Allosteric Binding Sites of Aβ Peptides on the Acetylcholine Synthesizing Enzyme ChAT as Deduced by In Silico Molecular Modeling

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dc.contributor.author Baidya, Anurag T. K.
dc.contributor.author Kumar, Amit
dc.contributor.author Kumar, Rajnish
dc.contributor.author Darreh-Shori, Taher
dc.date.accessioned 2023-04-21T05:57:15Z
dc.date.available 2023-04-21T05:57:15Z
dc.date.issued 2022-06-01
dc.identifier.issn 16616596
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/2165
dc.description This paper is submitted by the author of IIT (BHU), Varanasi en_US
dc.description.abstract The native function of amyloid-β (Aβ) peptides is still unexplored. However, several recent reports suggest a prominent role of Aβ peptides in acetylcholine homeostasis. To clarify this role of Aβ, we have reported that Aβ peptides at physiological concentrations can directly enhance the catalytic efficiency of the key cholinergic enzyme, choline acetyltransferase (ChAT), via an allosteric interaction. In the current study, we further aimed to elucidate the underlying ChAT-Aβ interaction mechanism using in silico molecular docking and dynamics analysis. Docking analysis suggested two most probable binding clusters on ChAT for Aβ40 and three for Aβ42. Most importantly, the docking results were challenged with molecular dynamic studies of 100 ns long simulation in triplicates (100 ns × 3 = 300 ns) and were analyzed for RMSD, RMSF, RoG, H-bond number and distance, SASA, and secondary structure assessment performed together with principal component analysis and the free-energy landscape diagram, which indicated that the ChAT-Aβ complex system was stable throughout the simulation time period with no abrupt motion during the evolution of the simulation across the triplicates, which also validated the robustness of the simulation study. Finally, the free-energy landscape analysis confirmed the docking results and demonstrated that the ChAT-Aβ complexes were energetically stable despite the unstructured nature of C-and N-terminals in Aβ peptides. Overall, this study supports the reported in vitro findings that Aβ peptides, particularly Aβ42, act as endogenous ChAT-Potentiating-Ligand (CPL), and thereby supports the hypothesis that one of the native biological functions of Aβ peptides is the regulation of acetylcholine homeostasis. en_US
dc.description.sponsorship This study was supported by grants from Demensfonden; Åhlén-Foundation; Olle Engkvist Byggmästare Foundation; Foundation for Old Servants (Stifelsen Gamla Tjänarinnor); Magnus Bergvalls Foundation; Loo & Hans Osterman Foundation; KI Foundations; KI Geriatrics Foundations; Petra and Augusta Hedlund Foundation; Lindhés Advokatbyrå AB Stiftelser; Gunvor and Josef Anérs Foundation; The Lars Hierta Memorial Foundation; Gun and Bertil Stohnes Foundation; Foundation for Sigurd & Elsa Goljes Memory; Tore Nilsson Foundation; Alzheimer Association, USA (2016-NIRG-391599), the Swedish Research Council (project no 2016-01806), grant from the Swedish state under the agreement between the Swedish government and the county councils, the ALF-agreement (ALF Med N 20200330) and Science Engineering & Research Board (SERB) (start-up grant no. SRG/2021/000415)/. en_US
dc.language.iso en en_US
dc.publisher MDPI en_US
dc.relation.ispartofseries International Journal of Molecular Sciences;Article number 6073
dc.subject Alzheimer’s disease en_US
dc.subject Choline acetyltransferase en_US
dc.subject Cholinergic system en_US
dc.subject in silico modeling en_US
dc.subject β-amyloid en_US
dc.title Allosteric Binding Sites of Aβ Peptides on the Acetylcholine Synthesizing Enzyme ChAT as Deduced by In Silico Molecular Modeling en_US
dc.type Article en_US


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