Your search keyword '"Organophosphate poisoning"' showing total 29 results

1. Persistent behavior deficits, neuroinflammation, and oxidative stress in a rat model of acute organophosphate intoxication.

Author

Guignet, Michelle, Guignet, Michelle, Dhakal, Kiran, Flannery, Brenna M, Hobson, Brad A, Zolkowska, Dorota, Dhir, Ashish, Bruun, Donald A, Li, Shuyang, Wahab, Abdul, Harvey, Danielle J, Silverman, Jill L, Rogawski, Michael A, Lein, Pamela J, Guignet, Michelle, Guignet, Michelle, Dhakal, Kiran, Flannery, Brenna M, Hobson, Brad A, Zolkowska, Dorota, Dhir, Ashish, Bruun, Donald A, Li, Shuyang, Wahab, Abdul, Harvey, Danielle J, Silverman, Jill L, Rogawski, Michael A, and Lein, Pamela J

Abstract

Current medical countermeasures for organophosphate (OP)-induced status epilepticus (SE) are not effective in preventing long-term morbidity and there is an urgent need for improved therapies. Rat models of acute intoxication with the OP, diisopropylfluorophosphate (DFP), are increasingly being used to evaluate therapeutic candidates for efficacy in mitigating the long-term neurologic effects associated with OP-induced SE. Many of these therapeutic candidates target neuroinflammation and oxidative stress because of their implication in the pathogenesis of persistent neurologic deficits associated with OP-induced SE. Critical to these efforts is the rigorous characterization of the rat DFP model with respect to outcomes associated with acute OP intoxication in humans, which include long-term electroencephalographic, neurobehavioral, and neuropathologic effects, and their temporal relationship to neuroinflammation and oxidative stress. To address these needs, we examined a range of outcomes at later times post-exposure than have previously been reported for this model. Adult male Sprague-Dawley rats were given pyridostigmine bromide (0.1 mg/kg, im) 30 min prior to administration of DFP (4 mg/kg, sc), which was immediately followed by atropine sulfate (2 mg/kg, im) and pralidoxime (25 mg/kg, im). This exposure paradigm triggered robust electroencephalographic and behavioral seizures that rapidly progressed to SE lasting several hours in 90% of exposed animals. Animals that survived DFP-induced SE (~70%) exhibited spontaneous recurrent seizures and hyperreactive responses to tactile stimuli over the first 2 months post-exposure. Performance in the elevated plus maze, open field, and Pavlovian fear conditioning tests indicated that acute DFP intoxication reduced anxiety-like behavior and impaired learning and memory at 1 and 2 months post-exposure in the absence of effects on general locomotor behavior. Immunohistochemical analyses revealed significantly increased expres

Published

2020

2. Persistent behavior deficits, neuroinflammation, and oxidative stress in a rat model of acute organophosphate intoxication.

Author

Guignet, Michelle, Guignet, Michelle, Dhakal, Kiran, Flannery, Brenna M, Hobson, Brad A, Zolkowska, Dorota, Dhir, Ashish, Bruun, Donald A, Li, Shuyang, Wahab, Abdul, Harvey, Danielle J, Silverman, Jill L, Rogawski, Michael A, Lein, Pamela J, Guignet, Michelle, Guignet, Michelle, Dhakal, Kiran, Flannery, Brenna M, Hobson, Brad A, Zolkowska, Dorota, Dhir, Ashish, Bruun, Donald A, Li, Shuyang, Wahab, Abdul, Harvey, Danielle J, Silverman, Jill L, Rogawski, Michael A, and Lein, Pamela J

Abstract

Current medical countermeasures for organophosphate (OP)-induced status epilepticus (SE) are not effective in preventing long-term morbidity and there is an urgent need for improved therapies. Rat models of acute intoxication with the OP, diisopropylfluorophosphate (DFP), are increasingly being used to evaluate therapeutic candidates for efficacy in mitigating the long-term neurologic effects associated with OP-induced SE. Many of these therapeutic candidates target neuroinflammation and oxidative stress because of their implication in the pathogenesis of persistent neurologic deficits associated with OP-induced SE. Critical to these efforts is the rigorous characterization of the rat DFP model with respect to outcomes associated with acute OP intoxication in humans, which include long-term electroencephalographic, neurobehavioral, and neuropathologic effects, and their temporal relationship to neuroinflammation and oxidative stress. To address these needs, we examined a range of outcomes at later times post-exposure than have previously been reported for this model. Adult male Sprague-Dawley rats were given pyridostigmine bromide (0.1 mg/kg, im) 30 min prior to administration of DFP (4 mg/kg, sc), which was immediately followed by atropine sulfate (2 mg/kg, im) and pralidoxime (25 mg/kg, im). This exposure paradigm triggered robust electroencephalographic and behavioral seizures that rapidly progressed to SE lasting several hours in 90% of exposed animals. Animals that survived DFP-induced SE (~70%) exhibited spontaneous recurrent seizures and hyperreactive responses to tactile stimuli over the first 2 months post-exposure. Performance in the elevated plus maze, open field, and Pavlovian fear conditioning tests indicated that acute DFP intoxication reduced anxiety-like behavior and impaired learning and memory at 1 and 2 months post-exposure in the absence of effects on general locomotor behavior. Immunohistochemical analyses revealed significantly increased expres

Published

2020

3. Evaluation of high-affinity phenyltetrahydroisoquinoline aldoximes, linked through anti-triazoles, as reactivators of phosphylated cholinesterases.

Author

Maček Hrvat, Nikolina, Maček Hrvat, Nikolina, Kalisiak, Jarosław, Šinko, Goran, Radić, Zoran, Sharpless, K Barry, Taylor, Palmer, Kovarik, Zrinka, Maček Hrvat, Nikolina, Maček Hrvat, Nikolina, Kalisiak, Jarosław, Šinko, Goran, Radić, Zoran, Sharpless, K Barry, Taylor, Palmer, and Kovarik, Zrinka

Abstract

Acetylcholinesterase (AChE) is a pivotal enzyme in neurotransmission. Its inhibition leads to cholinergic crises and could ultimately result in death. A related enzyme, butyrylcholinesterase (BChE), may act in the CNS as a co-regulator in terminating nerve impulses and is a natural plasma scavenger upon exposure to organophosphate (OP) nerve agents that irreversibly inhibit both enzymes. With the aim of improving reactivation of cholinesterases phosphylated by nerve agents sarin, VX, cyclosarin, and tabun, ten phenyltetrahydroisoquinoline (PIQ) aldoximes were synthesized by Huisgen 1,3 dipolar cycloaddition between alkyne- and azide-building blocks. The PIQ moiety may serve as a peripheral site anchor positioning the aldoxime moiety at the AChE active site. In terms of evaluated dissociation inhibition constants, the aldoximes could be characterized as high-affinity ligands. Nevertheless, high binding affinity of these oximes to AChE or its phosphylated conjugates did not assure rapid and selective AChE reactivation. Rather, potential reactivators of phosphylated BChE, with its enlarged acyl pocket, were identified, especially in case of cyclosarin, where the reactivation rates of the lead reactivator was 100- and 6-times that of 2-PAM and HI-6, respectively. Nevertheless, the return of the enzyme activity was affected by the nerve agent conjugated to catalytic serine, which highlights the lack of the universality of reactivators with respect to both the target enzyme and OP structure.

