An attempt to assess functionally minimal acetylcholinesterase activity necessary for survival of rats intoxicated with nerve agents

Acetylcholinesterase (AChE, EC 3.1.1.7) is an important enzyme for cholinergic nerve transmission. The action of toxic organophosphates such as nerve agents is based on AChE inhibition. The death following acute nerve agent poisoning is due to central or peripheral respiratory/cardiac failure. Therefore, the changes in AChE activity following nerve agents acting predominantly on the central (sarin, soman) or peripheral (VX) level were studied. It is known that AChE activity in different structures exists in relative excess. Female Wistar rats intoxicated with sarin, soman, and VX in different doses (0.5-2.0xLD(50)) were divided into groups of survived and died animals. AChE activities in diaphragm, brain parts (pontomedullar area, frontal cortex, basal ganglia, in some cases other parts of the brain) were determined and the rest of activity (in %) was correlated with survival/death of animals. More precise elucidation of action of nerve agents and the assessment of minimal AChE activity in different organs compatible with the survival of organism poisoned with nerve agents were the aims of this study.     

梭曼和沙林对电鳐电器官乙酰胆碱酯酶抑制作用动力学

梭曼和沙林是毒性很强的有机磷神经毒剂,它们的共同特点是对胆碱酯酶（ＡＣｈＥ,ＥＣ３．１．１．７）都有很强的抑制作用,但两者又不完全相同．过去人们对梭曼和沙林的毒性、毒理研究得较多,而对其对ＡＣｈＥ抑制作用动力学研究得较少,且相互间差异较大．为了对这一...     

Effects of combination alfaxalone and alfadolone, anesthetic derivatives of pregnanedione, on cerebral hemodynamics in cats]

Intravenous injection of CT 1341 (a mixture of alphaxalone and alphadolone dissolved in cremophor el) induced a decrease in cerebral blood flow (CBF) measured by 133Xe clearance in cats with artificial respiration (the mean reduction in CBF was 2 ml/100 g/mn for 1,2 mg/kg or CT 1341. So, CBF was decreased by 22% when CT 1341 (7,2 mg/kg) was intravenously injected, (mean Pa CO2 equals 30 mm Hg). Changes in CBF following CT 1341 intravenous injection seems to be caused by cerebral vascular constriction evidenced by the direct observation of pial vessels. Following intravenous injection of CT 1341 (from 7, 2 mg/kg to 19,2 mg/kg), the cerebrovascular reactivity to hypercapnia or hypocapnia was not affected, but autoregulation of cerebral blood flow was transiently abolished. In animals with free respiration, CBF was increased in relation with the elevation in Pa CO2 caused by the depression of respiration.     

Examination of the Role of Central Cholinergic Mechanisms in the Therapeutic Effects of HI-6 in Organophosphate Poisoning

Abstract: In atropine-pretreated rats, HI-6 (125 mg/kg i.p.) raised the LD₅₀ of Soman (subcutaneous) 5.7 times. Addition of HI-6 (25 μg i.c. v.) failed to enhance this protection further. HI-6 (intraperitoneal) also protected animals from intracerebroventricular Soman. HI-6, administered intracerebroventricularly either alone or in combination with intraperitoneal HI-6, failed to increase protection, nor did it reactivate Soman-inhibited acetylcholinesterase (AChE) in several brain areas. HI-6 (125 or 62.5 mg/kg i.p.) protected rats from Sarin lethality, but only the higher dose significantly altered the brain AChE activity. Furthermore, HI-6 (intraperitoneal) failed to block the Soman-induced increase in acetylcholine (ACh) or choline (Ch) levels in any of the brain areas examined. These data indicate that HI-6 is a very beneficial therapy against Soman, but that no definitive central anticholinergic activity of the compound could be found to explain its protective effects. It is possible that HI-6 acts by noncholinergic central mechanisms, or that it produces its beneficial effects outside the CNS. Furthermore, brain AChE activity does not appear to be indicative of protective effects of this oxime. ACh or Ch levels in this study were not good parameters to predict the outcome of Soman poisoning.     

