Casualties caused by organophosphorus pesticides are a burden for health systems in developing and poor countries. Such compounds are potent acetylcholinesterase irreversible inhibitors, and share the toxic profile with nerve agents. Pyridinium oximes are the only clinically available antidotes against poisoning by these substances, but their poor penetration into the blood-brain barrier hampers the efficient enzyme reactivation at the central nervous system. In searching for structural factors that may be explored in future SAR studies, we evaluated neutral aryloximes as reactivators for paraoxon-inhibited Electrophorus eel acetylcholinesterase. Our findings may result into lead compounds, useful for development of more active compounds for emergencies and supportive care.
Aflatoxins are secondary metabolites of the fungi Aspergillus flavus and A. parasiticus. Among them, aflatoxin B1 (AFB1) is the most frequent type in nature and the most carcinogenic for mammals. It can contaminate many kinds of food like seeds, oil, olives, milk, dairy products, corn and meat, causing acute and chronic damages to the organism, especially in the liver, being, for this reason, considered highly hepatotoxic. AFB1 is also a mixed inhibitor of the enzyme acetylcholinesterase (AChE). This fact, together with its high toxicity and carcinogenicity, turns AFB1 into a potential chemical and biological warfare agent, as well as its metabolites. In order to investigate this, we performed inedited molecular modeling studies on the interactions of AFB1 and its metabolites inside the peripheral anionic site of human AChE (HssAChE), to verify their stability, suggest the preferential ways of inhibition, and compare their behavior to each other. Our results suggest that all metabolites can be better inhibitors of HssAChE than AFB1 and that AFBO and AFM1, the most toxic and carcinogenic metabolites of AFB1, are also the most effective HssAChE inhibitors among the AFB1 metabolites. Communicated by Ramaswamy H. Sarma.
In the present work, we performed docking and molecular dynamics simulations studies on two groups of long-tailored oximes designed as peripheral site binders of acetylcholinesterase (AChE) and potential penetrators on the blood brain barrier. Our studies permitted to determine how the tails anchor in the peripheral site of sarin-inhibited human AChE, and which aminoacids are important to their stabilization. Also the energy values obtained in the docking studies corroborated quite well with the experimental results obtained before for these oximes.
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