The rise of various neurodegenerative disorders are somewhat correlating with the worldwide application of multiple anthropogenic toxicants. Though different possible targets were revealed to date, for example, for organophosphorus compounds (OPs), plenty of questions remain. Several decarboxylases (aromatic amino acid decarboxylase, AADC; histidine decarboxylase, HDC; glutamate decarboxylase, GAD) catalyze the biosynthesis of neurotransmitters and neuromodulators and contain pyridoxal phosphate (PLP) as a cofactor. In the current work, 18 OPs which have different neurotoxicity (chemical warfare agents and pesticides) and can penetrate through the blood-brain barrier, were selected. Then, their possible interaction with these decarboxylases in both apo- and holoforms was revealed using computer modeling methods (molecular docking and dynamics). The main amino acid residues of the enzymes responsible for binding OPs have been identified. Individual substances that are most dangerous from the point of view of a possible negative effect on the activity of several decarboxylases were revealed among studied OPs. Glyphosate should be of special interest, since it is not highly toxic towards serine hydrolases, but may prove to be a strong inhibitor for decarboxylases. Holo-AADC could be the most inhibition-prone enzyme among all those investigated.
Keywords: Chemical warfare agent; Computational and predictive toxicity; Human decarboxylase; Molecular modeling; Organophosphorus compound; Pesticide.
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