Published

2020

4. Intoxicación por organofosforados

Author

Orias Vásquez, Mary and Orias Vásquez, Mary

Abstract

Organophosphates are one of the most widely used insecticides in agriculture and domestic use, poisonings occur from occupational exposure and from voluntary intake. It works by developing its toxicity in the nerve endings through the hydrolysis of acetylcholine, the enzyme responsible for hydrolyzing acetylcholine. The clinical picture generates a characteristic syndrome, with cholinergic symptoms (bronchorrhea, salivation, tearing, bronchospasm, defecation, emesis, miosis, among others) due to the stimulation of muscarinic and nicotinic receptors. Diagnosis is made through a medical history and physical examination. Additionally, you can help with cabinet exams like detecting metabolites in the urine. Currently treatment includes decontamination measures, ventilatory support, and pharmacological treatment, which includes the use of atropine, pralidoxime, and diazepam. In addition, it is supported by the use of rhubarb as an adjuvant. Proper management of these patients can mean the difference between life and death, so it is important that all emergency personnel are trained to recognize the clinical picture., Los organofosforados son uno de los insecticidas más utilizados en la agricultura y en el uso doméstico, las intoxicaciones ocurren por exposición ocupacional y por ingesta voluntaria. Actúa desarrollando su toxicidad en las terminaciones nerviosas a través de la hidrolisis de acetilcolina, enzima encargada de hidrolizar el acetil colina. El cuadro clínico genera un síndrome característico, con síntomas colinérgicos (broncorrea, salivación, lagrimeo, broncoespasmo, defecación, emesis, miosis, entre otro) producto a la estimulación de los receptores de muscarínicos y nicotínicos. El diagnóstico se realiza mediante la historia clínica y el examen físico. De manera adicional, se puede ayudar con exámenes de gabinete como la detección de metabolitos en la orina. Actualmente el tratamiento incluye medidas de descontaminación, soporte ventilatorio, y tratamiento farmacológico, que incluye el uso de la atropina, pralidoxima y diazepam. Además, se apoya en el uso de ruibarbo como adyuvante. El manejo adecuado de estos pacientes puede significar la diferencia entre la vida y muerte, por lo cual es importante que todo el personal de emergencia este capacitado para reconocer el cuadro clínica.

Published

2020

5. Pretreatment with pyridostigmine bromide has no effect on seizure behavior or 24 hour survival in the rat model of acute diisopropylfluorophosphate intoxication.

Author

Bruun, Donald A, Bruun, Donald A, Guignet, Michelle, Harvey, Danielle J, Lein, Pamela J, Bruun, Donald A, Bruun, Donald A, Guignet, Michelle, Harvey, Danielle J, and Lein, Pamela J

Abstract

Acute intoxication with organophosphate cholinesterase inhibitors (OPs) is a significant human health threat, and current medical countermeasures for OP poisoning are of limited therapeutic efficacy. The rat model of acute intoxication with diisopropylfluorophosphate (DFP) is increasingly being used to test candidate compounds for efficacy in protecting against the immediate and long-term consequences of acute OP toxicity. In this model, rats are typically pretreated with pyridostigmine bromide (PB), a reversible cholinesterase inhibitor, to enhance survival. However, PB pretreatment is not likely in most scenarios of civilian exposure to acutely neurotoxic levels of OPs. Therefore, the goal of this study was to determine whether PB pretreatment significantly increases survival in DFP-intoxicated rats. Adult male Sprague Dawley rats were injected with DFP (4 mg/kg, s.c.) or vehicle (VEH) followed 1 min later by combined i.m. injection of atropine sulfate (2 mg/kg) and 2-pralidoxime (25 mg/kg). Animals were pretreated 30 min prior to these injections with PB (0.1 mg/kg, i.m.) or an equal volume of saline. DFP triggered rapid and sustained seizure behavior irrespective of PB pretreatment, and there was no significant difference in average seizure behavior score during the first 4 h following injection between DFP animals pretreated with PB or not. PB pretreatment also had no significant effect on survival or brain AChE activity at 24 h post-DFP exposure. In summary, PB pretreatment is not necessary to ensure survival of rats acutely intoxicated with DFP, and eliminating PB pretreatment in the rat model of acute DFP intoxication would increase its relevance to acute OP intoxication in civilians.

Published

2019

6. Pretreatment with pyridostigmine bromide has no effect on seizure behavior or 24 hour survival in the rat model of acute diisopropylfluorophosphate intoxication.

Author

Bruun, Donald A, Bruun, Donald A, Guignet, Michelle, Harvey, Danielle J, Lein, Pamela J, Bruun, Donald A, Bruun, Donald A, Guignet, Michelle, Harvey, Danielle J, and Lein, Pamela J

Abstract

Acute intoxication with organophosphate cholinesterase inhibitors (OPs) is a significant human health threat, and current medical countermeasures for OP poisoning are of limited therapeutic efficacy. The rat model of acute intoxication with diisopropylfluorophosphate (DFP) is increasingly being used to test candidate compounds for efficacy in protecting against the immediate and long-term consequences of acute OP toxicity. In this model, rats are typically pretreated with pyridostigmine bromide (PB), a reversible cholinesterase inhibitor, to enhance survival. However, PB pretreatment is not likely in most scenarios of civilian exposure to acutely neurotoxic levels of OPs. Therefore, the goal of this study was to determine whether PB pretreatment significantly increases survival in DFP-intoxicated rats. Adult male Sprague Dawley rats were injected with DFP (4 mg/kg, s.c.) or vehicle (VEH) followed 1 min later by combined i.m. injection of atropine sulfate (2 mg/kg) and 2-pralidoxime (25 mg/kg). Animals were pretreated 30 min prior to these injections with PB (0.1 mg/kg, i.m.) or an equal volume of saline. DFP triggered rapid and sustained seizure behavior irrespective of PB pretreatment, and there was no significant difference in average seizure behavior score during the first 4 h following injection between DFP animals pretreated with PB or not. PB pretreatment also had no significant effect on survival or brain AChE activity at 24 h post-DFP exposure. In summary, PB pretreatment is not necessary to ensure survival of rats acutely intoxicated with DFP, and eliminating PB pretreatment in the rat model of acute DFP intoxication would increase its relevance to acute OP intoxication in civilians.

