AI Article Synopsis
- Epithelial fusion is essential for forming connections between epithelial tissues, and a significant aspect of this process is "zippering," where the fusion point progresses along organ structures.
- Researchers discovered that zippering in mouse spinal neural tube closure relies on the activation of integrin β1, leading to cells anchoring to a fibronectin-rich basement membrane and forming a temporary rosette structure at the fusion site.
- Disruption of integrin β1 in specific tissues stops the semi-rosette formation, halting the zippering process and resulting in spina bifida, highlighting the crucial role of integrin-mediated anchorage in preventing birth defects during embryonic development.
Article Abstract
Epithelial fusion is a key process of morphogenesis by which tissue connectivity is established between adjacent epithelial sheets. A striking and poorly understood feature of this process is "zippering," whereby a fusion point moves directionally along an organ rudiment. Here, we uncover the molecular mechanism underlying zippering during mouse spinal neural tube closure. Fusion is initiated via local activation of integrin β1 and focal anchorage of surface ectoderm cells to a shared point of fibronectin-rich basement membrane, where the neural folds first contact each other. Surface ectoderm cells undergo proximal junction shortening, establishing a transitory semi-rosette-like structure at the zippering point that promotes juxtaposition of cells across the midline enabling fusion propagation. Tissue-specific ablation of integrin β1 abolishes the semi-rosette formation, preventing zippering and causing spina bifida. We propose integrin-mediated anchorage as an evolutionarily conserved mechanism of general relevance for zippering closure of epithelial gaps whose disturbance can produce clinically important birth defects.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7008250 | PMC |
| http://dx.doi.org/10.1016/j.devcel.2020.01.012 | DOI Listing |
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