AI Article Synopsis
- Proteases activate proteinase-activated receptors (PARs) by cleaving them, revealing tethered ligands that continuously stimulate these receptors unless regulated.
- Efficient regulatory mechanisms, including receptor phosphorylation and endocytosis, are essential to prevent constant activation of PARs, especially considering the unique role of beta-arrestins in the process.
- The study demonstrated that beta-arrestin1 redistributes in response to trypsin, facilitating the endocytosis and trafficking of PAR2, highlighting beta-arrestin1's role in managing PAR activation and distribution within cells.
Article Abstract
Proteases cleave proteinase-activated receptors (PARs) to expose N-terminal tethered ligands that bind and activate the cleaved receptors. The tethered ligand, once exposed, is always available to interact with its binding site. Thus, efficient mechanisms must prevent continuous activation, including receptor phosphorylation and uncoupling from G-proteins, receptor endocytosis, and lysosomal degradation. beta-Arrestins mediate uncoupling and endocytosis of certain neurotransmitter receptors, which are activated in a reversible manner. However, the role of beta-arrestins in trafficking of PARs, which are irreversibly activated, and the effects of proteases on the subcellular distribution of beta-arrestins have not been examined. We studied trafficking of PAR2 and beta-arrestin1 coupled to green fluorescent protein. Trypsin induced the following: (a) redistribution of beta-arrestin1 from the cytosol to the plasma membrane, where it co-localized with PAR2; (b) internalization of beta-arrestin1 and PAR2 into the same early endosomes; (c) redistribution of beta-arrestin1 to the cytosol concurrent with PAR2 translocation to lysosomes; and (d) mobilization of PAR2 from the Golgi apparatus to the plasma membrane. Overexpression of a C-terminal fragment of beta-arrestin-319-418, which interacts constitutively with clathrin but does not bind receptors, inhibited agonist-induced endocytosis of PAR2. Our results show that beta-arrestins mediate endocytosis of PAR2 and support a role for beta-arrestins in uncoupling of PARs.
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| http://dx.doi.org/10.1074/jbc.274.26.18524 | DOI Listing |
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