Published

2019

7. Modeling of heart rate variability and respiratory muscle activity in organophosphate poisoned patients

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria de Sistemes, Automàtica i Informàtica Industrial, Universitat Politècnica de Catalunya. BIOART - BIOsignal Analysis for Rehabilitation and Therapy, Salazar, Maria Bernarda, Hernández, Alher Mauricio, Mañanas Villanueva, Miguel Ángel, Universitat Politècnica de Catalunya. Departament d'Enginyeria de Sistemes, Automàtica i Informàtica Industrial, Universitat Politècnica de Catalunya. BIOART - BIOsignal Analysis for Rehabilitation and Therapy, Salazar, Maria Bernarda, Hernández, Alher Mauricio, and Mañanas Villanueva, Miguel Ángel

Abstract

© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting /republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works, We propose an extended model of cardiovascular regulation to assess heart rate variability in patients poisoned with organophosphate during their treatment with mechanical ventilation. The model was modified to fit a population of 21 patients poisoned with organophosphorus compounds and undergoing mechanical ventilation. The extended model incorporated the respiratory muscle activity measured by surface electromyography for quantifying the vagal-sympathetic engagement during spontaneous breathing test. The order and structure of the parasympathetic and the sympathetic transfer function with respect to the original model were modified to a second-order system. In this extended model, the parameters related to the vagal-sympathetic response (corner frequency and constant gain) were correlated with respiratory muscle activity. When the diaphragm's contractions were stronger, the sympathetic corner frequency increased while the parasympathetic corner frequency and gain decreased. Thus, the proposed model could be useful to improve the ventilatory support and pharmacological treatment for patients poisoned with organophosphorus compounds considering the vagal-sympathetic response inferred from the respiratory muscle activity, Peer Reviewed, Postprint (author's final draft)

Published

2019

8. Pharmacology, Pharmacokinetics, and Tissue Disposition of Zwitterionic Hydroxyiminoacetamido Alkylamines as Reactivating Antidotes for Organophosphate Exposure.

Author

Sit, Rakesh K, Sit, Rakesh K, Kovarik, Zrinka, Maček Hrvat, Nikolina, Žunec, Suzana, Green, Carol, Fokin, Valery V, Sharpless, K Barry, Radić, Zoran, Taylor, Palmer, Sit, Rakesh K, Sit, Rakesh K, Kovarik, Zrinka, Maček Hrvat, Nikolina, Žunec, Suzana, Green, Carol, Fokin, Valery V, Sharpless, K Barry, Radić, Zoran, and Taylor, Palmer

Abstract

In the development of antidotal therapy for treatment of organophosphate exposure from pesticides used in agriculture and nerve agents insidiously employed in terrorism, the alkylpyridinium aldoximes have received primary attention since their early development by I. B. Wilson in the 1950s. Yet these agents, by virtue of their quaternary structure, are limited in rates of crossing the blood-brain barrier, and they require administration parenterally to achieve full distribution in the body. Oximes lacking cationic charges or presenting a tertiary amine have been considered as alternatives. Herein, we examine the pharmacokinetic properties of a lead ionizable, zwitterionic hydroxyiminoacetamido alkylamine in mice to develop a framework for studying these agents in vivo and generate sufficient data for their consideration as appropriate antidotes for humans. Consequently, in vitro and in vivo efficacies of immediate structural congeners were explored as leads or backups for animal studies. We compared oral and parenteral dosing, and we developed an intramuscular loading and oral maintenance dosing scheme in mice. Steady-state plasma and brain levels of the antidote were achieved with sequential administrations out to 10 hours, with brain levels exceeding plasma levels shortly after administration. Moreover, the zwitterionic oxime showed substantial protection after gavage, whereas the classic methylpyridinium aldoxime (2-pyridinealdoxime methiodide) was without evident protection. Although further studies in other animal species are necessary, ionizing zwitterionic aldoximes present viable alternatives to existing antidotes for prophylaxis and treatment of large numbers of individuals in terrorist-led events with nerve agent organophosphates, such as sarin, and in organophosphate pesticide exposure.

Published

2018

9. Post-exposure treatment with the oxime RS194B rapidly reactivates and reverses advanced symptoms of lethal inhaled paraoxon in macaques.

Author

Rosenberg, Yvonne J, Rosenberg, Yvonne J, Wang, Jerry, Ooms, Tara, Rajendran, Narayanan, Mao, Lingjun, Jiang, Xiaoming, Lees, Jonathan, Urban, Lori, Momper, Jeremiah D, Sepulveda, Yadira, Shyong, Yan-Jye, Taylor, Palmer, Rosenberg, Yvonne J, Rosenberg, Yvonne J, Wang, Jerry, Ooms, Tara, Rajendran, Narayanan, Mao, Lingjun, Jiang, Xiaoming, Lees, Jonathan, Urban, Lori, Momper, Jeremiah D, Sepulveda, Yadira, Shyong, Yan-Jye, and Taylor, Palmer

Abstract

Fatalities from organophosphate (OP) insecticide result from both occupational and deliberate exposure; significantly impacting human health. Like nerve agents, insecticides are neurotoxins which target and inhibit acetylcholinesterases (AChE) in central and peripheral synapses in the cholinergic nervous system. Post-exposure therapeutic countermeasures generally include administration of atropine with a pyridinium aldoxime e.g. pralidoxime, to reactivate the OP-inhibited AChE. However, commonly used oximes inefficiently cross the bloodbrain barrier and are rapidly cleared and their benefit is debated. Recent findings have demonstrated the ability of a novel zwitterionic, centrally acting, brain penetrating oxime (RS194B) to reverse severe symptoms and rapidly reactivate sarin-inhibited AChE in macaques, but it has not been tested following OP pesticide poisoning. In the present study, the symptoms following a lethal dose of inhaled paraoxon (100ug/kg), were shown to mimic those in insecticide poisoned individuals and were also rapidly reversed in macaques by post-exposure IM administration of 80mg/kg of RS194B. This occurred with a concomitant reactivation of AChE to 40-100% in<1hr and BChE (40% in 8h). These findings will be used to develop a macaque model with RS194B as a post-exposure treatment for insecticide poisoning and generate efficacy data for approval under the FDA Animal rule.

Published

2018

10. Radiosynthesis, ex Vivo Biodistribution, and in Vivo Positron Emission Tomography Imaging Evaluations of [11C]2-Pyridinealdoxime Methiodide ([11C]2-PAM): A First-In-Class Antidote Tracer for Organophosphate Intoxication.

