Biased and Constitutive Signaling in the CC-Chemokine Receptor CCR5 by manipulating the Interface between Transmembrane Helix 6 and 7

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Biased and Constitutive Signaling in the CC-Chemokine Receptor CCR5 by manipulating the Interface between Transmembrane Helix 6 and 7. / Steen, Anne; Thiele, Stefanie; Guo, Dong; Hansen, Lærke Smidt; Frimurer, Thomas Michael; Rosenkilde, Mette Marie.

In: Journal of Biological Chemistry, Vol. 288, No. 18, 03.05.2013, p. 12511-12521.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Steen, A, Thiele, S, Guo, D, Hansen, LS, Frimurer, TM & Rosenkilde, MM 2013, 'Biased and Constitutive Signaling in the CC-Chemokine Receptor CCR5 by manipulating the Interface between Transmembrane Helix 6 and 7', Journal of Biological Chemistry, vol. 288, no. 18, pp. 12511-12521. https://doi.org/10.1074/jbc.M112.449587

APA

Steen, A., Thiele, S., Guo, D., Hansen, L. S., Frimurer, T. M., & Rosenkilde, M. M. (2013). Biased and Constitutive Signaling in the CC-Chemokine Receptor CCR5 by manipulating the Interface between Transmembrane Helix 6 and 7. Journal of Biological Chemistry, 288(18), 12511-12521. https://doi.org/10.1074/jbc.M112.449587

Vancouver

Steen A, Thiele S, Guo D, Hansen LS, Frimurer TM, Rosenkilde MM. Biased and Constitutive Signaling in the CC-Chemokine Receptor CCR5 by manipulating the Interface between Transmembrane Helix 6 and 7. Journal of Biological Chemistry. 2013 May 3;288(18):12511-12521. https://doi.org/10.1074/jbc.M112.449587

Author

Steen, Anne ; Thiele, Stefanie ; Guo, Dong ; Hansen, Lærke Smidt ; Frimurer, Thomas Michael ; Rosenkilde, Mette Marie. / Biased and Constitutive Signaling in the CC-Chemokine Receptor CCR5 by manipulating the Interface between Transmembrane Helix 6 and 7. In: Journal of Biological Chemistry. 2013 ; Vol. 288, No. 18. pp. 12511-12521.

Bibtex

@article{19f7a3fc669d40f8a7b1063a636c2bec,
title = "Biased and Constitutive Signaling in the CC-Chemokine Receptor CCR5 by manipulating the Interface between Transmembrane Helix 6 and 7",
abstract = "The equilibrium state of CCR5 is manipulated here toward either activation or inactivation by introduction of single amino acid substitutions in the transmembrane domains (TMs) 6 and 7. Insertion of a steric hindrance mutation in the center of TM7 (G286F in position VII:09/7.42) resulted in biased signaling. Thus, beta-arrestin recruitment was eliminated, whereas constitutive activity was observed in Gi-mediated signaling. Furthermore, the CCR5 antagonist aplaviroc was converted to a full agonist (a so-called efficacy switch). Computational modeling revealed that the position of the 7TM receptor-conserved Trp in TM6 (Trp-248 in position VI:13/6.48, part of the CWXP motif) was influenced by the G286F mutation, causing Trp-248 to change orientation away from TM7. The essential role of Trp-248 in CCR5 activation was supported by complete inactivity of W248A-CCR5 despite maintaining chemokine binding. Furthermore, replacing Trp-248 with a smaller aromatic amino acid (Tyr/Phe) impaired the beta-arrestin recruitment, yet with maintained G protein activity (biased signaling); also, here aplaviroc switched to a full agonist. Thus, the altered positioning of Trp-248, induced by G286F, led to a constraint of G protein active, but beta-arrestin inactive and thus biased, CCR5 conformation. These results provide important information on the molecular interplay and impact of TM6 and TM7 for CCR5 activity, which may be extrapolated to other chemokine receptors and possibly to other 7TM receptors",
author = "Anne Steen and Stefanie Thiele and Dong Guo and Hansen, {L{\ae}rke Smidt} and Frimurer, {Thomas Michael} and Rosenkilde, {Mette Marie}",
year = "2013",
month = may,
day = "3",
doi = "10.1074/jbc.M112.449587",
language = "English",
volume = "288",
pages = "12511--12521",
journal = "Journal of Biological Chemistry",
issn = "0021-9258",
publisher = "American Society for Biochemistry and Molecular Biology, Inc.",
number = "18",

