A dual role of FGF10 in proliferation and coordinated migration of epithelial leading edge cells during mouse eyelid development

doi:10.1242/dev.01892

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Development ePress online publication date 15 Jun 2005
doi: 10.1242/dev.01892

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Research article

A dual role of FGF10 in proliferation and coordinated migration of epithelial leading edge cells during mouse eyelid development

Hirotaka Tao, Miyuki Shimizu, Ryo Kusumoto, Katsuhiko Ono, Sumihare Noji, and Hideyo Ohuchi^*
^* Author for correspondence (e-mail: hohuchi{at}bio.tokushima-u.ac.jp)

The development of the eyelid requires coordinated cellularprocesses of proliferation, cell shape changes, migration andcell death. Mutant mice deficient in the fibroblast growth factor10 (Fgf10) gene exhibit open-eyelids at birth. To elucidatethe roles of FGF10 during eyelid formation, we examined theexpression pattern of Fgf10 during eyelid formation and thephenotype of Fgf10-null eyelids in detail. Fgf10 is expressedby mesenchymal cells just beneath the protruding epidermal cellsof the nascent eyelid. However, Fgf10-null epithelial cellsrunning though the eyelid groove do not exhibit typical cuboidshape or sufficient proliferation. Furthermore, peridermal clumpsare not maintained on the eyelid leading edge, and epithelialextension does not occur. At the cellular level, the accumulationof actin fibers is not observed in the mutant epithelial leadingedge. The expression of activin/inhibin ${beta}$ B (Act ${beta}$ B/Inhbb) and transforminggrowth factor ${alpha}$ (Tgfa), previously reported to be crucial foreyelid development, is down-regulated in the mutant leadingedge, while the onset of sonic hedgehog (Shh) expression isdelayed on the mutant eyelid margin. Explant cultures of mouseeyelid primordia shows that the open-eyelid phenotype of themutant is reduced by exogenous FGF10 protein, and that the expressionof Act ${beta}$ B and Tgfa is ectopically induced in the thickened eyelidepithelium by the FGF10 protein. These results indicate a dualrole of FGF10 in mouse eyelid development, for both proliferationand coordinated migration of eyelid epithelial cells by reorganizationof the cytoskeleton, through the regulation of activin, TGF ${alpha}$ and SHH signaling.

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