Neuroprotective effect of quercetin in ectoenzymes and acetylcholinesterase activities in cerebral cortex synaptosomes of cadmium-exposed rats

This study investigated the effect of quercetin on nucleoside triphosphate diphosphohydrolase (NTPDase), 5′-nucleotidase, adenosine deaminase (ADA), and acetylcholinesterase (AChE) activities in synaptosomes from cerebral cortex of adult rats exposed to cadmium (Cd). Rats were exposed to Cd (2.5 mg/Kg) and quercetin (5, 25 or 50 mg/Kg) by gavage for 45 days. Rats were randomly divided into eight groups (n = 8–10): saline/ethanol, saline/Querc 5 mg/kg, saline/Querc 25 mg/kg, saline/Querc 50 mg/kg, Cd/ethanol, Cd/Querc 5 mg/kg, Cd/Querc 25 mg/kg, and Cd/Querc 50 mg/kg. Results demonstrated that AChE activity increased in the Cd/ethanol group when compared to saline/ethanol group. Treatment with quercetin prevented the increase in AChE activity when compared to Cd/ethanol group. Quercetin treatment prevented the cadmium-induced increase in NTPDase, 5-nucleotidase, and ADA activities in Cd/ethanol group when compared to saline/ethanol group. Our data showed that quercetin have a protector effect against Cd intoxication. This way, is a promising candidate among the flavonoids to be investigated as a therapeutic agent to attenuate neurological disorders associated with Cd intoxication.     

亚稀褶黑菇对小白鼠肝肾超微结构的影响

对小白鼠用亚稀褶黑菇提取液进行毒性试验．测定了亚稀褶黑菇的半致死剂量LD50值;应用透射电镜观察了小白鼠亚稀褶黑菇中毒后的病理变化,结果表明．亚稀褶黑菇的LD50值为2852．1mg／kg,电镜检查发现。亚稀褶黑菇毒素主要损害肾脏,引起肾细胞核核膜肿胀．线粒体肿胀,溶酶体增多,肾细胞坏死．     

EFFECTS OF PROTECTION OF BUTYRYLCHOLINESTERASE ON REGENERATION OF GANGLIONIC ACETYLCHOLINESTERASE

The regeneration of acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE) was followed in the superior cervical (SCG), stellate (StG), and ciliary (CG) ganglia and inferior oblique (IO) muscle of cats for the 3-day period following their inactivation by isopropylmethylphosphonofluoridate (sarin; 2.0 μmol/kg intravenously), with and without preservation of over half the butyrylcholinesterase activity by the prior intravenous infusion of 10-(α-diethylaminopropionyl) phenothiazine HCl (Astra 1397; 100 or 200 μmol/kg). Rates of regeneration of AChE in the three ganglia exhibited the same sequence as their relative proportions of AChE-containing cholinergic ganglion cells (SCG < StG < CG); no such difference was found in the rates of butyrylcholinesterase regeneration. The mean AChE levels in all three ganglia were higher at 48 h in the cats that had received Astra 1397 (100 μmol/kg) prior to sarin. This finding is interpreted as evidence that BuChE may function as a precursor in the synthesis of AChE.     

Experimental study of the effects of amiridin and tacrine on learning and memory

The authors studied the influence of amiridin and tacrine on learning and memory in mice and rat by passive avoidance conditioning test at norm and under scopolamine induced amnesia as well as of their effect on acetylcholine esterase (AChE) activity in brain cortex homogenates. Amiridin in doses 0.1 and 0.2 mg/kg showed a beneficial action on conditioning in untreated animals, its effect being comparable with that of piracetam. Tacrine was ineffective. In scopolamine treated animals amiridin and tacrine showed anti-amnestic action at dose of 0.1 mg/kg which was found ineffective with respect to AChE activity. The data suggests that the ameliorating effect of amiridin and tacrine on cognitive abilities in patients with senile dementia is not related their anticholinesterase properties.     

