Mechanical forces across compartments coordinate cell shape and fate transitions to generate tissue architecture

Author:

Villeneuve ClémentineORCID,Hashmi AliORCID,Ylivinkka IreneORCID,Lawson-Keister Elizabeth,Miroshnikova Yekaterina A.ORCID,Pérez-González Carlos,Yadav Bhagwan,Zhang Tao,Vignjevic Danijela MaticORCID,Mikkola Marja L.ORCID,Manning M. LisaORCID,Wickström Sara A.ORCID

Abstract

Morphogenesis and cell state transitions must be coordinated in time and space to produce a functional tissue. An excellent paradigm to understand the coupling of these processes is mammalian hair follicle development, initiated by the formation of an epithelial invagination - termed placode – that coincides with the emergence of a designated hair follicle stem cell population. The mechanisms directing the deformation of the epithelium, cell state transitions, and physical compartmentalization of the placode are unknown. Here, we identify a key role for coordinated mechanical forces stemming from contractile, proliferative, and proteolytic activities across the epithelial and mesenchymal compartments in generating the placode structure. A ring of fibroblast cells gradually wraps around the placode cells to generate centripetal contractile forces, which in collaboration with polarized epithelial myosin activity promote elongation and local tissue thickening. These mechanical stresses further enhance and compartmentalize Sox9 expression to promote stem cell positioning. Subsequently, proteolytic remodeling locally softens the basement membrane to facilitate release of pressure on the placode, enabling localized cell divisions, tissue fluidification, and epithelial invagination into the underlying mesenchyme. Together, our experiments and modeling identify dynamic cell shape transformations and tissue-scale mechanical co-operation as key factors for orchestrating organ formation.

Publisher

Cold Spring Harbor Laboratory

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