Abstract
Somites are transient segments formed in a rostro-caudal progression during vertebrate development. In chick embryos, segmentation of a new pair of somites occurs every 90 minutes and involves a mesenchyme-to-epithelium transition of cells from the presomitic mesoderm. Little is known about the cellular rearrangements involved, and, although it is known that the fibronectin extracellular matrix is required, its actual role remains elusive. Using 3D and 4D imaging of somite formation we discovered that somitogenesis consists of a complex choreography of individual cell movements. Epithelialization starts medially with the formation of a transient epithelium of cuboidal cells, followed by cell elongation and reorganization into a pseudostratified epithelium of spindle-shaped epitheloid cells. Mesenchymal cells are then recruited to this medial epithelium through accretion, a phenomenon that spreads to all sides, except the lateral side of the forming somite, which epithelializes by cell elongation and intercalation. Surprisingly, an important contribution to the somite epithelium also comes from the continuous egression of mesenchymal cells from the core into the epithelium via its apical side. Inhibition of fibronectin matrix assembly first slows down the rate, and then halts somite formation, without affecting pseudopodial activity or cell body movements. Rather, cell elongation, centripetal alignment, N-cadherin polarization and egression are impaired, showing that the fibronectin matrix plays a role in polarizing and guiding the exploratory behavior of somitic cells. To our knowledge, this is the first 4D in vivo recording of a full mesenchyme-to-epithelium transition. This approach brought new insights into this event and highlighted the importance of the extracellular matrix as a guiding cue during morphogenesis.
Highlights
Imaging morphogenesis in live embryos and tissues has revealed that cells are much more dynamic than previously thought, changing their shape and behavior in ways that our interpretation of successive static images of developmental stages could not have predicted [1,2,3,4,5]
We have demonstrated that in chick, the FN matrix surrounding the presomitic mesoderm (PSM) is generated through collaboration between ectoderm and PSM: the ectoderm produces FN which is assembled by integrin a5b1 expressed by PSM cells
Our results show that PSM cells are highly dynamic, exhibiting constant protrusive activity and cell body movements, and that somite epithelialization involves the progressive organization of these dynamic cells into an aster-like arrangement, a process that takes much longer than the 90 minute interval of each new boundary formation
Summary
Imaging morphogenesis in live embryos and tissues has revealed that cells are much more dynamic than previously thought, changing their shape and behavior in ways that our interpretation of successive static images of developmental stages could not have predicted [1,2,3,4,5]. Analysis of cell behavior in vivo has caused a revival of the concept that morphogenesis is generated through the modulation of mechanical properties of cells, affecting their shape and relationship with the surroundings [6,7,8,9]. The extracellular matrix (ECM) surrounding cells in vivo is a key regulator of their shape, differentiation state and motile behavior [10,11,12]. Cell engagement of the ECM through integrins (or other receptors), in turn affects the mechanical state of the cytoskeleton and often translates the mechanical forces of the ECM into chemical signals intracellularly [7,13,14,15]. Cell-ECM engagement is known to modulate cell-cell adhesion, another important player in the regulation of morphogenesis [16]. To fully understand morphogenesis in vivo we must know how cells behave during morphogenetic events and how they interact with, and are influenced by the surrounding ECM
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