Conjugates of human serum butyrylcholinesterase and nerve agents are behaviorally safe in rhesus macaques.

Exogenously administered human serum butyrylcholinesterase (Hu BChE) affords protection by binding to organophosphorus (OP) nerve agents and pesticides in circulation. The resulting Hu BChE-OP conjugate undergoes 'aging' and the conjugate circulates until cleared from the body. Thus, we evaluated the effects of Hu BChE-OP conjugates on the general health and operant behavior of macaques. Rhesus macaques trained to perform a six-item serial probe recognition (SPR) task were administered 30 mg/kg of Hu BChE-soman conjugate (n = 4) or Hu BChE-VX conjugate (n = 4) by intramuscular injection. Performance on the SPR task was evaluated at 60-90 min after conjugate administration and daily thereafter for the next 4 weeks. Diazepam (3.2 mg/kg), a positive control, was administered 5 weeks after conjugate administration and performance on the SPR task was evaluated as before. Blood collected throughout the study was analyzed for acetylcholinesterase (AChE) and BChE activities. Residual BChE activity of conjugates displayed a similar pharmacokinetic profile as free Hu BChE. Neither of the Hu BChE-OP conjugates produced clear or pronounced degradations in performance on the SPR task. In contrast, diazepam clearly impaired performance on the SPR task on the day of administration in 7 of 8 macaques (and sometimes longer). Taken together, these results suggest that Hu BChE-OP conjugates are safe and provide further support for the development of Hu BChE as a bioscavenger for use in humans.

Determinants of butyrylcholinesterase inhibition among agricultural pesticide handlers in Washington State: an update.

OBJECTIVES: Organophosphate (OP) and N-methyl-carbamate (CB) insecticides are used widely in agriculture to manage insect pests of economic importance. Agricultural workers are more likely to suffer exposure because of the widespread use of OP/CBs in agriculture, and pesticide-related illnesses among handlers may be more severe when compared to other farm workers. The goal of this study was to identify occupational and personal characteristics associated with butyrylcholinesterase (BuChE) inhibition in participants recruited from the Washington State Cholinesterase Monitoring Program from 2006 to 2011. METHODS: We conducted a longitudinal study among agricultural pesticide handlers in Washington State during the OP/CB spray season (March-July) over a 6-year period (2006-2011). Linear mixed effects regression models were used to evaluate BuChE inhibition in relation to self-reported occupational and personal characteristics. RESULTS: Relative to pre-season baseline levels, the mean decrease in BuChE activity during the OP/CB spray season over all years of the study period was 3.77% (P < 0.001). Greater BuChE inhibition was observed among handlers who reported using multiple OP/CBs (ß = -2.70, P = 0.045), mixed or loaded OP/CBs (ß = -3.97, P = 0.002), did not store personal protective equipment (PPE) in a locker at work (ß = -3.4, P = 0.014), or did not wear chemical-resistant boots (ß = -16.6, P < 0.001). DISCUSSION AND CONCLUSIONS: The Washington State Cholinesterase Monitoring Program has provided a valuable opportunity to evaluate potential sources of OP/CB exposure among agricultural pesticide handlers. Several previously reported associations were confirmed in the current analysis, which included a larger number of pesticide handlers enrolled over a longer time period. The use of multiple OP/CBs and mixing/loading activities were significant risk factors, and the use of chemical-resistant boots and lockers for PPE storage were protective factors. Our findings point toward logical interventions to reduce exposure such as the implementation of engineering controls for mixing/loading activities, requirements for appropriate footwear, and the regular use of lockers for PPE storage.

Biochemical, molecular and preclinical characterization of a double-virus-reduced human butyrylcholinesterase preparation designed for clinical use.

BACKGROUND AND OBJECTIVES: A human plasma-derived butyrylcholinesterase preparation manufactured on the industrial scale is described. MATERIAL AND METHODS: The human butyrylcholinesterase (hBChE) product was extensively investigated for its purity using immunological and electrophoretic methods and characterized by thorough glycoproteomic approaches. A comprehensive preclinical testing programme addressing safety and pharmacokinetic parameters supplemented the biochemical characterization. RESULTS: The high-purity hBChE preparation is tetrameric and has high specific activity and molecular integrity of the protein backbone. Acute toxicity studies and in vivo thrombogenicity studies provided evidence of a sufficient safety margin for use in humans. CONCLUSION: Extensive preclinical safety and pharmacokinetic testing confirmed that this hBChE preparation can be used for further efficacy testing as a bioscavenger for toxic organophosphate compounds in appropriate animal models and ultimately in humans.

