Advertisement
JOURNAL ARTICLES
Pax2 contributes to inner ear patterning and optic nerve trajectory
M. Torres, E. Gomez-Pardo, P. Gruss
Development 1996 122: 3381-3391;

Summary

During gestation, the paired box-containing gene Pax2 is expressed in the mid-hindbrain area, developing eye and inner ear. We generated Pax2 null mutant mice, which show the requirement of Pax2 for the establishment of axonal pathways along the optic stalks and ventral diencephalon. In mutant brains, the optic tracts remain totally ipsilateral due to agenesis of the optic chiasma. Furthermore, Pax2 mutants show extension of the pigmented retina into the optic stalks and failure of the optic fissure to close resulting in coloboma. In the inner ear, Pax2 mutants show agenesis of the cochlea and the spiral ganglion, i.e., the parts of the organ responsible for auditory function and in whose primordium Pax2 is expressed. Our results identify Pax2 as a major regulator of patterning during organogenesis of the eye and inner ear and indicate its function in morphogenetic events required for closure of the optic fissure and neural tube.

Reference

    1. Ang S. L.,
    2. Rossant J.
    (1993) Anterior mesendoderm induces mouse Engrailed genes in explant cultures. Development 118, 139149
    OpenUrlAbstract
    1. Asano M.,
    2. Gruss P.
    (1992) Pax5 is expressed at the midbrain-hindbrain boundary during mouse development. Mech. Dev 39, 2939
    OpenUrlCrossRefPubMedWeb of Science
    1. Balling R.,
    2. Deutsch U.,
    3. Gruss P.
    (1988) undulated, a mutation affecting the development of the mouse skeleton has a point mutation in the paired box of Pax1. Cell 55, 531535
    OpenUrlCrossRefPubMedWeb of Science
    1. Bober E.,
    2. Franz T.,
    3. Arnold H. H.,
    4. Gruss P.,
    5. Tremblay P.
    (1994) Pax3 is required for the development of limb muscles: a possible role for the migration of dermomyotomal muscle progenitor cells. Development 120, 603612
    OpenUrlAbstract
    1. Chalepakis G.,
    2. Tremblay P.,
    3. Gruss P.
    (1992) Pax genes, mutants and molecular function. J. Cell Sci 16, 6167
    1. Deitcher D. L.,
    2. Fekete D. M.,
    3. Cepko C. L.
    (1994) Asymmetric expression of a novel homeobox gene in vertebrate sensory organs. J. Neurosci 14, 486498
    OpenUrlAbstract
    1. Dressler G. R.,
    2. Deutsch U.,
    3. Chowdhury K.,
    4. Nornes H. O.,
    5. Gruss P.
    (1990) Pax2, anew paired-box-containinggene and its expression in the developing excretory system. Development 109, 787795
    OpenUrlAbstract/FREE Full Text
    1. Dressler G. R.,
    2. Douglas E. C.
    (1992) Pax2 is a DNA-binding protein expressed in embryonic kidney and Wilms tumor. Proc. Nat. Acad. Sci. USA 89, 11791183
    OpenUrlAbstract/FREE Full Text
    1. Echelard Y.,
    2. Epstein D. J.,
    3. St-Jacques B.,
    4. Shen L.,
    5. Mohler J.,
    6. McMahon J. A.,
    7. McMahon A. P.
    (1993) Sonic hedgehog, a member of a family of putative signalling molecules, is implicated in the regulation of CNS polarity. Cell 75, 141730
    OpenUrlCrossRefPubMedWeb of Science
    1. Ekker M.,
    2. Akimenko M. A.,
    3. Bremiller R.,
    4. Westerfield M.
    (1992) Regional expression of three homeobox transcripts in the inner ear of zebrafish embryos. Neuron 9, 2735
    OpenUrlCrossRefPubMedWeb of Science
    1. Ekker S. C.,
    2. Ungar A. R.,
    3. Greenstein P.,
    4. Kessler D. P.,
    5. Porter J. A.,
    6. Moon R. T.,
    7. Beachy P. B.
    (1995) Patterning activities of the vertebrate hedgehog proteins in the developing eye and brain. Current Biology 5, 944955
    OpenUrlCrossRefPubMedWeb of Science
    1. Epstein D. J.,
    2. Vekemans M.,
    3. Gros P.
    (1991) Splotch (Sp2h), a mutation affecting the development of the mouse neural tube, shows a deletion within the paired homeodomain of Pax3. Cell 67, 767774
    OpenUrlCrossRefPubMedWeb of Science
    1. Fietz M. J.,
    2. Concordet J. P.,
    3. Barbosa R.,
    4. Johnson R.,
    5. Krauss S.,
    6. McMahon A. P.,
    7. Tabin C.,
    8. Ingham P. W.
    (1994) The hedgehog gene family in Drosophila and vertebrate development. Development 1994, 4351
