Skeletal development is regulated by fibroblast growth factor receptor 1 signalling dynamics

doi:10.1242/dev.00940

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Development ePress online publication date 10 Dec 2003
doi: 10.1242/dev.00940

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Research article

Skeletal development is regulated by fibroblast growth factor receptor 1 signalling dynamics

Mohammad K. Hajihosseini, Maria D. Lalioti, Sandrine Arthaud, Helen R. Burgar, Jill M. Brown, Stephen R.F. Twigg, Andrew O.M. Wilkie, and John K. Heath^*
^* Author for correspondence (e-mail: j.k.heath{at}bham.ac.uk)

Ligand-dependent signalling pathways have been characterisedas having morphogen properties where there is a quantitativerelationship between receptor activation and response, or thresholdcharacteristics in which there is a binary switch in responseat a fixed level of receptor activation. Here we report theuse of a bacterial artificial chromosome (BAC)-based transgenicsystem in which a hypermorphic mutation has been introducedinto the murine Fgfr1 gene. These mice exhibit cranial sutureand sternal fusions that are exacerbated when the BAC copy numberis increased. Surprisingly, increasing mutant BAC copy numberalso leads to the de novo appearance of digit I polydactylyin the hind limb and transformations of the vertebrae. Polydactylyis accompanied by a reduction of programmed cell death in thedeveloping hind limb. Candidate gene analysis reveals downregulationof Dkk1 in the digit I field and upregulation of Wnt5a and Hoxd13.These findings show that Fgfr1-mediated developmental pathwaysexhibit differing signalling dynamics, whereby development ofthe cranial sutures and sternum follows a morphogen mode, whereasdevelopment of the vertebral column and the hind limbs has thresholdsignalling properties.

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