Allosteric interactions in the parathyroid hormone GPCR–arrestin complex formation

Lisa J. Clark; James Krieger; Alex D. White; Vasyl Bondarenko; Saifei Lei; Fei Fang; Ji Young Lee; Pemra Doruker; Thore Böttke; Frederic Jean-Alphonse; Pei Tang; Thomas J. Gardella; Kunhong Xiao; Ieva Sutkeviciute; Irene Coin; Ivet Bahar; Jean Pierre Vilardaga

doi:10.1038/s41589-020-0567-0

Allosteric interactions in the parathyroid hormone GPCR–arrestin complex formation

Lisa J. Clark
, James Krieger
, Alex D. White
, Vasyl Bondarenko
, Saifei Lei
, Fei Fang
, Ji Young Lee
, Pemra Doruker
, Thore Böttke
, Frederic Jean-Alphonse
, Pei Tang
, Thomas J. Gardella
, Kunhong Xiao
, Ieva Sutkeviciute
, Irene Coin
, Ivet Bahar
, Jean Pierre Vilardaga

Laufer Center for Physical and Quantitative Biology

University of Pittsburgh
Leipzig University
Massachusetts General Hospital

Research output: Contribution to journal › Article › peer-review

45 Scopus citations

Abstract

Peptide ligands of class B G-protein-coupled receptors act via a two-step binding process, but the essential mechanisms that link their extracellular binding to intracellular receptor–arrestin interactions are not fully understood. Using NMR, crosslinking coupled to mass spectrometry, signaling experiments and computational approaches on the parathyroid hormone (PTH) type 1 receptor (PTHR), we show that initial binding of the PTH C-terminal part constrains the conformation of the flexible PTH N-terminal signaling epitope before a second binding event occurs. A ‘hot-spot’ PTH residue, His9, that inserts into the PTHR transmembrane domain at this second step allosterically engages receptor–arrestin coupling. A conformational change in PTHR intracellular loop 3 permits favorable interactions with β-arrestin’s finger loop. These results unveil structural determinants for PTHR–arrestin complex formation and reveal that the two-step binding mechanism proceeds via cooperative fluctuations between ligand and receptor, which extend to other class B G-protein-coupled receptors. [Figure not available: see fulltext.]

Original language	English
Pages (from-to)	1096-1104
Number of pages	9
Journal	Nature Chemical Biology
Volume	16
Issue number	10
DOIs	https://doi.org/10.1038/s41589-020-0567-0
State	Published - Oct 1 2020

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Clark, L. J., Krieger, J., White, A. D., Bondarenko, V., Lei, S., Fang, F., Lee, J. Y., Doruker, P., Böttke, T., Jean-Alphonse, F., Tang, P., Gardella, T. J., Xiao, K., Sutkeviciute, I., Coin, I., Bahar, I., & Vilardaga, J. P. (2020). Allosteric interactions in the parathyroid hormone GPCR–arrestin complex formation. Nature Chemical Biology, 16(10), 1096-1104. https://doi.org/10.1038/s41589-020-0567-0

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title = "Allosteric interactions in the parathyroid hormone GPCR–arrestin complex formation",

abstract = "Peptide ligands of class B G-protein-coupled receptors act via a two-step binding process, but the essential mechanisms that link their extracellular binding to intracellular receptor–arrestin interactions are not fully understood. Using NMR, crosslinking coupled to mass spectrometry, signaling experiments and computational approaches on the parathyroid hormone (PTH) type 1 receptor (PTHR), we show that initial binding of the PTH C-terminal part constrains the conformation of the flexible PTH N-terminal signaling epitope before a second binding event occurs. A {\textquoteleft}hot-spot{\textquoteright} PTH residue, His9, that inserts into the PTHR transmembrane domain at this second step allosterically engages receptor–arrestin coupling. A conformational change in PTHR intracellular loop 3 permits favorable interactions with β-arrestin{\textquoteright}s finger loop. These results unveil structural determinants for PTHR–arrestin complex formation and reveal that the two-step binding mechanism proceeds via cooperative fluctuations between ligand and receptor, which extend to other class B G-protein-coupled receptors. [Figure not available: see fulltext.]",

