Revision of the Classical Dopamine D2 Agonist Pharmacophore Based on an Integrated Medicinal Chemistry, Homology Modelling and Computational Docking Approach

Research output: Contribution to journalJournal articleResearchpeer-review

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Revision of the Classical Dopamine D2 Agonist Pharmacophore Based on an Integrated Medicinal Chemistry, Homology Modelling and Computational Docking Approach. / Krogsgaard-Larsen, N; Harpsøe, Kasper; Kehler, J; Christoffersen, Claus Tornby; Brøsen, P; Balle, T.

In: Neurochemical Research, Vol. 39, No. 10, 24.07.2014, p. 1997-2007.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Krogsgaard-Larsen, N, Harpsøe, K, Kehler, J, Christoffersen, CT, Brøsen, P & Balle, T 2014, 'Revision of the Classical Dopamine D2 Agonist Pharmacophore Based on an Integrated Medicinal Chemistry, Homology Modelling and Computational Docking Approach', Neurochemical Research, vol. 39, no. 10, pp. 1997-2007. https://doi.org/10.1007/s11064-014-1314-2

APA

Krogsgaard-Larsen, N., Harpsøe, K., Kehler, J., Christoffersen, C. T., Brøsen, P., & Balle, T. (2014). Revision of the Classical Dopamine D2 Agonist Pharmacophore Based on an Integrated Medicinal Chemistry, Homology Modelling and Computational Docking Approach. Neurochemical Research, 39(10), 1997-2007. https://doi.org/10.1007/s11064-014-1314-2

Vancouver

Krogsgaard-Larsen N, Harpsøe K, Kehler J, Christoffersen CT, Brøsen P, Balle T. Revision of the Classical Dopamine D2 Agonist Pharmacophore Based on an Integrated Medicinal Chemistry, Homology Modelling and Computational Docking Approach. Neurochemical Research. 2014 Jul 24;39(10):1997-2007. https://doi.org/10.1007/s11064-014-1314-2

Author

Krogsgaard-Larsen, N ; Harpsøe, Kasper ; Kehler, J ; Christoffersen, Claus Tornby ; Brøsen, P ; Balle, T. / Revision of the Classical Dopamine D2 Agonist Pharmacophore Based on an Integrated Medicinal Chemistry, Homology Modelling and Computational Docking Approach. In: Neurochemical Research. 2014 ; Vol. 39, No. 10. pp. 1997-2007.

Bibtex

@article{4e29afdc81c844979eb63fa1b68b5ec5,
title = "Revision of the Classical Dopamine D2 Agonist Pharmacophore Based on an Integrated Medicinal Chemistry, Homology Modelling and Computational Docking Approach",
abstract = "The scientific advances during the 1970ies and 1980ies within the field of dopaminergic neurotransmission enabled the development of a pharmacophore that became the template for design and synthesis of dopamine D2 agonists during the following four decades. A major drawback, however, is that this model fails to accommodate certain classes of restrained dopamine D2 agonists including ergoline structures. To accommodate these, a revision of the original model was required. The present study has addressed this by an extension of the original model without compromising its obvious qualities. The revised pharmacophore contains an additional hydrogen bond donor feature, which is required for it to accommodate ergoline structures in a low energy conformation and in accordance with the steric restrictions dictated by the original model. The additional pharmacophore feature suggests ambiguity in the binding mode for certain compounds, including a series of ergoline analogues, which was reported recently. The ambiguity was confirmed by docking to a homology model of the D2 receptor as well as by pharmacological characterization of individual enantiomers of one of the analogues. The present research also addresses the potential of designing ligands that interact with the receptor in a large, distal cavity of the dopamine D2 receptor that has not previously been studied systematically. The pharmacological data indicate that this area may be a major determinant for both the dopamine D2 affinity and efficacy, which remains to be explored in future studies.",
author = "N Krogsgaard-Larsen and Kasper Harps{\o}e and J Kehler and Christoffersen, {Claus Tornby} and P Br{\o}sen and T Balle",
year = "2014",
month = jul,
day = "24",
doi = "10.1007/s11064-014-1314-2",
language = "English",
volume = "39",
pages = "1997--2007",
journal = "Neurochemical Research",
issn = "0364-3190",
publisher = "Springer",
number = "10",

}

RIS

TY - JOUR

T1 - Revision of the Classical Dopamine D2 Agonist Pharmacophore Based on an Integrated Medicinal Chemistry, Homology Modelling and Computational Docking Approach

AU - Krogsgaard-Larsen, N

AU - Harpsøe, Kasper

AU - Kehler, J

AU - Christoffersen, Claus Tornby

AU - Brøsen, P

AU - Balle, T

PY - 2014/7/24

Y1 - 2014/7/24

N2 - The scientific advances during the 1970ies and 1980ies within the field of dopaminergic neurotransmission enabled the development of a pharmacophore that became the template for design and synthesis of dopamine D2 agonists during the following four decades. A major drawback, however, is that this model fails to accommodate certain classes of restrained dopamine D2 agonists including ergoline structures. To accommodate these, a revision of the original model was required. The present study has addressed this by an extension of the original model without compromising its obvious qualities. The revised pharmacophore contains an additional hydrogen bond donor feature, which is required for it to accommodate ergoline structures in a low energy conformation and in accordance with the steric restrictions dictated by the original model. The additional pharmacophore feature suggests ambiguity in the binding mode for certain compounds, including a series of ergoline analogues, which was reported recently. The ambiguity was confirmed by docking to a homology model of the D2 receptor as well as by pharmacological characterization of individual enantiomers of one of the analogues. The present research also addresses the potential of designing ligands that interact with the receptor in a large, distal cavity of the dopamine D2 receptor that has not previously been studied systematically. The pharmacological data indicate that this area may be a major determinant for both the dopamine D2 affinity and efficacy, which remains to be explored in future studies.

AB - The scientific advances during the 1970ies and 1980ies within the field of dopaminergic neurotransmission enabled the development of a pharmacophore that became the template for design and synthesis of dopamine D2 agonists during the following four decades. A major drawback, however, is that this model fails to accommodate certain classes of restrained dopamine D2 agonists including ergoline structures. To accommodate these, a revision of the original model was required. The present study has addressed this by an extension of the original model without compromising its obvious qualities. The revised pharmacophore contains an additional hydrogen bond donor feature, which is required for it to accommodate ergoline structures in a low energy conformation and in accordance with the steric restrictions dictated by the original model. The additional pharmacophore feature suggests ambiguity in the binding mode for certain compounds, including a series of ergoline analogues, which was reported recently. The ambiguity was confirmed by docking to a homology model of the D2 receptor as well as by pharmacological characterization of individual enantiomers of one of the analogues. The present research also addresses the potential of designing ligands that interact with the receptor in a large, distal cavity of the dopamine D2 receptor that has not previously been studied systematically. The pharmacological data indicate that this area may be a major determinant for both the dopamine D2 affinity and efficacy, which remains to be explored in future studies.

U2 - 10.1007/s11064-014-1314-2

DO - 10.1007/s11064-014-1314-2

M3 - Journal article

C2 - 25056287

VL - 39

SP - 1997

EP - 2007

JO - Neurochemical Research

JF - Neurochemical Research

SN - 0364-3190

IS - 10

ER -

ID: 119577339