Literature DB >> 20071533

Dynamic expression of axon guidance cues required for optic tract development is controlled by fibroblast growth factor signaling.

Karen Atkinson-Leadbeater1, Gabriel E Bertolesi, Carrie L Hehr, Christine A Webber, Paula B Cechmanek, Sarah McFarlane.   

Abstract

Axons are guided to their targets by molecular cues expressed in their environment. How is the presence of these cues regulated? Although some evidence indicates that morphogens establish guidance cue expression as part of their role in patterning tissues, an important question is whether morphogens are then required to maintain guidance signals. We found that fibroblast growth factor (FGF) signaling sustains the expression of two guidance cues, semaphorin3A (xsema3A) and slit1 (xslit1), throughout the period of Xenopus optic tract development. With FGF receptor inhibition, xsema3A and xslit1 levels were rapidly diminished, and retinal ganglion cell axons arrested in the mid-diencephalon, before reaching their target. Importantly, direct downregulation of XSema3A and XSlit1 mostly phenocopied this axon guidance defect. Thus, FGFs promote continued presence of specific guidance cues critical for normal optic tract development, suggesting a second later role for morphogens, independent of tissue patterning, in maintaining select cues by acting to regulate their transcription.

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Year:  2010        PMID: 20071533      PMCID: PMC6633001          DOI: 10.1523/JNEUROSCI.4165-09.2010

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  49 in total

1.  Embryonic expression and extracellular secretion of Xenopus slit.

Authors:  J H Chen; W Wu; H S Li; T Fagaly; L Zhou; J Y Wu; Y Rao
Journal:  Neuroscience       Date:  2000       Impact factor: 3.590

2.  FGF-8 stimulates neuronal differentiation through FGFR-4a and interferes with mesoderm induction in Xenopus embryos.

Authors:  Z Hardcastle; A D Chalmers; N Papalopulu
Journal:  Curr Biol       Date:  2000-11-30       Impact factor: 10.834

3.  Olfactory sensory axons expressing a dominant-negative semaphorin receptor enter the CNS early and overshoot their target.

Authors:  M J Renzi; T L Wexler; J A Raper
Journal:  Neuron       Date:  2000-11       Impact factor: 17.173

4.  The LIM-homeodomain gene family in the developing Xenopus brain: conservation and divergences with the mouse related to the evolution of the forebrain.

Authors:  I Bachy; P Vernier; S Retaux
Journal:  J Neurosci       Date:  2001-10-01       Impact factor: 6.167

5.  Neocortex patterning by the secreted signaling molecule FGF8.

Authors:  T Fukuchi-Shimogori; E A Grove
Journal:  Science       Date:  2001-09-20       Impact factor: 47.728

6.  Targeted electroporation in Xenopus tadpoles in vivo--from single cells to the entire brain.

Authors:  Kurt Haas; Kendall Jensen; Wun Chey Sin; Lisa Foa; Hollis T Cline
Journal:  Differentiation       Date:  2002-06       Impact factor: 3.880

7.  Slit1 and Slit2 cooperate to prevent premature midline crossing of retinal axons in the mouse visual system.

Authors:  Andrew S Plump; Lynda Erskine; Christelle Sabatier; Katja Brose; Charles J Epstein; Corey S Goodman; Carol A Mason; Marc Tessier-Lavigne
Journal:  Neuron       Date:  2002-01-17       Impact factor: 17.173

8.  FGF signaling and the anterior neural induction in Xenopus.

Authors:  I Hongo; M Kengaku; H Okamoto
Journal:  Dev Biol       Date:  1999-12-15       Impact factor: 3.582

9.  Evolutionarily conserved and divergent expression of members of the FGF receptor family among vertebrate embryos, as revealed by FGFR expression patterns in Xenopus.

Authors:  R Golub; Z Adelman; J Clementi; R Weiss; J Bonasera; M Servetnick
Journal:  Dev Genes Evol       Date:  2000-07       Impact factor: 0.900

10.  Semaphorin 3A elicits stage-dependent collapse, turning, and branching in Xenopus retinal growth cones.

Authors:  D S Campbell; A G Regan; J S Lopez; D Tannahill; W A Harris; C E Holt
Journal:  J Neurosci       Date:  2001-11-01       Impact factor: 6.167
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  20 in total

Review 1.  Development of the retina and optic pathway.

Authors:  Benjamin E Reese
Journal:  Vision Res       Date:  2010-07-18       Impact factor: 1.886

2.  Fibroblast growth factor receptor 1 signaling transcriptionally regulates the axon guidance cue slit1.

Authors:  Jung-Lynn Jonathan Yang; Gabriel E Bertolesi; Carrie L Hehr; Jillian Johnston; Sarah McFarlane
Journal:  Cell Mol Life Sci       Date:  2018-04-28       Impact factor: 9.261

3.  Dynamic responses of Xenopus retinal ganglion cell axon growth cones to netrin-1 as they innervate their in vivo target.

Authors:  Nicole J Shirkey; Colleen Manitt; Liliana Zuniga; Susana Cohen-Cory
Journal:  Dev Neurobiol       Date:  2012-04       Impact factor: 3.964

4.  Coupling of NF-protocadherin signaling to axon guidance by cue-induced translation.

Authors:  Louis C Leung; Vasja Urbančič; Marie-Laure Baudet; Asha Dwivedy; Timothy G Bayley; Aih Cheun Lee; William A Harris; Christine E Holt
Journal:  Nat Neurosci       Date:  2013-01-06       Impact factor: 24.884

5.  Nitric oxide as a putative retinal axon pathfinding and target recognition cue in Xenopus laevis.

Authors:  Sara Berman; Andrea Morris
Journal:  Impulse (Columbia)       Date:  2011-01-01

6.  Xenopus sonic hedgehog guides retinal axons along the optic tract.

Authors:  Laura Gordon; Matthew Mansh; Helen Kinsman; Andrea R Morris
Journal:  Dev Dyn       Date:  2010-11       Impact factor: 3.780

7.  Changes in fibroblast growth factor-2 and FGF receptors in the frog visual system during optic nerve regeneration.

Authors:  Mildred V Duprey-Díaz; Jonathan M Blagburn; Rosa E Blanco
Journal:  J Chem Neuroanat       Date:  2012-08-25       Impact factor: 3.052

8.  Heparan sulfate sugar modifications mediate the functions of slits and other factors needed for mouse forebrain commissure development.

Authors:  Christopher D Conway; Kathy M Howe; Nicole K Nettleton; David J Price; John O Mason; Thomas Pratt
Journal:  J Neurosci       Date:  2011-02-09       Impact factor: 6.167

9.  miR-124 acts through CoREST to control onset of Sema3A sensitivity in navigating retinal growth cones.

Authors:  Marie-Laure Baudet; Krishna H Zivraj; Cei Abreu-Goodger; Alistair Muldal; Javier Armisen; Cherie Blenkiron; Leonard D Goldstein; Eric A Miska; Christine E Holt
Journal:  Nat Neurosci       Date:  2011-12-04       Impact factor: 24.884

10.  Retinal Pigment Epithelium and Neural Retinal Progenitors Interact via Semaphorin 6D to Facilitate Optic Cup Morphogenesis.

Authors:  Paula Bernice Cechmanek; Carrie Lynn Hehr; Sarah McFarlane
Journal:  eNeuro       Date:  2021-05-06
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