Author

Neumann, Kiel, Neumann, Kiel, Blecha, Joseph, Hayes, Thomas, Huynh, Tony, Chao, Chih-Kai, Guilloteau, Nicolas, Zinn, Kurt, VanBrocklin, Henry, Thompson, Charles, Gerdes, John, Neumann, Kiel, Neumann, Kiel, Blecha, Joseph, Hayes, Thomas, Huynh, Tony, Chao, Chih-Kai, Guilloteau, Nicolas, Zinn, Kurt, VanBrocklin, Henry, Thompson, Charles, and Gerdes, John

Abstract

2-Pyridinealdoxime methiodide (2-PAM) is a widely used antidote for the treatment of organophosphorus (OP) exposure that reactivates the target protein acetylcholinesterase. Carbon-11 2-PAM was prepared to more fully understand the in vivo mode of action, distribution, and dynamic qualities of this important countermeasure. Alkylation of 2-pyridinealdoxime with [11C]CH3I provided the first-in-class [11C]2-PAM tracer in 3.5% decay corrected radiochemical yield from [11C]CH3I, >99% radiochemical purity, and 4831 Ci/mmol molar activity. [11C]2-PAM tracer distribution was evaluated by ex vivo biodistribution and in vivo dynamic positron emission tomography (PET) imaging in naïve (OP exposure deficient) rats. Tracer alone and tracer coinjected with a body mass-scaled human therapeutic dose of 30 mg/kg nonradioactive 2-PAM demonstrated statistically similar tissue and blood distribution profiles with the greatest uptake in kidney and significantly lower levels in liver, heart, and lung with lesser amounts in blood and brain. The imaging and biodistribution data show that radioactivity uptake in brain and peripheral organs is rapid and characterized by differential tissue radioactivity washout profiles. Analysis of arterial blood samples taken 5 min after injection showed ∼82% parent [11C]2-PAM tracer. The imaging and biodistribution data are now established, enabling future comparisons to outcomes acquired in OP intoxicated rodent models.

Published

2018

11. Potential short-term neurobehavioral alterations in children associated with a peak pesticide spray season: The Mother's Day flower harvest in Ecuador.

Author

Suarez-Lopez, Jose R, Suarez-Lopez, Jose R, Checkoway, Harvey, Jacobs, David R, Al-Delaimy, Wael K, Gahagan, Sheila, Suarez-Lopez, Jose R, Suarez-Lopez, Jose R, Checkoway, Harvey, Jacobs, David R, Al-Delaimy, Wael K, and Gahagan, Sheila

Abstract

BackgroundExposures to cholinesterase inhibitor pesticides (e.g. organophosphates) have been associated with children's neurobehavioral alterations, including attention deficit and impulsivity. Animal studies have observed transient alterations in neurobehavioral performance in relation to cholinesterase inhibitor pesticide exposures; however, limited evidence exists regarding transient effects in humans.MethodsWe estimated the associations between neurobehavioral performance and time after Mother's Day flower harvest (the end of a heightened pesticide usage period) among 308 4-to 9-year-old children living in floricultural communities in Ecuador in 2008 who participated in the ESPINA study. Children's neurobehavior was examined once (NEPSY-II: 11 subtests covering 5 domains), between 63 and 100days (SD: 10.8days) after Mother's Day harvest (blood acetylcholinesterase activity levels can take 82days to normalize after irreversible inhibition with organophosphates).ResultsThe mean (SD) neurobehavioral scaled scores across domains ranged from 6.6 (2.4) to 9.9 (3.3); higher values reflect greater performance. Children examined sooner after Mother's Day had lower neurobehavioral scores than children examined later, in the domains of (score difference per 10.8days, 95%CI): Attention/Inhibitory Control (0.38, 0.10-0.65), Visuospatial Processing (0.60, 0.25-0.95) and Sensorimotor (0.43, 0.10-0.77). Scores were higher with longer time post-harvest among girls (vs. boys) in Attention/Inhibitory Control.ConclusionsOur findings, although cross-sectional, are among the first in non-worker children to suggest that a peak pesticide use period may transiently affect neurobehavioral performance, as children examined sooner after the flower harvest had lower neurobehavioral performance than children examined later. Studies assessing pre- and post-exposure measures are needed.

Published

2017

12. Models to identify treatments for the acute and persistent effects of seizure-inducing chemical threat agents.

Author

Pessah, Isaac N, Pessah, Isaac N, Rogawski, Michael A, Tancredi, Daniel J, Wulff, Heike, Zolkowska, Dorota, Bruun, Donald A, Hammock, Bruce D, Lein, Pamela J, Pessah, Isaac N, Pessah, Isaac N, Rogawski, Michael A, Tancredi, Daniel J, Wulff, Heike, Zolkowska, Dorota, Bruun, Donald A, Hammock, Bruce D, and Lein, Pamela J

Abstract

Exposures to seizure-inducing chemical threat agents are a major public health concern. Of particular need is improved treatment to terminate convulsions and to prevent the long-term neurological sequelae in survivors. We are studying the organophosphorus cholinesterase inhibitor diisopropyl fluorophosphate (DFP) and the GABA receptor inhibitor tetramethylenedisulfotetramine (TETS), which arguably encompass the mechanistic spectrum of seizure-inducing chemical threats, with the goal of identifying therapeutic approaches with broad-spectrum efficacy. Research efforts have focused on developing translational models and translational diagnostic approaches, including (1) in vivo models of DFP- and TETS-induced seizures for studying neuropathological mechanisms and identifying treatment approaches; (2) in vivo imaging modalities for noninvasive longitudinal monitoring of neurological damage and response to therapeutic candidates; and (3) higher-throughput in vitro platforms for rapid screening of compounds to identify potential antiseizure and neuroprotective agents, as well as mechanistically relevant novel drug targets. This review summarizes our progress toward realizing these goals and discusses best practices and mechanistic insights derived from our modeling efforts.

