Calcium signaling mediates five types of cell morphological changes to form neural rosettes
2018
Neural rosette formation is a critical morphogenetic process during neural development, whereby neural stem cells are enclosed in rosette niches to equipoise proliferation and differentiation. How neural rosettes form and provide a regulatory micro-environment remains to be elucidated. We employed the human embryonic stem cell-based neural rosette system to investigate the structural development and function of neural rosettes. Our study shows that neural rosette formation consists of 5 types of cell movements: intercalation, constriction, polarization, elongation, and lumen formation. Ca 2+ signaling plays a pivotal role in the five steps by regulating the actions of the cytoskeletal complexes, ACTIN, MYOSIN II, and TUBULIN during intercalation, constriction, and elongation. These in turn control the polarizing elements, ZO-1, PARD3, and β-CATENIN during polarization and lumen formation in neural rosette formation. We further demonstrated that the dismantlement of neural rosettes, mediated by the destruction of cytoskeletal elements, promoted neurogenesis and astrogenesis prematurely, indicating that an intact rosette structure is essential for orderly neural development.
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