    1. Godement P.,
    2. Salaun J.,
    3. Mason C. A.
    (1990) Retinal axon pathfinding in the optic chiasm: divergence of crossed and uncrossed fibers. Neuron 5, 173186
    OpenUrlCrossRefPubMedWeb of Science
    1. Gruss P.,
    2. Walther C.
    (1992) Pax in development. Cell 69, 719722
    OpenUrlCrossRefPubMedWeb of Science
    1. Hadler G.,
    2. Callaerts P.,
    3. Gehring W. J.
    (1995) Induction of ectopic eyes by targeted expression of the eyeless gene in Drosophila. Science 267, 17881792
    OpenUrlAbstract/FREE Full Text
    1. Harris W. A.
    (1989) Local positional cues in the neuroepithelium guide retinal axons in embryonic Xenopus brain. Nature 339, 218221
    OpenUrlCrossRefPubMed
    1. Hill R. E.,
    2. Favor J.,
    3. Hogan B. L. M.,
    4. Ton C. C. T.,
    5. Saunders G. F.,
    6. Hanson I. M.,
    7. Prosser J.,
    8. Jordan T.,
    9. Hastie N. D.,
    10. Van Heyningen V.
    (1991) Mouse Small eye results from mutations in a paired-like homeobox-containing gene. Nature 354, 522525
    OpenUrlCrossRefPubMed
    1. Horsburgh G. M.,
    2. Sefton A. J.
    (1986) The early development of the optic nerve of the rat. J. Comp. Neurol 243, 547560
    OpenUrlCrossRefPubMedWeb of Science
    1. Joyner A. L.,
    2. Herrup K.,
    3. Auerbach A.,
    4. Davis C. A.,
    5. Rossant J.
    (1991) Subtle Cerebellar Phenotype in mice homozygous for a targeted deletion of the En-2 Homeobox. Science 251, 12391243
    OpenUrlAbstract/FREE Full Text
    1. Keller S. A.,
    2. Jones J. M.,
    3. Boyle A.,
    4. Barrow L. L.,
    5. Killen P. D.,
    6. Green D. G.,
    7. Kapousta N. V.,
    8. Hitchcock P. F.,
    9. Swank R. T.,
    10. Meisler M. H.
    (1994) Kidney and retinal defects (Krd), a transgene-induced mutation with a deletion of mouse chromosome 19 that includes the Pax2 locus. Genomics 23, 309320
    OpenUrlCrossRefPubMedWeb of Science
    1. Li C. W.,
    2. Van de Water T. R.,
    3. Ruben R. J.
    (1978) The fate mapping of the eleventh and twelfth day mouse otocyst: an in vitro study of the sites of origin of the embryonic inner ear sensory structures. J. Morph 157, 249268
    OpenUrlCrossRefPubMedWeb of Science
    1. Macdonald R.,
    2. Barth K. A.,
    3. Xu Q.,
    4. Holder N.,
    5. Mikkola I.,
    6. Wilson S. W.
    (1995) Midline signalling is required for Pax gene regulation and patterning of the eyes. Development 121, 32673278
    OpenUrlAbstract
    1. Marcus R. C.,
    2. Mason C. A.
    (1995) The first retinal axon growth in the mouse optic chiasm: Axonal Patterning and the cellular environment. J. Neurosci 15, 63896402
    OpenUrlAbstract/FREE Full Text
    1. McMahon A. P.,
    2. Bradley A.
    (1990) The Wnt-1 (int-1) proto-oncogene is required for development of a large region of the mouse brain. Cell 62, 10731085
    OpenUrlCrossRefPubMedWeb of Science
    1. Nornes H. O.,
    2. Dressler G. R.,
    3. Knapik E. W.,
    4. Deutsch U.,
    5. Gruss P.
    (1990) Spatially and temporally restricted expression of Pax2 during murine neurogenesis. Development 109, 797809
    OpenUrlAbstract/FREE Full Text
    1. Puschel A. W.,
    2. Westerfield M.,
    3. Dressler G. R.
    (1992) Comparativeanalysis of Pax2 protein distributions during neurulation in mice and Zebrafish. Mech. Dev 38, 197208
    OpenUrlCrossRefPubMedWeb of Science
    1. Quinn J. C.,
    2. West J. D.,
    3. Hill R. E.
    (1996) Multiple functions for Pax6 in mouse eye and nasal development. Genes Dev 10, 435446
    OpenUrlAbstract/FREE Full Text
    1. Rinkwitz-Brandt S.,
    2. Justus M.,
    3. Oldenettel I.,
    4. Arnold H. H.,
    5. Bober E.
    (1995) Distinct temporal expression of mouse Nkx-5. 1 and Nkx-5. 2 homeobox genes during brain and ear development. Mech. Dev 52, 371381
    OpenUrlCrossRefPubMedWeb of Science
    1. Rotwich D. H.,
    2. McMahon A. P.
    (1995) Pax2 expression in the murine neural plate precedes and encompasses the expression domains of Wnt-1 and En-1. Mech. Dev 52, 38
    OpenUrlCrossRefPubMedWeb of Science
    1. Saha M. S.,
    2. Servetnick M.,
    3. Grainger R. M.
    (1992) Vertebrate eye development. Curr. Opin. Genet. Dev 2, 582588
