AI Article Synopsis
- Epithelial cells undergo mitosis and change shape, but how they maintain their integrity during this process is not fully understood.
- Researchers discovered that as cells round up during mitosis, they exert forces on their neighboring cells, which helps maintain cell junction integrity.
- The protein vinculin, selectively recruited from neighboring cells, plays a critical role in stabilizing cell junctions, preventing breaks in the epithelial barrier while allowing the mitotic cells to change shape effectively.
Article Abstract
Epithelia are continuously self-renewed, but how epithelial integrity is maintained during the morphological changes that cells undergo in mitosis is not well understood. Here, we show that as epithelial cells round up when they enter mitosis, they exert tensile forces on neighboring cells. We find that mitotic cell-cell junctions withstand these tensile forces through the mechanosensitive recruitment of the actin-binding protein vinculin to cadherin-based adhesions. Surprisingly, vinculin that is recruited to mitotic junctions originates selectively from the neighbors of mitotic cells, resulting in an asymmetric composition of cadherin junctions. Inhibition of junctional vinculin recruitment in neighbors of mitotic cells results in junctional breakage and weakened epithelial barrier. Conversely, the absence of vinculin from the cadherin complex in mitotic cells is necessary to successfully undergo mitotic rounding. Our data thus identify an asymmetric mechanoresponse at cadherin adhesions during mitosis, which is essential to maintain epithelial integrity while at the same time enable the shape changes of mitotic cells.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7953256 | PMC |
| http://dx.doi.org/10.1083/jcb.202001042 | DOI Listing |
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