}

RIS

TY - JOUR

T1 - Biased and Constitutive Signaling in the CC-Chemokine Receptor CCR5 by manipulating the Interface between Transmembrane Helix 6 and 7

AU - Steen, Anne

AU - Thiele, Stefanie

AU - Guo, Dong

AU - Hansen, Lærke Smidt

AU - Frimurer, Thomas Michael

AU - Rosenkilde, Mette Marie

PY - 2013/5/3

Y1 - 2013/5/3

N2 - The equilibrium state of CCR5 is manipulated here toward either activation or inactivation by introduction of single amino acid substitutions in the transmembrane domains (TMs) 6 and 7. Insertion of a steric hindrance mutation in the center of TM7 (G286F in position VII:09/7.42) resulted in biased signaling. Thus, beta-arrestin recruitment was eliminated, whereas constitutive activity was observed in Gi-mediated signaling. Furthermore, the CCR5 antagonist aplaviroc was converted to a full agonist (a so-called efficacy switch). Computational modeling revealed that the position of the 7TM receptor-conserved Trp in TM6 (Trp-248 in position VI:13/6.48, part of the CWXP motif) was influenced by the G286F mutation, causing Trp-248 to change orientation away from TM7. The essential role of Trp-248 in CCR5 activation was supported by complete inactivity of W248A-CCR5 despite maintaining chemokine binding. Furthermore, replacing Trp-248 with a smaller aromatic amino acid (Tyr/Phe) impaired the beta-arrestin recruitment, yet with maintained G protein activity (biased signaling); also, here aplaviroc switched to a full agonist. Thus, the altered positioning of Trp-248, induced by G286F, led to a constraint of G protein active, but beta-arrestin inactive and thus biased, CCR5 conformation. These results provide important information on the molecular interplay and impact of TM6 and TM7 for CCR5 activity, which may be extrapolated to other chemokine receptors and possibly to other 7TM receptors

AB - The equilibrium state of CCR5 is manipulated here toward either activation or inactivation by introduction of single amino acid substitutions in the transmembrane domains (TMs) 6 and 7. Insertion of a steric hindrance mutation in the center of TM7 (G286F in position VII:09/7.42) resulted in biased signaling. Thus, beta-arrestin recruitment was eliminated, whereas constitutive activity was observed in Gi-mediated signaling. Furthermore, the CCR5 antagonist aplaviroc was converted to a full agonist (a so-called efficacy switch). Computational modeling revealed that the position of the 7TM receptor-conserved Trp in TM6 (Trp-248 in position VI:13/6.48, part of the CWXP motif) was influenced by the G286F mutation, causing Trp-248 to change orientation away from TM7. The essential role of Trp-248 in CCR5 activation was supported by complete inactivity of W248A-CCR5 despite maintaining chemokine binding. Furthermore, replacing Trp-248 with a smaller aromatic amino acid (Tyr/Phe) impaired the beta-arrestin recruitment, yet with maintained G protein activity (biased signaling); also, here aplaviroc switched to a full agonist. Thus, the altered positioning of Trp-248, induced by G286F, led to a constraint of G protein active, but beta-arrestin inactive and thus biased, CCR5 conformation. These results provide important information on the molecular interplay and impact of TM6 and TM7 for CCR5 activity, which may be extrapolated to other chemokine receptors and possibly to other 7TM receptors

U2 - 10.1074/jbc.M112.449587

DO - 10.1074/jbc.M112.449587

M3 - Journal article

VL - 288

SP - 12511

EP - 12521

JO - Journal of Biological Chemistry

JF - Journal of Biological Chemistry

SN - 0021-9258

IS - 18

ER -

ID: 47963147