Limitations in current acetylcholinesterase structure–based design of oxime antidotes for organophosphate poisoning

Acetylcholinesterase (AChE; EC 3.1.1.7), an essential enzyme of cholinergic neurotransmission in vertebrates, is a primary target in acute nerve agent and organophosphate (OP) pesticide intoxication. Catalytically inactive OP–AChE conjugates formed between the active‐center serine and phosphorus of OPs can, in principle, be reactivated by nucleophilic oxime antidotes. Antidote efficacy is limited by the structural diversity of OP–AChE conjugates resulting from differences in the structure of the conjugated OP, the different active‐center volumes they occupy when conjugated to the active‐center serine of AChE, and the distinct chemical characteristics of both OPs and oximes documented in numerous X‐ray structures of OP‐conjugated AChEs. Efforts to improve oxime reactivation efficacy by AChE structure–based enhancement of oxime structure have yielded only limited success. We outline here the potential limitations of available AChE X‐ray structures that preclude an accurate prediction of oxime structures, which are necessary for association in the OP–AChE gorge and nucleophilic attack of the OP‐conjugated phosphorus.