[HTML][HTML] Dchs1–Fat4 regulation of polarized cell behaviours during skeletal morphogenesis

Y Mao, A Kuta, I Crespo-Enriquez, D Whiting… - Nature …, 2016 - nature.com
Y Mao, A Kuta, I Crespo-Enriquez, D Whiting, T Martin, J Mulvaney, KD Irvine
Nature communications, 2016nature.com
Skeletal shape varies widely across species as adaptation to specialized modes of feeding
and locomotion, but how skeletal shape is established is unknown. An example of extreme
diversity in the shape of a skeletal structure can be seen in the sternum, which varies
considerably across species. Here we show that the Dchs1–Fat4 planar cell polarity
pathway controls cell orientation in the early skeletal condensation to define the shape and
relative dimensions of the mouse sternum. These changes fit a model of cell intercalation …
Abstract
Skeletal shape varies widely across species as adaptation to specialized modes of feeding and locomotion, but how skeletal shape is established is unknown. An example of extreme diversity in the shape of a skeletal structure can be seen in the sternum, which varies considerably across species. Here we show that the Dchs1–Fat4 planar cell polarity pathway controls cell orientation in the early skeletal condensation to define the shape and relative dimensions of the mouse sternum. These changes fit a model of cell intercalation along differential Dchs1–Fat4 activity that drives a simultaneous narrowing, thickening and elongation of the sternum. Our results identify the regulation of cellular polarity within the early pre-chondrogenic mesenchyme, when skeletal shape is established, and provide the first demonstration that Fat4 and Dchs1 establish polarized cell behaviour intrinsically within the mesenchyme. Our data also reveal the first indication that cell intercalation processes occur during ventral body wall elongation and closure.
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