Safety of administration of human butyrylcholinesterase and its conjugates with soman or VX in rats.

We evaluated the effects of conjugated enzyme-nerve agent product resulting from the inhibition of bioscavenger human serum butyrylcholinesterase (Hu BChE) by nerve agents soman or VX. Rats were trained on a multiple Fixed-Ratio 32, Extinction 30 sec. (FR32, Ext30) schedule of food reinforcement and then injected (i.m.) with Hu BChE (30 mg/kg), equivalent amounts of Hu BChE-soman conjugate (GDC), Hu BChE-VX conjugate, oxotremorine (OXO) (0.316 mg/kg) or vehicle (n = 8, each group). On the day of injection and on 10 subsequent daily sessions, performance was evaluated on the FR32, Ext30 schedule. Neither conjugates nor Hu BChE produced a performance deficit under the schedule. OXO produced a substantial decrease in responding on the day of administration, with complete recovery observed on subsequent sessions. None of the treatments affected circulating acetylcholinesterase (AChE) activity when evaluated 24-72 hr after injection. The dose of Hu BChE produced a 20,000-fold increase above baseline in circulating BChE activity. Pathological evaluation of organ systems approximately 2 weeks following administration of conjugates or Hu BChE alone did not show toxicity. Taken together, these results suggest that Hu BChE - nerve agent conjugates produced following bioscavenger protection against nerve agents soman and VX do not appear to be particularly toxic. These results add to the safety assessment of Hu BChE as a bioscavenger countermeasure against nerve agent exposure.

Acetilcolinesterase, butirilcolinesterase, carboxilesterase e a resistência de peixes neotropicais aos pesticidas organofosforados / Acetylcholinesterase, butyrylcholinesterase, carboxylesterase and the resistance of neotropical fishes to organophosphorus pesticides

Todos os agrupamentos humanos que se organizam para o trabalho usam rios, lagos ou lagoas como depósitos para a decomposição de matéria indesejável. A contaminação do meio aquático por herbicidas e agrotóxicos derivados de práticas agrícolas se tornou, faz tempo, um problema de importância mundial. Precisamos de informações detalhadas sobre a bioquímica da intoxicação de peixes nativos para avaliarmos quais os efeitos de agrotóxicos sobre os processos bioquímicos que mantêm o ciclo de vida dos peixes em águas do Brasil. Organofosfatos, que são agrotóxicos de uso disseminado, podem interargir com as B-esterases butirilcolinesterase (EC 3.1.1.8) e carboxilesterase (EC 3.1.1.1) presentes no fígado e no plasma. Tanto a butirilcolinesterase (BChE) como a carboxilesterase (CarbE), se presentes em concentrações relativamente elevadas, agem como limpadores estequiométricos ("scavengers" moleculares) por ligarem o átomo de fósforo do grupo P=O com a hidroxila de uma serina presente nos seus sítios ativos. Em nossos resultados observamos que curimbatá possui a CarbE plasmática (IC50 74 nM) mais sensível ao organofosfato metilparaoxon quando comparado ao pacu (IC50 691 nM). Isolamos CarbE dos plasmas de curimbatá e pacu. Piavassu não possui uma atividade expressiva de CarbE no sangue, por isso não a isolamos. O tipo e a distribuição das esterases nos tecidos são particulares da espécie. Curimbatá tem alta atividade de CarbE no fígado (237,8 U.g-1) e no sangue (29,85 U.mL-1), pacu é dotado de alta atividade de BChE (134,0 U.g-1) e CarbE (149,6 U.g-1) no fígado, mas o piavussu conta apenas com a BChE do sangue (17,87 U.g-1). Este arsenal enzimático foi suficiente para proteger as AChE de cérebro, músculo e coração das três espécies e evitar a sua intoxicação leve por 0,2 mg metilparation/L. A abordagem cinético-bioquímica para conhecer a inibição das esterases presentes nos tecidos de diferentes espécies de peixes por agrotóxicos é uma ferramenta útil...

