Structure, Dynamics, and Ligand Recognition of Human-Specific CHRFAM7A (Dupα7) Nicotinic Receptor Linked to Neuropsychiatric Disorders

Structure, Dynamics, and Ligand Recognition of Human-Specific CHRFAM7A (Dupα7) Nicotinic Receptor Linked to Neuropsychiatric Disorders

Cholinergic α7 nicotinic receptors encoded by the <i>CHRNA7</i> gene are ligand-gated ion channels directly related to memory and immunomodulation. Exons 5–7 in <i>CHRNA7</i> can be duplicated and fused to exons A-E of <i>FAR7a</i>, resulting in a hybrid gene know...

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Main Authors: Danlin Liu, João V. de Souza, Ayaz Ahmad, Agnieszka K. Bronowska
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:International Journal of Molecular Sciences
Subjects:
α7 nicotinic receptors
CHRNA7
CHRFAM7A
molecular dynamics
umbrella simulations
coarse grain simulation
Online Access:https://www.mdpi.com/1422-0067/22/11/5466
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spelling doaj-2cbb0ad5942f4aee8efdb85b538b00ba2021-06-01T00:48:14ZengMDPI AGInternational Journal of Molecular Sciences1661-65961422-00672021-05-01225466546610.3390/ijms22115466Structure, Dynamics, and Ligand Recognition of Human-Specific CHRFAM7A (Dupα7) Nicotinic Receptor Linked to Neuropsychiatric DisordersDanlin Liu0João V. de Souza1Ayaz Ahmad2Agnieszka K. Bronowska3Chemistry—School of Natural and Environmental Sciences, Newcastle University, Newcastle NE1 7RU, UKChemistry—School of Natural and Environmental Sciences, Newcastle University, Newcastle NE1 7RU, UKChemistry—School of Natural and Environmental Sciences, Newcastle University, Newcastle NE1 7RU, UKChemistry—School of Natural and Environmental Sciences, Newcastle University, Newcastle NE1 7RU, UKCholinergic α7 nicotinic receptors encoded by the <i>CHRNA7</i> gene are ligand-gated ion channels directly related to memory and immunomodulation. Exons 5–7 in <i>CHRNA7</i> can be duplicated and fused to exons A-E of <i>FAR7a</i>, resulting in a hybrid gene known as <i>CHRFAM7A</i>, unique to humans. Its product, denoted herein as Dupα7, is a truncated subunit where the N-terminal 146 residues of the ligand binding domain of the α7 receptor have been replaced by 27 residues from FAM7. Dupα7 negatively affects the functioning of α7 receptors associated with neurological disorders, including Alzheimer’s diseases and schizophrenia. However, the stoichiometry for the α7 nicotinic receptor containing dupα7 monomers remains unknown. In this work, we developed computational models of all possible combinations of wild-type α7 and dupα7 pentamers and evaluated their stability via atomistic molecular dynamics and coarse-grain simulations. We assessed the effect of dupα7 subunits on the Ca<sup>2+</sup> conductance using free energy calculations. We showed that receptors comprising of four or more dupα7 subunits are not stable enough to constitute a functional ion channel. We also showed that models with dupα7/α7 interfaces are more stable and are less detrimental for the ion conductance in comparison to dupα7/dupα7 interfaces. Based on these models, we used protein–protein docking to evaluate how such interfaces would interact with an antagonist, α-bungarotoxin, and amyloid Aβ<sub>42</sub>. Our findings show that the optimal stoichiometry of dupα7/α7 functional pentamers should be no more than three dupα7 monomers, in favour of a dupα7/α7 interface in comparison to a homodimer dupα7/dupα7 interface. We also showed that receptors bearing dupα7 subunits are less sensitive to Aβ<sub>42</sub> effects, which may shed light on the translational gap reported for strategies focused on nicotinic receptors in ‘Alzheimer’s disease research.https://www.mdpi.com/1422-0067/22/11/5466α7 nicotinic receptorsCHRNA7CHRFAM7Amolecular dynamicsumbrella simulationscoarse grain simulation
collection DOAJ
language English
format Article
sources DOAJ
author Danlin Liu
João V. de Souza
Ayaz Ahmad
Agnieszka K. Bronowska
spellingShingle Danlin Liu
João V. de Souza
Ayaz Ahmad
Agnieszka K. Bronowska
