We have successfully demonstrated that exogenously administered acetyl- or butyrylcholinesterase (AChE, BChE respectively) will sequester organophosphates (OPs) before they reach their physiological targets. In addition, a third enzyme, endogenous carboxylesterase is known to be capable of scavenging OPs. In these studies, we have administered AChE and BChE to three different species of animals (mice, marmosets and monkeys) which were challenged with three different OPs (VX, MEPQ and soman). Results obtained from these systematic studies demonstrate that: (a) a quantitative linear correlation exists between blood AChE levels and the protection afforded by exogenously administered ChEs in animals challenged with OP, (b) approximately one mole of either AChE or BChE sequesters one mole of OP, (c) such prophylactic measures are sufficient to protect animals against OPs without the administration of any supportive drugs. Thus the OP dose, the blood-level of esterase, the ratio of the circulating enzyme to OP challenge, and the rate of reaction between them determine the overall efficacy of an enzyme as a pretreatment drug. The biochemical mechanism underlying the sequestration of various OPs by the use of exogenously administered scavenging esterases is the same in all species of animals studied. Therefore, the extrapolation of the results obtained by the use of ChE prophylaxis in animals to humans should be more reliable and effective than extrapolating the results from currently used multidrug antidotal modalities.