AI Article Synopsis
- ADAM10 is an enzyme that plays a key role in cell signaling by shedding the ectodomain of various substrates, which then undergoes further processing that allows for signaling within the cell.
- The research focuses on how ADAM10 is guided to its substrates at cell-cell contacts, highlighting the importance of a specific sorting signal within its cytoplasmic domain for proper trafficking.
- In polarized epithelial cells, this sorting signal is crucial not only for targeting ADAM10 to cell junctions but also for its role in E-cadherin processing and facilitating cell migration.
Article Abstract
ADAM10 (a disintegrin and metalloprotease) initiates regulated intramembrane proteolysis by shedding the ectodomain of a number of different substrates. Shedding is followed by subsequent intramembrane proteolysis leading to the liberation of intracellular domains capable of nuclear signaling. ADAM10 substrates have been found at cell-cell contacts and are apparently involved in cell-cell interaction and cell migration. Here we have investigated the cellular mechanism that guides ADAM10 to substrates at cell-cell contacts. We demonstrate that intracellular trafficking of ADAM10 critically requires a novel sorting signal within its cytoplasmic domain. Sequential deletion of the cytoplasmic domain and site-directed mutagenesis suggest that a potential Src homology 3-binding domain is essential for ADAM10 sorting. In a polarized epithelial cell line this motif not only targets ADAM10 to adherens junctions but is also strictly required for ADAM10 function in E-cadherin processing and cell migration.
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| http://dx.doi.org/10.1074/jbc.M601542200 | DOI Listing |
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