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Journal Article

Hhip regulates zebrafish muscle development by both sequestering Hedgehog and modulating localization of Smoothened

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Hammerschmidt,  Matthias
Georges Köhler Laboratory, Max Planck Institute of Immunobiology and Epigenetics, Max Planck Society;

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Citation

Ochi, H., Pearson, B. J., Chuang, P.-T., Hammerschmidt, M., & Westerfield, M. (2006). Hhip regulates zebrafish muscle development by both sequestering Hedgehog and modulating localization of Smoothened. Developmental Biology, 297, 127-140.


Cite as: http://hdl.handle.net/11858/00-001M-0000-002B-929E-6
Abstract
Sharp borders between cells with different developmental fates are important for patterning of invertebrates, but are not well understood in vertebrates. Zebrafish slow muscle cells develop from adaxial cells, a one-cell-diameter-thick pseudo-epithelium immediately adjacent to the notochord. Hedgehog (Hh) signals from notochord specify adaxial cells to form slow muscle cells. Cells next to adaxial cells form fast muscle. This suggests that Hh signaling is locally regulated to produce a sharp border that separates slow and fast muscle precursors. To understand how Hh activity is locally regulated, we characterized the dynamic roles of Hhip, a protein that binds Hedgehog at the cell surface. Hhip is strongly expressed by adaxial cells and, together with Patched, the Hedgehog receptor, limits transduction of the Hedgehog signaling by Smoothened to adaxial cells. Hhip protein lacking its membrane associated domain still suppresses Hh activity but no longer acts synergistically with Patched. Hhip and Smoothened colocalize at the cell surface and, in response to Hedgehog, internalize together. Knockdown of Hhip blocks Smoothened internalization while increasing Hedgehog signaling and slow muscle formation. These data support a model in which Hhip regulates muscle development both by sequestering Hedgehog and by modulating localization of Smoothened.