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Are the current commercially available oximes capable of reactivating acetylcholinesterase inhibited by the nerve agents of the A-series?

Marcelo C Dos SantosFernanda Diniz BotelhoArlan da Silva GoncalvesDaniel A S KitagawaCaio V N BorgesTaynara Carvalho-SilvaLeandro B BernardoCíntia N FerreiraRafael B RodriguesDenise Cristian Ferreira NetoEugenie NepovimovaTeodorico C RamalhoSteven R LaPlanteAntonio L S LimaTanos Celmar Costa FrançaSamir Frontino de Almeida Cavalcante
Published in: Archives of toxicology (2022)
The misuse of novichok agents in assassination attempts has been reported in the international media since 2018. These relatively new class of neurotoxic agents is claimed to be more toxic than the agents of the G and V series and so far, there is no report yet in literature about potential antidotes against them. To shed some light into this issue, we report here the design and synthesis of NTMGMP, a surrogate of A-242 and also the first surrogate of a novichok agent useful for experimental evaluation of antidotes. Furthermore, the efficiency of the current commercial oximes to reactivate NTMGMP-inhibited acetylcholinesterase (AChE) was evaluated. The Ellman test was used to confirm the complete inhibition of AChE, and to compare the subsequent rates of reactivation in vitro as well as to evaluate aging. In parallel, molecular docking, molecular dynamics and MM-PBSA studies were performed on a computational model of the human AChE (HssAChE)/NTMGMP complex to assess the reactivation performances of the commercial oximes in silico. Experimental and theoretical studies matched the exact hierarchy of efficiency and pointed to trimedoxime as the most promising commercial oxime for reactivation of AChE inhibited by A-242.
Keyphrases
  • molecular docking
  • molecular dynamics
  • density functional theory
  • molecular dynamics simulations
  • endothelial cells
  • case control
  • chronic pain