    OpenUrlCrossRefPubMed
    1. Sanyanusin P.,
    2. Schimenti L. A.,
    3. McNoe L. A.,
    4. Ward T. A.,
    5. Pierpont M. E. M.,
    6. Sullivan M. J.,
    7. Dobyns W. B.,
    8. Eccles M. R.
    (1995) Mutation of the Pax2 gene in a family with optic nerve colobomas, renal anomalies and vesiculoureteral reflux. Nature Genet 9, 358363
    OpenUrlCrossRefPubMedWeb of Science
    1. Silver J.,
    2. Sapiro J.
    (1981) Axonal guidance during development of the optic nerve: the role of pigmented epithelia and other extrinsic factors. J. Comp. Neurol 202, 521538
    OpenUrlCrossRefPubMedWeb of Science
    1. Strachan T.,
    2. Read A. P.
    (1994) Pax genes. Curr. Op. Dev. Biol 4, 427438
    1. Streeter G. L.
    (1914) Experimental evidence concerning the determination of posture of the membranous labyrinth in amphibian embryos. J. Exp. Zool 16, 149176
    OpenUrlCrossRefWeb of Science
    1. Sretavan D. W.,
    2. Feng L.,
    3. Pure E.,
    4. Reichardt L. F.
    (1994) Embryonic neurons of the developing optic chiasm express L1 and CD44, cell surface molecules with opposing effects on retinal axon growth. Neuron 12, 957975
    OpenUrlCrossRefPubMedWeb of Science
    1. Ton C. C. T.,
    2. Hirvonen H.,
    3. Miwa H.,
    4. Weil M. M.,
    5. Monaghan P.,
    6. Jordan T.,
    7. Van Heyningen V.,
    8. Hastie N. D.,
    9. Meijers-HeijBoer H.,
    10. Dreschler M.,
    11. Royer-Pokora B.,
    12. Collins F.,
    13. Swaroop A.,
    14. Strong L. C.,
    15. Saunders G. F.
    (1991) Positional cloning and characterization of a paired box-and homeobox-containing gene from the Aniridia region. Cell 67, 10591074
    OpenUrlCrossRefPubMedWeb of Science
    1. Torres M.,
    2. Gomez-Pardo E.,
    3. Dressler G. R.,
    4. Gruss P.
    (1995) Pax2 controls multiple steps of urogenital development. Development 121, 40574065
    OpenUrlAbstract
    1. Urbanek P.,
    2. Wang Z.,
    3. Fetka I.,
    4. Wagner E. F.,
    5. Busslinger M.
    (1994) Complete block of early B cell differentiation and altered patterning of the posterior midbrain in mice lacking Pax5 /BSAP. Cell 79, 901912
    OpenUrlCrossRefPubMedWeb of Science
    1. Wallin J.,
    2. Eibel H.,
    3. Neubuser A.,
    4. Wilting J.,
    5. Koseki H.,
    6. Balling R.
    (1996) Pax1 is expressed during development of the thymus epithelium and is required for normal T-cell maturation. Development 122, 2330
    OpenUrlAbstract
    1. Walther C.,
    2. Gruss P.
    (1991) Pax6, a murine paired box gene, is expressed in the developing CNS. Development 113, 14351449
    OpenUrlAbstract
    1. Wilkinson D. G.,
    2. Bailes J. A.,
    3. McMahon A. P.
    (1987) Expression of the proto-oncogene int-1 is restricted to specific neural cells in the developing mouse embryo. Cell 50, 7988
    OpenUrlCrossRefPubMedWeb of Science
    1. Wurst W.,
    2. Auerbach A. B.,
    3. Joyner A. L.
    (1994) Multiple developmental defects in Engrailed-1 mutant mice: an early mid-hindbrain deletion and patterning defects in forelimbs and sternum. Development 120, 20652075
    OpenUrlAbstract
Back to top

 Download PDF

Email
JOURNAL ARTICLES
Pax2 contributes to inner ear patterning and optic nerve trajectory
M. Torres, E. Gomez-Pardo, P. Gruss
Development 1996 122: 3381-3391;
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

Kathryn Virginia Anderson (1952-2020)

Developmental geneticist Kathryn Anderson passed away at home on 30 November 2020. Tamara Caspary, a former postdoc and friend, remembers Kathryn and her remarkable contribution to developmental biology.

Zooming into 2021

In a new Editorial, Editor-in-Chief James Briscoe and Executive Editor Katherine Brown reflect on the triumphs and tribulations of the last 12 months, and look towards a hopefully calmer and more predictable year.

Read & Publish participation extends worldwide

Over 60 institutions in 12 countries are now participating in our Read & Publish initiative. Here, James Briscoe explains what this means for his institution, The Francis Crick Institute. 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. Sign up to join our next session:

10 February
Time: 13:00 (GMT)
Chaired by: preLights