Published

2016

13. Models to identify treatments for the acute and persistent effects of seizure-inducing chemical threat agents.

Author

Pessah, Isaac N, Pessah, Isaac N, Rogawski, Michael A, Tancredi, Daniel J, Wulff, Heike, Zolkowska, Dorota, Bruun, Donald A, Hammock, Bruce D, Lein, Pamela J, Pessah, Isaac N, Pessah, Isaac N, Rogawski, Michael A, Tancredi, Daniel J, Wulff, Heike, Zolkowska, Dorota, Bruun, Donald A, Hammock, Bruce D, and Lein, Pamela J

Abstract

Exposures to seizure-inducing chemical threat agents are a major public health concern. Of particular need is improved treatment to terminate convulsions and to prevent the long-term neurological sequelae in survivors. We are studying the organophosphorus cholinesterase inhibitor diisopropyl fluorophosphate (DFP) and the GABA receptor inhibitor tetramethylenedisulfotetramine (TETS), which arguably encompass the mechanistic spectrum of seizure-inducing chemical threats, with the goal of identifying therapeutic approaches with broad-spectrum efficacy. Research efforts have focused on developing translational models and translational diagnostic approaches, including (1) in vivo models of DFP- and TETS-induced seizures for studying neuropathological mechanisms and identifying treatment approaches; (2) in vivo imaging modalities for noninvasive longitudinal monitoring of neurological damage and response to therapeutic candidates; and (3) higher-throughput in vitro platforms for rapid screening of compounds to identify potential antiseizure and neuroprotective agents, as well as mechanistically relevant novel drug targets. This review summarizes our progress toward realizing these goals and discusses best practices and mechanistic insights derived from our modeling efforts.

Published

2016

14. Limitations in current acetylcholinesterase structure-based design of oxime antidotes for organophosphate poisoning.

Author

Kovalevsky, Andrey, Kovalevsky, Andrey, Blumenthal, Donald K, Cheng, Xiaolin, Taylor, Palmer, Radić, Zoran, Kovalevsky, Andrey, Kovalevsky, Andrey, Blumenthal, Donald K, Cheng, Xiaolin, Taylor, Palmer, and Radić, Zoran

Abstract

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.

Published

2016

15. HI-6 assisted catalytic scavenging of VX by acetylcholinesterase choline binding site mutants.

Author

Maček Hrvat, Nikolina, Maček Hrvat, Nikolina, Žunec, Suzana, Taylor, Palmer, Radić, Zoran, Kovarik, Zrinka, Maček Hrvat, Nikolina, Maček Hrvat, Nikolina, Žunec, Suzana, Taylor, Palmer, Radić, Zoran, and Kovarik, Zrinka

Abstract

The high toxicity of organophosphorus compounds originates from covalent inhibition of acetylcholinesterase (AChE), an essential enzyme in cholinergic neurotransmission. Poisonings that lead to life-threatening toxic manifestations require immediate treatment that combines administration of anticholinergic drugs and an aldoxime as a reactivator of AChE. An alternative approach to reduce the in vivo toxicity of OPs focuses on the use of bioscavengers against the parent organophosphate. Our previous research showed that AChE mutagenesis can enable aldoximes to substantially accelerate the reactivation of OP-enzyme conjugates, while dramatically slowing down rates of OP-conjugate dealkylation (aging). Herein, we demonstrate an efficient HI-6-assisted VX detoxification, both ex vivo in human blood and in vivo in mice by hAChE mutants modified at the choline binding site (Y337A and Y337A/F338A). The catalytic scavenging of VX in mice improved therapeutic outcomes preventing lethality and resulted in a delayed onset of toxicity symptoms.

Published

2016

16. Home-based community health worker intervention to reduce pesticide exposures to farmworkers' children: A randomized-controlled trial.

Author

Salvatore, Alicia L, Salvatore, Alicia L, Castorina, Rosemary, Camacho, José, Morga, Norma, López, Jesús, Nishioka, Marcia, Barr, Dana B, Eskenazi, Brenda, Bradman, Asa, Salvatore, Alicia L, Salvatore, Alicia L, Castorina, Rosemary, Camacho, José, Morga, Norma, López, Jesús, Nishioka, Marcia, Barr, Dana B, Eskenazi, Brenda, and Bradman, Asa

Abstract

We conducted a randomized-controlled trial of a home-based intervention to reduce pesticide exposures to farmworkers' children in Monterey County, California (n=116 families). The intervention consisted of three home-based educational sessions delivered by community health workers in Spanish. Measurements of organophosphate (OP) insecticide metabolites in child urine (n=106) and pesticides in home floor wipes (n=103) were collected before and after the intervention. Median child urinary dialkyl phosphate (DAP) metabolite levels were slightly lower among the intervention group children at follow-up compared with baseline, albeit nonsignificantly. DAP metabolite levels in the control group children were markedly higher at follow-up compared with baseline. In adjusted models, intervention participation was associated with a 51% decrease in total DAP metabolite levels. Carbaryl, chlorpyrifos, cypermethrin, dacthal, diazinon, malathion, and trans-permethrin were commonly detected in the floor wipes. In adjusted models, intervention participation was significantly associated with a 37% decrease in trans-permethrin floor wipe levels in homes, but not OP or other agricultural pesticides. In summary, intervention group children had slightly reduced pesticide exposures, whereas child exposures were higher among the control group. Additional intervention studies evaluating methods to reduce pesticide exposures to farmworker families and children are needed.

Published

2015

17. Experimental strategy for translational studies of organophosphorus pesticide neurotoxicity based on real-world occupational exposures to chlorpyrifos.

Author

Lein, Pamela J, Lein, Pamela J, Bonner, Matthew R, Farahat, Fayssal M, Olson, James R, Rohlman, Diane S, Fenske, Richard A, Lattal, K Matthew, Lasarev, Michael R, Galvin, Kit, Farahat, Taghreed M, Anger, W Kent, Lein, Pamela J, Lein, Pamela J, Bonner, Matthew R, Farahat, Fayssal M, Olson, James R, Rohlman, Diane S, Fenske, Richard A, Lattal, K Matthew, Lasarev, Michael R, Galvin, Kit, Farahat, Taghreed M, and Anger, W Kent

Abstract

Translational research is needed to understand and predict the neurotoxic consequences associated with repeated occupational exposures to organophosphorus pesticides (OPs). In this report, we describe a research strategy for identifying biomarkers of OP neurotoxicity, and we characterize pesticide application workers in Egypt's Menoufia Governorate who serve as our anchor human population for developing a parallel animal model with similar exposures and behavioral deficits and for examining the influence of human polymorphisms in cytochrome P450 (CYP) and paraoxonase 1 (PON1) enzymes on OP metabolism and toxicity. This population has previously been shown to have high occupational exposures and to exhibit a broad range of neurobehavioral deficits. In addition to observational studies of work practices in the field, questionnaires on demographics, lifestyle and work practices were administered to 146 Egyptian pesticide application workers applying pesticides to the cotton crop. Survey results indicated that the application workforce uses standard operating procedures and standardized equipment provided by Egypt's Ministry of Agriculture, which provides a workforce with a stable work history. We also found that few workers report using personal protective equipment (PPE), which likely contributes to the relatively high exposures reported in these application workers. In summary, this population provides a unique opportunity for identifying biomarkers of OP-induced neurotoxicity associated with occupational exposure.

