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Letter
Nature 453, 401-405 (15 May 2008) | doi:10.1038/nature06876; Received 28 November 2007; Accepted 22 February 2008; Published online 30 April 2008
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Genetic evidence that FGFs have an instructive role in limb proximal–distal patterning
Francesca V. Mariani1,2,3, Christina P. Ahn1,2 & Gail R. Martin1
- Department of Anatomy and Program in Developmental Biology, School of Medicine, University of California at San Francisco, San Francisco, California 94158-2324, USA
- These authors contributed equally to this work.
- Present address: Broad Center for Stem Cell Research and Regenerative Medicine, Keck School of Medicine, University of Southern California, Los Angeles, California 90033, USA.
Correspondence to: Gail R. Martin1 Correspondence and requests for materials should be addressed to G.R.M. (Email: gail.r.martin@ucsf.edu).
Abstract
Half a century ago, the apical ectodermal ridge (AER) at the distal tip of the tetrapod limb bud was shown to produce signals necessary for development along the proximal–distal (P–D) axis, but how these signals influence limb patterning is still much debated1, 2. Fibroblast growth factor (FGF) gene family members are key AER-derived signals3, 4, with Fgf4, Fgf8, Fgf9 and Fgf17 expressed specifically in the mouse AER5. Here we demonstrate that mouse limbs lacking Fgf4, Fgf9 and Fgf17 have normal skeletal pattern, indicating that Fgf8 is sufficient among AER-FGFs to sustain normal limb formation. Inactivation of Fgf8 alone causes a mild skeletal phenotype6, 7; however, when we also removed different combinations of the other AER-FGF genes, we obtained unexpected skeletal phenotypes of increasing severity, reflecting the contribution that each FGF can make to the total AER-FGF signal. Analysis of the compound mutant limb buds revealed that, in addition to sustaining cell survival, AER-FGFs regulate P–D-patterning gene expression during early limb bud development, providing genetic evidence that AER-FGFs function to specify a distal domain and challenging the long-standing hypothesis that AER-FGF signalling is permissive rather than instructive for limb patterning. We discuss how a two-signal model for P–D patterning can be integrated with the concept of early specification to explain the genetic data presented here.
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