author = "Clark, \{Lisa J.\} and James Krieger and White, \{Alex D.\} and Vasyl Bondarenko and Saifei Lei and Fei Fang and Lee, \{Ji Young\} and Pemra Doruker and Thore B{\"o}ttke and Frederic Jean-Alphonse and Pei Tang and Gardella, \{Thomas J.\} and Kunhong Xiao and Ieva Sutkeviciute and Irene Coin and Ivet Bahar and Vilardaga, \{Jean Pierre\}",

note = "Publisher Copyright: {\textcopyright} 2020, The Author(s), under exclusive licence to Springer Nature America, Inc.",

year = "2020",

month = oct,

day = "1",

doi = "10.1038/s41589-020-0567-0",

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Clark, LJ, Krieger, J, White, AD, Bondarenko, V, Lei, S, Fang, F, Lee, JY, Doruker, P, Böttke, T, Jean-Alphonse, F, Tang, P, Gardella, TJ, Xiao, K, Sutkeviciute, I, Coin, I, Bahar, I & Vilardaga, JP 2020, 'Allosteric interactions in the parathyroid hormone GPCR–arrestin complex formation', Nature Chemical Biology, vol. 16, no. 10, pp. 1096-1104. https://doi.org/10.1038/s41589-020-0567-0

TY - JOUR

T1 - Allosteric interactions in the parathyroid hormone GPCR–arrestin complex formation

AU - Clark, Lisa J.

AU - Krieger, James

AU - White, Alex D.

AU - Bondarenko, Vasyl

AU - Lei, Saifei

AU - Fang, Fei

AU - Lee, Ji Young

AU - Doruker, Pemra

AU - Böttke, Thore

AU - Jean-Alphonse, Frederic

AU - Tang, Pei

AU - Gardella, Thomas J.

AU - Xiao, Kunhong

AU - Sutkeviciute, Ieva

AU - Coin, Irene

AU - Bahar, Ivet

AU - Vilardaga, Jean Pierre

PY - 2020/10/1

Y1 - 2020/10/1

N2 - Peptide ligands of class B G-protein-coupled receptors act via a two-step binding process, but the essential mechanisms that link their extracellular binding to intracellular receptor–arrestin interactions are not fully understood. Using NMR, crosslinking coupled to mass spectrometry, signaling experiments and computational approaches on the parathyroid hormone (PTH) type 1 receptor (PTHR), we show that initial binding of the PTH C-terminal part constrains the conformation of the flexible PTH N-terminal signaling epitope before a second binding event occurs. A ‘hot-spot’ PTH residue, His9, that inserts into the PTHR transmembrane domain at this second step allosterically engages receptor–arrestin coupling. A conformational change in PTHR intracellular loop 3 permits favorable interactions with β-arrestin’s finger loop. These results unveil structural determinants for PTHR–arrestin complex formation and reveal that the two-step binding mechanism proceeds via cooperative fluctuations between ligand and receptor, which extend to other class B G-protein-coupled receptors. [Figure not available: see fulltext.]

AB - Peptide ligands of class B G-protein-coupled receptors act via a two-step binding process, but the essential mechanisms that link their extracellular binding to intracellular receptor–arrestin interactions are not fully understood. Using NMR, crosslinking coupled to mass spectrometry, signaling experiments and computational approaches on the parathyroid hormone (PTH) type 1 receptor (PTHR), we show that initial binding of the PTH C-terminal part constrains the conformation of the flexible PTH N-terminal signaling epitope before a second binding event occurs. A ‘hot-spot’ PTH residue, His9, that inserts into the PTHR transmembrane domain at this second step allosterically engages receptor–arrestin coupling. A conformational change in PTHR intracellular loop 3 permits favorable interactions with β-arrestin’s finger loop. These results unveil structural determinants for PTHR–arrestin complex formation and reveal that the two-step binding mechanism proceeds via cooperative fluctuations between ligand and receptor, which extend to other class B G-protein-coupled receptors. [Figure not available: see fulltext.]

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DO - 10.1038/s41589-020-0567-0

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SN - 1552-4450

VL - 16

SP - 1096

EP - 1104

JO - Nature Chemical Biology

JF - Nature Chemical Biology

IS - 10

ER -

Allosteric interactions in the parathyroid hormone GPCR–arrestin complex formation

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