Every human group who organizes to work together uses rivers, lakes or ponds as places in which undesirable substances are deposited for decomposition. Contamination of the aquatic environment with herbicides and pesticides derived from agrucultural practices has become a problem of global importance since a long ago. We need detailed information on the biochemistry of the poisoning of native fish to assess the effects of pesticides on the biochemical processes that maintain fishes' life cycle in waters of Brazil. Organophosphates, which are widely used pesticides, can interact with the B-esterases butyrylcholinesterase (EC 3.1.1.8) and carboxylesterase (EC 3.1.1.1) in plasma and liver. Butyrylcholinesterase (BChE) and carboxylesterase (CarbE) in relatively high concentrations act as stoichiometric scavengers by linking the phosphorus atom of the P=O group with the serine's hydroxyl they have in their active site. Our results show that the CarbE of curimbata plasma (IC50 74 nm) is more sensitive to the organophosphate metilparaoxon than CarbE of pacu plasma (IC50 691 nm). We isolated CarbE from curimbata and pacu's plasma. Piavussu does not have an expressive activity of CarbE in plasma, so we did not isolate it. The type and distribution of esterases in tissues are peculiar to a species. Curimbata has high CarbE activity in the liver (237.8 U.g-1) and blood (29.85 U.mL-1), pacu is equipped with high activities of BChE (134.0 U.g-1) and CarbE (149.6 U.g-1) in the liver and piavussu relies only on BChE of blood (17.87 U.g-1). This enzymatic arsenal was sufficient to protect AChE from brain, muscle and heart of the three species and protect them against mild intoxication by methilparathion (0.2 mg/L). The biochemical kinetic approach that allows understanding of the inhibition of the esterases in tissues of different fish species is a good tool capable of anticipating the harmful consequences of these drugs.

Separation and toxicity of salithion enantiomers.

Enantioseletive toxicities of chiral pesticides have become an environmental concern recently. In this study, we evaluated the enantiomeric separation of salithion on a suite of commercial chiral columns and assessed the toxicity of enantiomers toward butyrylcholinesterase and Daphnia magna. Satisfactory separations of salithion enantiomers could be achieved on all tested columns, that is, Chiralcel OD, Chiralcel OJ, and Chiralpak AD column. However, the Chiralpak AD column offered the best separation and was chosen to prepare micro-scale of pure salithion enantiomers for subsequent bioassays. The first and second enantiomers eluted on the Chiralpak AD column were further confirmed to be (-)-S-salithion and (+)-R-salithion, respectively. The half inhibition concentrations to butyrylcholinesterase of racemate, (+)-R-salithion, and (-)-S-salithion were 33.09, 2.92, and 15.60 mg/l, respectively, showing (+)-R-enantiomer being about 5.0 times more potent than its (-)-S-form. However, the median lethal concentrations (96 h) of racemate, (+)-R-salithion, and (-)-S-salithion toward D. magna were 3.54, 1.10, and 0.36 microg/l, respectively, suggesting that (-)-S-salithion was about 3.0 times more toxic than (+)-R-form. Racemic salithion was less toxic than either of the enantiomers in both bioassays, suggesting that antagonistic interactions might occur between the enantiomers during the toxication action. This work reveals that the toxicity of salithion toward butyrylcholinesterase and D. magna is enantioselective, and this factor should be taken into consideration in the environmental risk assessment of salithion.

Behavioral and pharmacological assessment of butyrylcholinesterase in rats.

Advances in the treatment of organophosphorus (OP) toxicity have focussed on the use of exogenous cholinesterases to act as scavengers for the OP agent. To further investigate the feasibility of the scavenger approach, we evaluated the effects of highly purified horse serum butyrylcholinesterase (HS-BChE) on performance in rats. HS-BChE (5000 U, IP) produced substantial increases in blood enzyme activity for up to 72 h after injection. HS-BChE (5000 U, IP) had no effect on acquisition or retention of a passive avoidance task. In contrast, atropine sulfate (10 mg/kg) impaired retention when tested 168 h after administration. When examined for 10 days following administration, HS-BChE (7500 U, IP) had no effect on either total daily motor activity or circadian pattern of activity. HS-BChE (5000 U, IM) also had no acute or prolonged effects on the rate of lever pressing maintained by a VI56 s schedule of food reinforcement. HS-BChE (7500 U, IM) was observed to confer significant, but partial, protection against response rate decreases produced by the OP, MEPQ, under the VI56 s schedule of reinforcement. These results suggest that, in rats, HS-BChE, at doses that attenuate OP toxicity, may be devoid of cognitive or motor effects.