Selective Ligand-induced Stabilization of Active and Desensitized Parathyroid Hormone Type 1 Receptor Conformations

For many G protein-coupled receptors, agonist-induced activation is followed by desensitization, internalization, and resensitization. In most cases, these processes are dependent upon interaction of agonist-occupied receptor with cytoplasmic β-arrestins. The ligand-induced intramolecular rearrangem...

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Published in:The Journal of biological chemistry 2002-10, Vol.277 (41), p.38524-38530
Main Authors: Bisello, Alessandro, Chorev, Michael, Rosenblatt, Michael, Monticelli, Luca, Mierke, Dale F., Ferrari, Serge L.
Format: Article
Language:English
Subjects:
Arrestins - metabolism
beta-Arrestin 2
beta-Arrestins
Cells, Cultured
Cyclic AMP - metabolism
Endocytosis - physiology
Humans
Iodine Radioisotopes - metabolism
Ligands
Microscopy, Fluorescence
Models, Molecular
Peptides - metabolism
Protein Conformation
Protein Structure, Tertiary
Receptors, Parathyroid Hormone - chemistry
Receptors, Parathyroid Hormone - genetics
Receptors, Parathyroid Hormone - metabolism
Second Messenger Systems - physiology
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Summary:For many G protein-coupled receptors, agonist-induced activation is followed by desensitization, internalization, and resensitization. In most cases, these processes are dependent upon interaction of agonist-occupied receptor with cytoplasmic β-arrestins. The ligand-induced intramolecular rearrangements of the receptor responsible for the desensitized versus active conformational states, which dictate both the pharmacological properties of ligands and the biological activity of G protein-coupled receptors, have not been fully elucidated. Here, we identify specific interactions between parathyroid hormone (PTH)-related protein and the human PTH type 1 receptor (PTH1Rc) and the related receptor conformational changes that lead to β-arrestin-2-mediated desensitization. PTH-related protein analogs modified at position 1 induced selective stabilization of the active G protein-coupled state of the receptor, resulting in lack of β-arrestin-2 recruitment to the cell membrane, sustained cAMP signaling, and absence of ligand-receptor complex internalization. Mechanistically, the ligands modified at position 1, interacting with the extracellular end of helix VI of PTH1Rc, produced a translocation of transmembrane helices V and VI that differed from that induced by the cognate agonist, resulting in significantly different conformations of the third intracellular loop. These results show how specific interactions between PTH1Rc and its ligands may stabilize distinct conformational states, representing either the active G protein-coupled or a desensitized β-arrestin-coupled receptor state. In addition, they establish that sustained biological activity of PTH1Rc may be induced by appropriately designed agonist ligands.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M202544200