Structure, Dynamics, and Ligand Recognition of Human-Specific CHRFAM7A (Dupα7) Nicotinic Receptor Linked to Neuropsychiatric Disorders
International Journal of Molecular Sciences
α7 nicotinic receptors
CHRNA7
CHRFAM7A
molecular dynamics
umbrella simulations
coarse grain simulation
author_facet Danlin Liu
João V. de Souza
Ayaz Ahmad
Agnieszka K. Bronowska
author_sort Danlin Liu
title Structure, Dynamics, and Ligand Recognition of Human-Specific CHRFAM7A (Dupα7) Nicotinic Receptor Linked to Neuropsychiatric Disorders
title_short Structure, Dynamics, and Ligand Recognition of Human-Specific CHRFAM7A (Dupα7) Nicotinic Receptor Linked to Neuropsychiatric Disorders
title_full Structure, Dynamics, and Ligand Recognition of Human-Specific CHRFAM7A (Dupα7) Nicotinic Receptor Linked to Neuropsychiatric Disorders
title_fullStr Structure, Dynamics, and Ligand Recognition of Human-Specific CHRFAM7A (Dupα7) Nicotinic Receptor Linked to Neuropsychiatric Disorders
title_full_unstemmed Structure, Dynamics, and Ligand Recognition of Human-Specific CHRFAM7A (Dupα7) Nicotinic Receptor Linked to Neuropsychiatric Disorders
title_sort structure, dynamics, and ligand recognition of human-specific chrfam7a (dupα7) nicotinic receptor linked to neuropsychiatric disorders
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1661-6596
1422-0067
publishDate 2021-05-01
description Cholinergic α7 nicotinic receptors encoded by the <i>CHRNA7</i> gene are ligand-gated ion channels directly related to memory and immunomodulation. Exons 5–7 in <i>CHRNA7</i> can be duplicated and fused to exons A-E of <i>FAR7a</i>, resulting in a hybrid gene known as <i>CHRFAM7A</i>, unique to humans. Its product, denoted herein as Dupα7, is a truncated subunit where the N-terminal 146 residues of the ligand binding domain of the α7 receptor have been replaced by 27 residues from FAM7. Dupα7 negatively affects the functioning of α7 receptors associated with neurological disorders, including Alzheimer’s diseases and schizophrenia. However, the stoichiometry for the α7 nicotinic receptor containing dupα7 monomers remains unknown. In this work, we developed computational models of all possible combinations of wild-type α7 and dupα7 pentamers and evaluated their stability via atomistic molecular dynamics and coarse-grain simulations. We assessed the effect of dupα7 subunits on the Ca<sup>2+</sup> conductance using free energy calculations. We showed that receptors comprising of four or more dupα7 subunits are not stable enough to constitute a functional ion channel. We also showed that models with dupα7/α7 interfaces are more stable and are less detrimental for the ion conductance in comparison to dupα7/dupα7 interfaces. Based on these models, we used protein–protein docking to evaluate how such interfaces would interact with an antagonist, α-bungarotoxin, and amyloid Aβ<sub>42</sub>. Our findings show that the optimal stoichiometry of dupα7/α7 functional pentamers should be no more than three dupα7 monomers, in favour of a dupα7/α7 interface in comparison to a homodimer dupα7/dupα7 interface. We also showed that receptors bearing dupα7 subunits are less sensitive to Aβ<sub>42</sub> effects, which may shed light on the translational gap reported for strategies focused on nicotinic receptors in ‘Alzheimer’s disease research.
topic α7 nicotinic receptors
CHRNA7
CHRFAM7A
molecular dynamics
umbrella simulations
coarse grain simulation
url https://www.mdpi.com/1422-0067/22/11/5466
work_keys_str_mv AT danlinliu structuredynamicsandligandrecognitionofhumanspecificchrfam7adupa7nicotinicreceptorlinkedtoneuropsychiatricdisorders
AT joaovdesouza structuredynamicsandligandrecognitionofhumanspecificchrfam7adupa7nicotinicreceptorlinkedtoneuropsychiatricdisorders
AT ayazahmad structuredynamicsandligandrecognitionofhumanspecificchrfam7adupa7nicotinicreceptorlinkedtoneuropsychiatricdisorders
AT agnieszkakbronowska structuredynamicsandligandrecognitionofhumanspecificchrfam7adupa7nicotinicreceptorlinkedtoneuropsychiatricdisorders
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