AI Article Synopsis
- Adherens junctions are crucial for cell-cell adhesion during the development of tissues, particularly in Caenorhabditis elegans embryos, where the cadherin-catenin complex (CCC) is vital for processes like gastrulation and embryo elongation.* -
- The study identifies specific phosphorylated residues in the key CCC proteins (HMR-1, HMP-1, and HMP-2) using mass spectrometry, highlighting that phosphorylation affects their assembly and function.* -
- Findings indicate that different phosphorylation events play roles in either promoting the assembly or inhibiting the association of CCC components, which is essential for the morphogenetic changes that occur during development.*
Article Abstract
Adherens junctions play key roles in mediating cell-cell contacts during tissue development. In Caenorhabditis elegans embryos, the cadherin-catenin complex (CCC), composed of the classical cadherin HMR-1 and members of three catenin families, HMP-1, HMP-2 and JAC-1, is necessary for normal blastomere adhesion, gastrulation, ventral enclosure of the epidermis and embryo elongation. Disruption of CCC assembly or function results in embryonic lethality. Previous work suggests that components of the CCC are subject to phosphorylation. However, the identity of phosphorylated residues in CCC components and their contributions to CCC stability and function in a living organism remain speculative. Using mass spectrometry, we systematically identify phosphorylated residues in the essential CCC subunits HMR-1, HMP-1 and HMP-2 in vivo. We demonstrate that HMR-1/cadherin phosphorylation occurs on three sites within its β-catenin binding domain that each contributes to CCC assembly on lipid bilayers. In contrast, phosphorylation of HMP-2/β-catenin inhibits its association with HMR-1/cadherin in vitro, suggesting a role in CCC disassembly. Although HMP-1/α-catenin is also phosphorylated in vivo, phosphomimetic mutations do not affect its ability to associate with other CCC components or interact with actin in vitro. Collectively, our findings support a model in which distinct phosphorylation events contribute to rapid CCC assembly and disassembly, both of which are essential for morphogenetic rearrangements during development.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4663164 | PMC |
| http://dx.doi.org/10.1042/BJ20150410 | DOI Listing |
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