1. Multifaceted control of E-cadherin dynamics by Adaptor Protein Complex 1 during epithelial morphogenesis
- Author
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Miguel Ramírez Moreno, Katy Boswell, Helen L. Casbolt, and Natalia A. Bulgakova
- Subjects
Transcription Factor AP-1 ,Integrins ,Protein Transport ,Adaptor Protein Complex 1 ,Morphogenesis ,Animals ,Cell Polarity ,Drosophila ,Epithelial Cells ,Cell Biology ,Adherens Junctions ,Cadherins ,Molecular Biology - Abstract
Intracellular trafficking regulates the distribution of transmembrane proteins including the key determinants of epithelial polarity and adhesion. The Adaptor Protein 1 (AP-1) complex is the key regulator of vesicle sorting, which binds many specific cargoes. We examined roles of the AP-1 complex in epithelial morphogenesis, using the Drosophila wing as a paradigm. We found that AP-1 knockdown leads to ectopic tissue folding, which is consistent with the observed defects in integrin targeting to the basal cell-extracellular matrix adhesion sites. This occurs concurrently with an integrin-independent induction of cell death, which counteracts elevated proliferation and prevents hyperplasia. We discovered a distinct pool of AP-1 that localizes at the subapical adherens junctions. Upon AP-1 knockdown, E-cadherin is hyperinternalized from these junctions and becomes enriched at the Golgi and recycling endosomes. We then provide evidence that E-cadherin hyperinternalization acts upstream of cell death in a potential tumor-suppressive mechanism. Simultaneously, cells compensate for elevated internalization of E-cadherin by increasing its expression to maintain cell-cell adhesion.
- Published
- 2022