vertebrate segmentation and somitogenesis. Cell 91, 639648
    OpenUrlCrossRefPubMedWeb of Science
    1. Paroush Z.,
    2. Finley R. Jr..,
    3. Kidd T.,
    4. Wainwright S. M.,
    5. Ingham P. W.,
    6. Brent R.,
    7. Ish-Horowicz D.
    (1994) Groucho is required for Drosophila neurogenesis, segmentation, and sex determination and interacts directly with hairy-related bHLH proteins. Cell 79, 805815
    OpenUrlCrossRefPubMedWeb of Science
    1. Rebay I.,
    2. Fehon R. G.,
    3. Artavanis-Tsakonas S.
    (1993) Specific truncations of Drosophila Notch define dominant activated and dominant negative forms of the receptor. Cell 74, 319329
    OpenUrlCrossRefPubMedWeb of Science
    1. Rushlow C. A.,
    2. Hogan A.,
    3. Pinchin S. M.,
    4. Howe K. M.,
    5. Lardelli M.,
    6. Ish-Horowicz D.
    (1989) The Drosophila hairy protein acts in both segmentation and bristle patterning and shows homology to N-myc. EMBO J 8, 30953103
    OpenUrlPubMedWeb of Science
    1. Sasai Y.,
    2. Kageyama R.,
    3. Tagawa Y.,
    4. Shigemoto R.,
    5. Nakanishi S.
    (1992) Two mammalian helix-loop-helix factors structurally related to Drosophila hairy and Enhancer of split. Genes Dev 6, 26202634
    OpenUrlAbstract/FREE Full Text
    1. Sawai S.,
    2. Campos-Ortega J. A.
    (1997) A zebrafish Id homologue and its pattern of expression during embryogenesis. Mech. Dev 65, 175185
    OpenUrlCrossRefPubMedWeb of Science
    1. Singson A.,
    2. Leviten M. W.,
    3. Bang A. G.,
    4. Hua X. H.,
    5. Posakony J. W.
    (1994) Direct downstream targets of proneural activators in the imaginal disc include genes involved in lateral inhibitory signaling. Genes Dev 8, 20582071
    OpenUrlAbstract/FREE Full Text
    1. Struhl G.,
    2. Fitzgerald K.,
    3. Greenwald I.
    (1993) Intrinsic activity of the Lin-12 and Notch intracellular domains in vivo. Cell 74, 331345
    OpenUrlCrossRefPubMedWeb of Science
    1. Tata F.,
    2. Hartley D. A.
    (1995) Inhibition of cell fate in Drosophila by Enhancer of split genes. Mech. Dev 51, 305315
    OpenUrlCrossRefPubMed
    1. Technau G. M.,
    2. Campos-Ortega J. A.
    (1987) Cell autonomy of expression of neurogenic genes of Drosophila melanogaster. Proc. Natl. Acad. Sci. USA 84, 45004504
    OpenUrlAbstract/FREE Full Text
    1. Tietze K.,
    2. Oellers N.,
    3. Knust E.
    (1992) Enhancer of splitD, a dominant mutation of Drosophila, and its use in the study of functional domains of a helix-loop-helix protein. Proc. Natl. Acad. Sci. USA 89, 61526156
    OpenUrlAbstract/FREE Full Text
    1. Turner D. L.,
    2. Weintraub H.
    (1994) Expression of achaete-scute homologue 3 in Xenopus embryos converts ectodermal cells to a neural fate. Genes Dev 8, 14341447
    OpenUrlAbstract/FREE Full Text
    1. Wainwright S. M.,
    2. Ish-Horowicz D.
    (1992) Point mutations in the Drosophilahairy gene demonstrate in vivo requirements for basic, helix-loop-helix, and WRPW domains. Mol. Cell. Biol 12, 24752483
    OpenUrlAbstract/FREE Full Text
    1. Wettstein D. A.,
    2. Turner D. L.,
    3. Kintner C.
    (1997) The Xenopus homolog of DrosophilaSuppressor of Hairless mediates Notch signaling during primary neurogenesis. Development 124, 693702
    OpenUrlAbstract
    1. Wulbeck C.,
    2. Fromental-Ramain C.,
    3. Campos-Ortega J. A.
    (1994) The HLH domain of a zebrafish HE12 homologue can partially substitute for functions of the HLH domain of Drosophila DAUGHTERLESS. Mech. Dev 46, 7385
    OpenUrlCrossRefPubMed
Back to top

 Download PDF

Email
JOURNAL ARTICLES
her4, a zebrafish homologue of the Drosophila neurogenic gene E(spl), is a target of NOTCH signalling
C. Takke, P. Dornseifer, E. v Weizsacker, J.A. Campos-Ortega
Development 1999 126: 1811-1821;
del.icio.us logo Digg logo Reddit logo Twitter logo CiteULike logo Facebook logo Google logo Mendeley logo
Citation Tools
Alerts

Article navigation

Other journals from The Company of Biologists

Advertisement

An interview with Swathi Arur

Swathi Arur joined the team at Development as an Academic Editor in 2020. Her lab uses multidisciplinary approaches to understand female germline development and fertility. We met with her over Zoom to hear more about her life, her career and her love for C. elegans.

Jim Wells and Hanna Mikkola join our team of Editors

We are pleased to welcome James (Jim) Wells and Hanna Mikkola to our team of Editors. Jim joins us a new Academic Editor, taking over from Gordan Keller, and Hanna joins our team of Associate Editors. Find out more about their research interests and areas of expertise.

New funding scheme supports sustainable events

As part of our Sustainable Conferencing Initiative, we are pleased to announce funding for organisers that seek to reduce the environmental footprint of their event. The next deadline to apply for a Scientific Meeting grant is 26 March 2021.

Read & Publish participation continues to grow

“I’d heard of Read & Publish deals and knew that many universities, including mine, had signed up to them but I had not previously understood the benefits that these deals bring to authors who work at those universities.”

Professor Sally Lowell (University of Edinburgh) shares her experience of publishing Open Access as part of our growing Read & Publish initiative. We now have over 150 institutions in 15 countries and four library consortia taking part – find out more and view our full list of participating institutions.

Upcoming special issues

Imaging Development, Stem Cells and Regeneration
Submission deadline: 30 March 2021
Publication: mid-2021

The Immune System in Development and Regeneration
Guest editors: Florent Ginhoux and Paul Martin
Submission deadline: 1 September 2021
Publication: Spring 2022

Both special issues welcome Review articles as well as Research articles, and will be widely promoted online and at key global conferences.

Development presents...

Our successful webinar series continues into 2021, with early-career researchers presenting their papers and a chance to virtually network with the developmental biology community afterwards. Here, Michèle Romanos talks about her new preprint, which mixes experimentation in quail embryos and computational modelling to understand how heterogeneity in a tissue influences cell rate.

Save your spot at our next session:

10 March
Time: 9:00 (GMT)
Chaired by: Thomas Lecuit

Join our mailing list to receive news and updates on the series.