Heparan sulfate biosynthetic gene Ndst1 is required for FGF signaling in early lens development

Y Pan, A Woodbury, JD Esko, K Grobe, X Zhang - 2006 - journals.biologists.com
Y Pan, A Woodbury, JD Esko, K Grobe, X Zhang
2006journals.biologists.com
Multiple signaling molecules, including bone morphogenic proteins (BMP) and fibroblast
growth factors (FGF), play important roles in early lens development. However, how these
morphogens are regulated is still largely unknown. Heparan sulfate participates in both
morphogen transport and morphogen-receptor interaction. In this study, we demonstrate that
inactivation of the heparan sulfate biosynthetic gene Ndst1 resulted in invagination defects
of the early lens and in the disruption of lens-determination gene expression, leading to …
Multiple signaling molecules, including bone morphogenic proteins (BMP) and fibroblast growth factors (FGF), play important roles in early lens development. However, how these morphogens are regulated is still largely unknown. Heparan sulfate participates in both morphogen transport and morphogen-receptor interaction. In this study, we demonstrate that inactivation of the heparan sulfate biosynthetic gene Ndst1 resulted in invagination defects of the early lens and in the disruption of lens-determination gene expression, leading to severe lens hypoplasia or anophthalmia. Ndst1 mutants exhibited reduced sulfation of heparan sulfate, but both BMP- and Wnt-signaling remained unchanged. Instead, these embryos showed diminished binding of a subset of FGF proteins to FGF receptors. Consistent with disruption of FGF signaling, expression of phospho-Erk and ERM were also downregulated in Ndst1-mutant lenses. Taken together, these results establish an important role of Ndst1 function in FGF signaling during lens development.
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