Published

2012

18. PON1 status does not influence cholinesterase activity in Egyptian agricultural workers exposed to chlorpyrifos.

Author

Ellison, Corie A, Ellison, Corie A, Crane, Alice L, Bonner, Matthew R, Knaak, James B, Browne, Richard W, Lein, Pamela J, Olson, James R, Ellison, Corie A, Ellison, Corie A, Crane, Alice L, Bonner, Matthew R, Knaak, James B, Browne, Richard W, Lein, Pamela J, and Olson, James R

Abstract

Animal studies have shown that paraoxonase 1 (PON1) genotype can influence susceptibility to the organophosphorus pesticide chlorpyrifos (CPF). However, Monte Carlo analysis suggests that PON1 genotype may not affect CPF-related toxicity at low exposure conditions in humans. The current study sought to determine the influence of PON1 genotype on the activity of blood cholinesterase as well as the effect of CPF exposure on serum PON1 in workers occupationally exposed to CPF. Saliva, blood and urine were collected from agricultural workers (n=120) from Egypt's Menoufia Governorate to determine PON1 genotype, blood cholinesterase activity, serum PON1 activity towards chlorpyrifos-oxon (CPOase) and paraoxon (POase), and urinary levels of the CPF metabolite 3,5,6-trichloro-2-pyridinol (TCPy). The PON1 55 (P≤0.05) but not the PON1 192 genotype had a significant effect on CPOase activity. However, both the PON1 55 (P≤0.05) and PON1 192 (P≤0.001) genotypes had a significant effect on POase activity. Workers had significantly inhibited AChE and BuChE after CPF application; however, neither CPOase activity nor POase activity was associated with ChE depression when adjusted for CPF exposure (as determined by urinary TCPy levels) and stratified by PON1 genotype. CPOase and POase activity were also generally unaffected by CPF exposure although there were alterations in activity within specific genotype groups. Together, these results suggest that workers retained the capacity to detoxify chlorpyrifos-oxon under the exposure conditions experienced by this study population regardless of PON1 genotype and activity and that effects of CPF exposure on PON1 activity are minimal.

Published

2012

19. PON1 status does not influence cholinesterase activity in Egyptian agricultural workers exposed to chlorpyrifos.

Author

Ellison, Corie A, Ellison, Corie A, Crane, Alice L, Bonner, Matthew R, Knaak, James B, Browne, Richard W, Lein, Pamela J, Olson, James R, Ellison, Corie A, Ellison, Corie A, Crane, Alice L, Bonner, Matthew R, Knaak, James B, Browne, Richard W, Lein, Pamela J, and Olson, James R

Abstract

Animal studies have shown that paraoxonase 1 (PON1) genotype can influence susceptibility to the organophosphorus pesticide chlorpyrifos (CPF). However, Monte Carlo analysis suggests that PON1 genotype may not affect CPF-related toxicity at low exposure conditions in humans. The current study sought to determine the influence of PON1 genotype on the activity of blood cholinesterase as well as the effect of CPF exposure on serum PON1 in workers occupationally exposed to CPF. Saliva, blood and urine were collected from agricultural workers (n=120) from Egypt's Menoufia Governorate to determine PON1 genotype, blood cholinesterase activity, serum PON1 activity towards chlorpyrifos-oxon (CPOase) and paraoxon (POase), and urinary levels of the CPF metabolite 3,5,6-trichloro-2-pyridinol (TCPy). The PON1 55 (P≤0.05) but not the PON1 192 genotype had a significant effect on CPOase activity. However, both the PON1 55 (P≤0.05) and PON1 192 (P≤0.001) genotypes had a significant effect on POase activity. Workers had significantly inhibited AChE and BuChE after CPF application; however, neither CPOase activity nor POase activity was associated with ChE depression when adjusted for CPF exposure (as determined by urinary TCPy levels) and stratified by PON1 genotype. CPOase and POase activity were also generally unaffected by CPF exposure although there were alterations in activity within specific genotype groups. Together, these results suggest that workers retained the capacity to detoxify chlorpyrifos-oxon under the exposure conditions experienced by this study population regardless of PON1 genotype and activity and that effects of CPF exposure on PON1 activity are minimal.

Published

2012

20. Experimental strategy for translational studies of organophosphorus pesticide neurotoxicity based on real-world occupational exposures to chlorpyrifos.

Author

Lein, Pamela J, Lein, Pamela J, Bonner, Matthew R, Farahat, Fayssal M, Olson, James R, Rohlman, Diane S, Fenske, Richard A, Lattal, K Matthew, Lasarev, Michael R, Galvin, Kit, Farahat, Taghreed M, Anger, W Kent, Lein, Pamela J, Lein, Pamela J, Bonner, Matthew R, Farahat, Fayssal M, Olson, James R, Rohlman, Diane S, Fenske, Richard A, Lattal, K Matthew, Lasarev, Michael R, Galvin, Kit, Farahat, Taghreed M, and Anger, W Kent

Abstract

Translational research is needed to understand and predict the neurotoxic consequences associated with repeated occupational exposures to organophosphorus pesticides (OPs). In this report, we describe a research strategy for identifying biomarkers of OP neurotoxicity, and we characterize pesticide application workers in Egypt's Menoufia Governorate who serve as our anchor human population for developing a parallel animal model with similar exposures and behavioral deficits and for examining the influence of human polymorphisms in cytochrome P450 (CYP) and paraoxonase 1 (PON1) enzymes on OP metabolism and toxicity. This population has previously been shown to have high occupational exposures and to exhibit a broad range of neurobehavioral deficits. In addition to observational studies of work practices in the field, questionnaires on demographics, lifestyle and work practices were administered to 146 Egyptian pesticide application workers applying pesticides to the cotton crop. Survey results indicated that the application workforce uses standard operating procedures and standardized equipment provided by Egypt's Ministry of Agriculture, which provides a workforce with a stable work history. We also found that few workers report using personal protective equipment (PPE), which likely contributes to the relatively high exposures reported in these application workers. In summary, this population provides a unique opportunity for identifying biomarkers of OP-induced neurotoxicity associated with occupational exposure.

