Cation-π interactions in serotonin: Conformational, electronic distribution, and energy decomposition analysis

Cation-π interactions in serotonin: Conformational, electronic distribution, and energy decomposition analysis

An adiabatic conformational analysis of serotonin (5-hydroxylryptamine, 5-HT) using quantum chemistry led to six stable conformers that can be either +gauche (Gp), -gauche (Gm), and anti (At) depending upon the value taken by ethylamine side chain and 5-hydroxyl group dihedral angles φ1, φ2, and φ4,...

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Main Authors: Jaturong Pratuangdejkul, Pascale Jaudon, Claire Ducrocq, Wichit Nosoongnoen, Georges Alexandre Guerin, Marc Conti, Sylvain Loric, Jean Marie Launay, Philippe Manivet
Other Authors: Hopital Lariboisiere AP-HP
Format: Article
Published: 2018
Subjects:
Chemistry
Computer Science
Online Access:https://repository.li.mahidol.ac.th/handle/123456789/23139
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spelling th-mahidol.231392018-08-20T13:57:13Z Cation-π interactions in serotonin: Conformational, electronic distribution, and energy decomposition analysis Jaturong Pratuangdejkul Pascale Jaudon Claire Ducrocq Wichit Nosoongnoen Georges Alexandre Guerin Marc Conti Sylvain Loric Jean Marie Launay Philippe Manivet Hopital Lariboisiere AP-HP Faculte des Sciences Pharmaceutiques et Biologiques Universite Paris-Sud XI Institut de Chimie des Substances Naturelles BioQuanta Corporation Hopital de Bicetre Hopital Henri Mondor Mahidol University Chaiyapoom Hospital Chemistry Computer Science An adiabatic conformational analysis of serotonin (5-hydroxylryptamine, 5-HT) using quantum chemistry led to six stable conformers that can be either +gauche (Gp), -gauche (Gm), and anti (At) depending upon the value taken by ethylamine side chain and 5-hydroxyl group dihedral angles φ1, φ2, and φ4, respectively. Further vibrational frequency analysis of the GmGp, GmGm, and GmAt conformers with the 5-hydroxyl group in the anti position revealed an additional red-shifted N-H stretch mode band in GmGp and GmGm that is absent in GmAt. This band corresponds to the 5-HT side-chain N-H bond involved in an intramolecular nonbonded interaction with the 5-hydroxy indole ring. The influence of this nonbonded interaction on the electronic distribution was assessed by analysis of the spin-spin coupling constants of GmGp and GmGm that show a marked increase for C2-C 3 and C8-C9 bonds in GmGm and GmGp, respectively, with a decrease of their double bond character and an increase of their length. The Atoms in Molecules (AIM), Natural Bond Orbital (NBO), and fluorescence and CD spectra (TDDFT method) analyses confirmed the existence in GmGp and GmGm of a through-space charge-transfer between the HOMO and the HOMO-1 π-orbital of the indole ring and the LUMO σ* N-H antibonding orbital of the ammonium group. The strength of the cation-π interaction was determined by calculating binding energies of the NH4+/5-hydroxyindole complexes extracted from stable conformers. The energy decomposition analysis indicated that cationic-π interactions in the GmGp and GmGm conformers are governed by the electrostatic term with significant contributions from polarization and charge transfer. The lower stability of the GmGm over the GmGp comes from a higher exchange repulsion and a weaker polarization contributions. Our results provide insight into the nature of intramolecular forces that influence the conformational properties of 5-HT. © 2006 American Chemical Society. 2018-08-20T06:54:45Z 2018-08-20T06:54:45Z 2006-12-01 Article Journal of Chemical Theory and Computation. Vol.2, No.3 (2006), 746-760 10.1021/ct0600316 15499618 2-s2.0-33846219171 https://repository.li.mahidol.ac.th/handle/123456789/23139 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=33846219171&origin=inward
institution Mahidol University
building Mahidol University Library
continent Asia
country Thailand
Thailand
content_provider Mahidol University Library
collection Mahidol University Institutional Repository
topic Chemistry
Computer Science
spellingShingle Chemistry
Computer Science
Jaturong Pratuangdejkul
Pascale Jaudon
Claire Ducrocq
Wichit Nosoongnoen
Georges Alexandre Guerin
Marc Conti
Sylvain Loric
Jean Marie Launay
Philippe Manivet
Cation-π interactions in serotonin: Conformational, electronic distribution, and energy decomposition analysis
description An adiabatic conformational analysis of serotonin (5-hydroxylryptamine, 5-HT) using quantum chemistry led to six stable conformers that can be either +gauche (Gp), -gauche (Gm), and anti (At) depending upon the value taken by ethylamine side chain and 5-hydroxyl group dihedral angles φ1, φ2, and φ4, respectively. Further vibrational frequency analysis of the GmGp, GmGm, and GmAt conformers with the 5-hydroxyl group in the anti position revealed an additional red-shifted N-H stretch mode band in GmGp and GmGm that is absent in GmAt. This band corresponds to the 5-HT side-chain N-H bond involved in an intramolecular nonbonded interaction with the 5-hydroxy indole ring. The influence of this nonbonded interaction on the electronic distribution was assessed by analysis of the spin-spin coupling constants of GmGp and GmGm that show a marked increase for C2-C 3 and C8-C9 bonds in GmGm and GmGp, respectively, with a decrease of their double bond character and an increase of their length. The Atoms in Molecules (AIM), Natural Bond Orbital (NBO), and fluorescence and CD spectra (TDDFT method) analyses confirmed the existence in GmGp and GmGm of a through-space charge-transfer between the HOMO and the HOMO-1 π-orbital of the indole ring and the LUMO σ* N-H antibonding orbital of the ammonium group. The strength of the cation-π interaction was determined by calculating binding energies of the NH4+/5-hydroxyindole complexes extracted from stable conformers. The energy decomposition analysis indicated that cationic-π interactions in the GmGp and GmGm conformers are governed by the electrostatic term with significant contributions from polarization and charge transfer. The lower stability of the GmGm over the GmGp comes from a higher exchange repulsion and a weaker polarization contributions. Our results provide insight into the nature of intramolecular forces that influence the conformational properties of 5-HT. © 2006 American Chemical Society.
author2 Hopital Lariboisiere AP-HP
author_facet Hopital Lariboisiere AP-HP
Jaturong Pratuangdejkul
Pascale Jaudon
Claire Ducrocq
Wichit Nosoongnoen
Georges Alexandre Guerin
Marc Conti
Sylvain Loric
Jean Marie Launay
Philippe Manivet
format Article
author Jaturong Pratuangdejkul
Pascale Jaudon
Claire Ducrocq
Wichit Nosoongnoen
Georges Alexandre Guerin
Marc Conti
Sylvain Loric
Jean Marie Launay
Philippe Manivet
author_sort Jaturong Pratuangdejkul
title Cation-π interactions in serotonin: Conformational, electronic distribution, and energy decomposition analysis
title_short Cation-π interactions in serotonin: Conformational, electronic distribution, and energy decomposition analysis
title_full Cation-π interactions in serotonin: Conformational, electronic distribution, and energy decomposition analysis
title_fullStr Cation-π interactions in serotonin: Conformational, electronic distribution, and energy decomposition analysis
title_full_unstemmed Cation-π interactions in serotonin: Conformational, electronic distribution, and energy decomposition analysis
title_sort cation-π interactions in serotonin: conformational, electronic distribution, and energy decomposition analysis
publishDate 2018
url https://repository.li.mahidol.ac.th/handle/123456789/23139
_version_ 1763488086656811008

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