Internalization determinants of the parathyroid hormone receptor differentially regulate beta-arrestin/receptor association.
beta-Arrestins have been implicated in regulating internalization of the parathyroid hormone receptor ( PTHR), but the structural features in the receptor required for this effect are unknown. In the present study performed in HEK-293 cells, we demonstrated that different topological domains of PTHR are implicated in agonist-dependent receptor internalization; truncation of the cytoplasmic tail (PTHR-TR), selective mutations of the cytoplasmic tail to remove the sites of parathyroid hormone (PTH)-stimulated phosphorylation (PTHR-PD), and mutations in the third transmembrane helix (N289A) or in the third cytoplasmic loop (K382A) resulted in a 30-60% reduction in (125)I-PTH-related protein internalization. To better define the role of these internalization determinants, we have tested the ability of these mutant PTHRs to associate with beta-arrestins by using three different methodological approaches: 1) ability of overexpression of beta-arrestins to restore the internalization of (125)I-PTH-related protein for the mutant PTHRs; 2) visualization of PTH-mediated trafficking of beta-arrestin1 and -2 fused to the green fluorescent protein with receptors by confocal microscopy; 3) quantification of beta-arrestin1-green fluorescent protein translocation by Western blot. Our data reveal that the receptor' cytoplasmic tail contains determinants of beta-arrestin interaction that are distinct from the phosphorylation sites and are sufficient for transient association of beta-arrestin2, but stable association requires receptor phosphorylation. Determinants in the receptor's core (Asn-289 and Lys-382) appear to regulate internalization of the receptor/beta-arrestin complex toward early endocytic endosomes during the initial step of endocytosis.[1]References
- Internalization determinants of the parathyroid hormone receptor differentially regulate beta-arrestin/receptor association. Vilardaga, J.P., Krasel, C., Chauvin, S., Bambino, T., Lohse, M.J., Nissenson, R.A. J. Biol. Chem. (2002) [Pubmed]
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