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Contraction of basal filopodia controls periodic feather branching via Notch and FGF signaling.


ABSTRACT: Branching morphogenesis is a general mechanism that increases the surface area of an organ. In chicken feathers, the flat epithelial sheath at the base of the follicle is transformed into periodic branches. How exactly the keratinocytes are organized into this pattern remains unclear. Here we show that in the feather follicle, the pre-branch basal keratinocytes have extensive filopodia, which contract and smooth out after branching. Manipulating the filopodia via small GTPases RhoA/Cdc42 also regulates branch formation. These basal filopodia help interpret the proximal-distal FGF gradient in the follicle. Furthermore, the topological arrangement of cell adhesion via E-Cadherin re-distribution controls the branching process. Periodic activation of Notch signaling drives the differential cell adhesion and contraction of basal filopodia, which occurs only below an FGF signaling threshold. Our results suggest a coordinated adjustment of cell shape and adhesion orchestrates feather branching, which is regulated by Notch and FGF signaling.

SUBMITTER: Cheng D 

PROVIDER: S-EPMC5890251 | biostudies-literature | 2018 Apr

REPOSITORIES: biostudies-literature

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Contraction of basal filopodia controls periodic feather branching via Notch and FGF signaling.

Cheng Dongyang D   Yan Xiaoli X   Qiu Guofu G   Zhang Juan J   Wang Hanwei H   Feng Tingting T   Tian Yarong Y   Xu Haiping H   Wang Meiqing M   He Wanzhong W   Wu Ping P   Widelitz Randall B RB   Chuong Cheng-Ming CM   Yue Zhicao Z  

Nature communications 20180409 1


Branching morphogenesis is a general mechanism that increases the surface area of an organ. In chicken feathers, the flat epithelial sheath at the base of the follicle is transformed into periodic branches. How exactly the keratinocytes are organized into this pattern remains unclear. Here we show that in the feather follicle, the pre-branch basal keratinocytes have extensive filopodia, which contract and smooth out after branching. Manipulating the filopodia via small GTPases RhoA/Cdc42 also re  ...[more]

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