Receptor clustering upon cell attachment to the substrate induces assembly of cytoplasmic protein complexes termed focal adhesions (FAs), which connect, albeit indirectly, the extracellular matrix to the cytoskeleton. A subset of cultured primary alveolar epithelial cells (AEC) display a unique pattern of vinculin/paxillin/talin-rich FAs in two concentric circles when cultured on glass and micropatterned substrates: one ring of FAs located at the cell periphery (pFAs), and another FA ring located centrally in the cell (cFAs). Unusually, cFAs associate with an aster-like actin array as well as keratin bundles. Moreover, cFAs show rapid paxillin turnover rates following fluorescence recovery after photobleaching and exert traction forces similar to those generated by FAs at the cell periphery. The plakin protein plectin localizes to cFAs and is normally absent from pFAs, whereas tensin, a marker of mature/fibrillar adhesions, is found in both cFAs and pFAs. In primary AEC in which plectin expression is depleted, cFAs are largely absent, with an attendant reorganization of both the keratin and actin cytoskeletons. We suggest that the mechanical environment in the lung gives rise to the assembly of unconventional FAs in AEC. These FAs not only show a distinctive arrangement, but also possess unique compositional and functional properties.
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| http://dx.doi.org/10.1242/jcs.128975 | DOI Listing |
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Article Synopsis
- Most cells in multicellular organisms need to attach to their environment, using structures called cell-matrix or cell-cell adhesions for stability.
- Integrins are key transmembrane receptors that help form these adhesion complexes by connecting with extracellular matrix components and linking to the cell's cytoskeleton, allowing for signaling.
- Recent research reveals that different types of integrin complexes, once thought to be separate, are actually interconnected and can influence each other's formation and transformation, particularly focusing on the versatile αvß5 integrins.
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