Published

2012

21. A phase II clinical trial to assess the safety of clonidine in acute organophosphorus pesticide poisoning

Author

Perera, Polwattage MS, Jayamanna, Shaluka F, Hettiarachchi, Raja, Abeysinghe, Chandana, Karunatilake, Harindra, Dawson, Andrew H, Buckley, Nicholas, Perera, Polwattage MS, Jayamanna, Shaluka F, Hettiarachchi, Raja, Abeysinghe, Chandana, Karunatilake, Harindra, Dawson, Andrew H, and Buckley, Nicholas

Abstract

BACKGROUND An estimated 2-3 million people are acutely poisoned by organophosphorus pesticides each year, mostly in the developing world. There is a pressing need for new affordable antidotes and clonidine has been shown to be effective in animal studies. Our aim was to determine the safety of clonidine given as an antidote in adult patients presenting with signs or symptoms of acute organophosphate ingestion. METHODS This study was a dose finding, open-label, multicentre, phase II trial. Forty eight patients with acute organophosphate poisoning were randomized to receive either clonidine or placebo: Four to receive placebo and twelve to receive clonidine at each dose level. The first dose level was an initial loading dose of 0.15 mg followed by an infusion of 0.5 mg of clonidine over 24 hours. The initial loading dose was increased to 0.3 mg, 0.45 and 0.6 mg. at all dosing levels however the subsequent infusion remained at 0.5 mg of clonidine over 24 hours. RESULTS The baseline characteristics of both groups were similar. The trial was stopped after completion of the 3rd dosing level. At the 1st and 2nd dosing level there were no reported adverse drug reactions. At the 3rd dosing level 5 patients (42%) developed significant hypotension during clonidine treatment that responded to intravenous fluids. There were no statistical differences in ventilation rate, pre and post GCS, and mortality rates over all levels. CONCLUSION Our findings suggest use of moderate doses of clonidine in acute organophosphate poisoning can be used without causing frequent clinical problems but that higher doses are associated with a high incidence of hypotension requiring intervention. Further studies are needed to study the efficacy of clonidine as an antidote in organophosphate poisoning.

Published

2009

22. Forgiftninger med ukrudtsbekaempelsesmidlerne glyphosat og glyphosat-trimesium

Author

Mortensen, O S, Sørensen, F W, Gregersen, M, Jensen, K, Mortensen, O S, Sørensen, F W, Gregersen, M, and Jensen, K

Abstract

Generally the herbicide glyphosate is considered harmless to humans. Glyphosate-trimesium is labelled harmful (Xn), whereas glyphosate-isopropylamine carries no warning sign. As cases of serious poisoning have emerged contacts to the Poison Information Centre have been reviewed. The persons exposed were mainly smaller children and adults 20 to 59 years of age. Oral exposure was recorded in 47 persons, inhalation exposure in 24 and topical contact in 42. About one fourth of the exposed persons were asymptomatic. Most of the symptomatic poisonings demonstrated complaints from the mouth, the gastrointestinal tract and the airways. Eleven patients were admitted to hospital. Two died, one of them having ingested the isopropylamine salt, the other the trimesium salt. Death ensued quickly in the latter patient. A similar fate was observed in a child--not included in the present material--who had also ingested the trimesium compound.

Published

2000

23. Forgiftninger med ukrudtsbekaempelsesmidlerne glyphosat og glyphosat-trimesium

Author

Mortensen, O S, Sørensen, F W, Gregersen, M, Jensen, K, Mortensen, O S, Sørensen, F W, Gregersen, M, and Jensen, K

Abstract

Generally the herbicide glyphosate is considered harmless to humans. Glyphosate-trimesium is labelled harmful (Xn), whereas glyphosate-isopropylamine carries no warning sign. As cases of serious poisoning have emerged contacts to the Poison Information Centre have been reviewed. The persons exposed were mainly smaller children and adults 20 to 59 years of age. Oral exposure was recorded in 47 persons, inhalation exposure in 24 and topical contact in 42. About one fourth of the exposed persons were asymptomatic. Most of the symptomatic poisonings demonstrated complaints from the mouth, the gastrointestinal tract and the airways. Eleven patients were admitted to hospital. Two died, one of them having ingested the isopropylamine salt, the other the trimesium salt. Death ensued quickly in the latter patient. A similar fate was observed in a child--not included in the present material--who had also ingested the trimesium compound.

Published

2000

24. Acute and subacute organophosphate poisoning in the rat

Author

UCL - MD/ESP - Ecole de santé publique, UCL - (SLuc) Service de biochimie médicale, UCL - (SLuc) Centre de toxicologie clinique, De Bleecker, Jan, Lison, Dominique, Van Den Abeele, Katrien, Willems, Jan, De Reuck, Jacques, UCL - MD/ESP - Ecole de santé publique, UCL - (SLuc) Service de biochimie médicale, UCL - (SLuc) Centre de toxicologie clinique, De Bleecker, Jan, Lison, Dominique, Van Den Abeele, Katrien, Willems, Jan, and De Reuck, Jacques

Abstract

The intermediate syndrome in organophosphate poisoning is clinically characterized by weakness in the territory of cranial nerves, weakness of respiratory, neck and proximal limb muscles, and depressed deep tendon reflexes. It occurs between the acute cholinergic crisis and the usual onset of organophosphate-induced delayed neurotoxicity. The weakness has been ascribed to muscle fiber necrosis. Fenthion has been the most common cause. This study assesses the occurrence of the necrotizing myopathy in rats in relation to the clinical course and the acetylcholinesterase (AChE) inhibition after poisoning with organophosphates representative for each of the major types of organophosphate-related neurotoxicity. Marked differences are noted in the duration of cholinergic symptoms and of AChE inhibition after either paraoxon and mipafox, or fenthion poisoning. The necrotizing myopathy begins shortly after the initial decline in AChE activity with all organophosphates studied. Maximal muscle involvement occurs within the first 2 days of the poisoning with all organophosphates studied. The myopathy is not aggravated by a further decline in AChE activity in fenthion poisoning. Our data argues against the monophasic necrotizing myopathy being the cause of the intermediate syndrome, and is suggestive of persistent AChE inhibition being involved. (C) 1994 Intox Press, Inc.

Published

1994

25. Therapy of organophosphate poisoning in the rat by direct effects of oximes unrelated to ChE reactivation

Author

Helden, H.P.M. van, Lange, J. de, Busker, R.W., Melchers, B.P.C., Helden, H.P.M. van, Lange, J. de, Busker, R.W., and Melchers, B.P.C.

