Title: Molecular modeling studies on the interactions of 7-methoxytacrine-4-pyridinealdoxime, 4-PA, 2-PAM, and obidoxime with VX-inhibited human acetylcholinesterase: a near attack conformation approach da Silva JAV, Nepovimova E, Ramalho TC, Kuca K, Franca TCC Ref: J Enzyme Inhib Med Chem, 34:1018, 2019 : PubMed
7-methoxytacrine-4-pyridinealdoxime (7-MEOTA-4-PA, named hybrid 5C) is a compound formerly synthesized and evaluated in vitro, together with 4-pyridine aldoxime (4-PA) and commercial reactivators of acetylcholinesterase (AChE). This compound was designed with the purpose of being a prophylactic reactivator, capable of interacting with different subdomains of the active site of AChE. To investigate these interactions, theoretical results from docking were first compared with experimental data of hybrid 5C, 4-PA, and two commercial oximes, on the reactivation of human AChE (HssAChE) inhibited by VX. Then, further docking studies, molecular dynamics simulations, and molecular mechanics Poisson-Boltzmann surface area calculations, were carried out to investigate reactivation performances, considering the near attack conformation (NAC) approach, prior to the nucleophilic substitution mechanism. Our results helped to elucidate the interactions of such molecules with the different subdomains of the active site of HssAChE. Additionally, NAC poses of each oxime were suggested for further theoretical studies on the reactivation reaction.
        
Title: Molecular modelling studies on the interactions of 7-methoxytacrine-4-pyridinealdoxime with VX-inhibited human acetylcholinesterase. A near attack approach to assess different spacer-lengths da Silva JAV, Nepovimova E, Ramalho TC, Kuca K, Franca TCC Ref: Chemico-Biological Interactions, 307:195, 2019 : PubMed
The novel prophylactic agent 7-methoxytacrine-4-pyridinealdoxime is a hybrid compound formerly designed to keep acetylcholinesterase resistant to organophosphates by reactivating it in case of intoxication by such inhibitors. In rational design, a 5-carbon length-spacer hybrid compound was synthesized to evaluate its inhibitory and reactivation capabilities. In this work, theoretical results were achieved through molecular modelling techniques, taking for granted the enzymatic reactivation reaction through nucleophilic substitution. Based on the near attack conformation approach, docking studies were performed to assess the spacer-length from 1 to 10 carbons long of a series of analogues of 7-methoxytacrine-4-pyridinealdoxime. Consequently, the hybrids with length-spacer of 4 and 5 carbons long were the best assessed and subsequently subjected to further molecular dynamics simulations, complemented by Poisson-Boltzmann surface area calculations. As a result, intermolecular interactions with the different binding sites inside human acetylcholinesterase were elucidated. Besides, thermodynamics and kinetics concepts pointed to the 4-carbon linker as optimum for enzymatic reactivation. Further studies, based on quantum mechanics in conjunction with molecular mechanics, were recommended to the presented near attack conformations to achieve more thermodynamics results between the hybrids with 4- and 5-carbon linkers, like values of activation energy for the reactivation reaction. All of those in silico evaluations could be considered as a set of tools for theoretically investigate novel enzymatic reactivators with different shape of spacers.
Chemical warfare agents constitute an increasing threat to both military and civilian populations. Therefore, effective prophylactic approaches are urgently needed. Herein, we present a novel hybrid compound which is able not only to keep acetylcholinesterase resistant to organophosphate (OP) inhibitors, but also to serve as an enzyme reactivator in the case of OP intoxication.