Abstract

Isolated rat diaphragm preparations treated with soman or with the irreversible and oxime resistant cholinesterase (ChE) inhibitor S27 (see Compounds) showed a considerable recovery of neuromuscular transmission (NMT) during incubation with the (bis)pyridinium oximes HI-6, HGG-12, P2S and obidoxime. In the soman-treated preparations this NMT recovery was predominantly caused by reactivation of acetylcholinesterase (AChE) but in the S27-treated preparations it was caused by a direct (pharmacological) effect unrelated to enzyme reactivation. Atropinized rats were artificially ventilated after injection with 3 x LD50 soman for 3 h and then treated with HI-6, i.e. at a time when oxime reactivation of soman inhibited ChE is no longer possible. Nevertheless, these rats started to breathe spontaneously and 50-60% survived more than 24 h, whereas all control animals (saline instead of HI-6) died within 10 min after artificial ventilation was terminated. In such animals no significant reactivation of ChE activity at various time intervals followed HI-6 treatment was found, either in the diaphragms or in the brains. There was a significant amount of NMT (50%) in vitro in diaphragms obtained from these animals. This NMT did not improve in vitro in the presence of HI-6 and was not inhibited by soman administered to the medium. It is concluded that in this case the NMT found was based on synaptic adaptation to the continued inhibition of ChE and that the survival of the animals might be due to a combination of this synaptic adaptation and central direct effects of HI-6. Chemicals/CAS: Antidotes; Cholinesterase Reactivators; HGG 12, 83972-73-0; HI 6, 34433-31-3; Obidoxime Chloride, 114-90-9; Organophosphorus Compounds; Oximes; Pralidoxime Compounds; pralidoxime, 6735-59-7; Pyridinium Compounds

Published

1991

26. Novel approaches in prophylaxis/pretreatment and treatment of organophosphorus poisoning

Author

Masson P. and Masson P.

Abstract

© 2016 Taylor & Francis Group, LLC.Organophosphorus nerve agents (OPs) are potent irreversible inhibitors of acetylcholinesterase (AChE).They cause a major cholinergic syndrome.Most progress inmedical counter-measures of OP poisoning was achieved more than 30 years ago with pyridinium oximes as AChE reactivators, anticholinergic drugs and benzodiazepines as neuroprotectants in emergency treatments, and carbamates for pretreatments. Counter-measures ensure protection of peripheral nervous system and mitigate acute effects lethal doses of agents. However, pyridostigmine and oximes do not protect/reactivate central AChEs. Moreover, oximes do not reactivate AChEs inhibited by phosphoramidates like tabun. In addition, current drugs are not sufficiently effective in protecting central nervous system against seizures-induced irreversible brain damage. New therapeutic approaches involve: detoxification of OP molecules before they reach targets by administrating bioscavengers; protection/reactivation of centralAChEs by drugs capable of crossing the blood brain barrier; neuroprotection with multifunctional drugs; improvement of delayed therapy using anti-NMDA drugs. Future developments are aimed at optimizing treatments of acute, intermediate and delayed toxicity. This implies identification of unkown OP targets and toxicity mechanisms, research on drug nanocarriers and alternative routes for delivery. Therapies of the future, gene therapy for transient production of bioscavengers and cell therapy for neuronal regeneration are still in infancy for practical medical uses.

27. Cholinesterase reactivators and bioscavengers for pre- and post-exposure treatments of organophosphorus poisoning

Author

Masson P., Nachon F., Masson P., and Nachon F.

Abstract

© 2017 International Society for Neurochemistry.Organophosphorus agents (OPs) irreversibly inhibit acetylcholinesterase (AChE) causing a major cholinergic syndrome. The medical counter-measures of OP poisoning have not evolved for the last 30 years with carbamates for pretreatment, pyridinium oximes-based AChE reactivators, antimuscarinic drugs and neuroprotective benzodiazepines for post-exposure treatment. These drugs ensure protection of peripheral nervous system and mitigate acute effects of OP lethal doses. However, they have significant limitations. Pyridostigmine and oximes do not protect/reactivate central AChE. Oximes poorly reactivate AChE inhibited by phosphoramidates. In addition, current neuroprotectants do not protect the central nervous system shortly after the onset of seizures when brain damage becomes irreversible. New therapeutic approaches for pre- and post-exposure treatments involve detoxification of OP molecules before they reach their molecular targets by administrating catalytic bioscavengers, among them phosphotriesterases are the most promising. Novel generation of broad spectrum reactivators are designed for crossing the blood-brain barrier and reactivate central AChE. This is an article for the special issue XVth International Symposium on Cholinergic Mechanisms.

28. Novel approaches in prophylaxis/pretreatment and treatment of organophosphorus poisoning

Author

Masson P. and Masson P.

Abstract

© 2016 Taylor & Francis Group, LLC.Organophosphorus nerve agents (OPs) are potent irreversible inhibitors of acetylcholinesterase (AChE).They cause a major cholinergic syndrome.Most progress inmedical counter-measures of OP poisoning was achieved more than 30 years ago with pyridinium oximes as AChE reactivators, anticholinergic drugs and benzodiazepines as neuroprotectants in emergency treatments, and carbamates for pretreatments. Counter-measures ensure protection of peripheral nervous system and mitigate acute effects lethal doses of agents. However, pyridostigmine and oximes do not protect/reactivate central AChEs. Moreover, oximes do not reactivate AChEs inhibited by phosphoramidates like tabun. In addition, current drugs are not sufficiently effective in protecting central nervous system against seizures-induced irreversible brain damage. New therapeutic approaches involve: detoxification of OP molecules before they reach targets by administrating bioscavengers; protection/reactivation of centralAChEs by drugs capable of crossing the blood brain barrier; neuroprotection with multifunctional drugs; improvement of delayed therapy using anti-NMDA drugs. Future developments are aimed at optimizing treatments of acute, intermediate and delayed toxicity. This implies identification of unkown OP targets and toxicity mechanisms, research on drug nanocarriers and alternative routes for delivery. Therapies of the future, gene therapy for transient production of bioscavengers and cell therapy for neuronal regeneration are still in infancy for practical medical uses.

29. Cholinesterase reactivators and bioscavengers for pre- and post-exposure treatments of organophosphorus poisoning

Author

Masson P., Nachon F., Masson P., and Nachon F.

Abstract

© 2017 International Society for Neurochemistry.Organophosphorus agents (OPs) irreversibly inhibit acetylcholinesterase (AChE) causing a major cholinergic syndrome. The medical counter-measures of OP poisoning have not evolved for the last 30 years with carbamates for pretreatment, pyridinium oximes-based AChE reactivators, antimuscarinic drugs and neuroprotective benzodiazepines for post-exposure treatment. These drugs ensure protection of peripheral nervous system and mitigate acute effects of OP lethal doses. However, they have significant limitations. Pyridostigmine and oximes do not protect/reactivate central AChE. Oximes poorly reactivate AChE inhibited by phosphoramidates. In addition, current neuroprotectants do not protect the central nervous system shortly after the onset of seizures when brain damage becomes irreversible. New therapeutic approaches for pre- and post-exposure treatments involve detoxification of OP molecules before they reach their molecular targets by administrating catalytic bioscavengers, among them phosphotriesterases are the most promising. Novel generation of broad spectrum reactivators are designed for crossing the blood-brain barrier and reactivate central AChE. This is an article for the special issue XVth International Symposium on Cholinergic Mechanisms.