EFFECTS OF INACTIVATION OF BUTYRYLCHOLINESTERASE ON STEADY STATE AND REGENERATING LEVELS OF GANGLIONIC ACETYLCHOLINESTERASE

The effects of single and repeated injections of tetramonoisopropyl pyrophosphortetramide (iso-OMPA), a selective inactivator of butyrylcholinesterase (BuChE), were studied on the ganglionic and muscular levels of BuChE and acetylcholinesterase (AChE) in cats during the steady state and following the irreversible inactivation of both enzymes by isopropylmethylphosphonofluoridate (sarin). Single intravenous injections of iso-OMPA, 3.0 or 6.0 μmol/kg, produced nearly total inactivation of BuChE with no immediate effect on the AChE of the superior cervical (SCG), stellate (StG), and ciliary (CG) ganglia and inferior oblique (10) muscle; regeneration of BuChE occurred at approximately the same rate in the three ganglia, and at 4–6 days the AChE levels were significantly elevated. When single doses of iso-OMPA were given 1 h following sarin, 2.0 μmol/kg, intravenously, there was a slight increase in the rate of AChE regeneration during the ensuing 2 days. With the repeated injection of iso-OMPA, 3.0 μmol/kg every 48 h, there was a consistent but not statistically significant reduction in AChE regeneration at 4, 6, 12, and 18 days following sarin in all 3 ganglia. Similar treatment with iso-OMPA alone produced significant increases in ganglionic AChE at all these periods excepting the longest. The daily injection of iso-OMPA for 6 days, which maintained ganglionic BuChE at approx 2% of the control values, produced significant reductions in AChE regeneration, but again significant increases in ganglionic AChE levels in cats that did not receive sarin. The IO muscle did not exhibit these effects. A working hypothesis is proposed, that BuChE is a precursor of ganglionic AChE, and that the level of BuChE participates in the regulation of AChE synthesis by inhibition of a preceding rate-limiting step.     

Investigation of kinetic interactions between approved oximes and human acetylcholinesterase inhibited by pesticide carbamates

Carbamates are widely used for pest control and act primarily by inhibition of insect and mammalian acetylcholinesterase (AChE). Accidental or intentional uptake of carbamates may result in typical signs and symptoms of cholinergic overstimulation which cannot be discriminated from those of organophosphorus pesticide poisoning. There is an ongoing debate whether standard treatment with atropine and oximes should be recommended for human carbamate poisoning as well, since in vitro and in vivo animal data indicate a deleterious effect of oximes when used in combination with the N-methyl carbamate carbaryl. Therefore, we performed an in vitro kinetic study to investigate the effect of clinically used oximes on carbamoylation and decarbamoylation of human AChE. It became evident that pralidoxime and obidoxime in therapeutic concentrations aggravate the inhibition of AChE by carbaryl and propoxur, with obidoxime being substantially more potent compared to 2-PAM. However, obidoxime had no impact on the decarbamoylation kinetics. Hence, the administration of 2-PAM and especially of obidoxime to severely propoxur and carbaryl poisoned humans cannot be recommended.     

Effect of Long-Term Exposure to Aluminum on the Acetylcholinesterase Activity in the Central Nervous System and Erythrocytes

Aluminum (Al), a neurotoxic agent, has been associated with Alzheimer’s disease (AD), which is characterized by cholinergic dysfunction in the central nervous system. In this study, we evaluated the effect of long-term exposure to aluminum on acetylcholinesterase (AChE) activity in the central nervous system in different brain regions, in synaptosomes of the cerebral cortex and in erythrocytes. The animals were loaded by gavage with AlCl₃ 50 mg/kg/day, 5 days per week, totalizing 60 administrations. Rats were divided into four groups: (1) control (C); (2) 50 mg/kg of citrate solution (Ci); (3) 50 mg/kg of Al plus citrate (Al + Ci), and (4) 50 mg/kg of Al (Al). AChE activity in striatum was increased by 15% for Ci, 19% for Al + Ci and 30% for Al, when compared to control (P < 0.05). The activity in hypothalamus increased 23% for Ci, 26% for Al + Ci and 28% for Al, when compared to control (P < 0.05). AChE activity in cerebellum, hippocampus and cerebral cortex was decreased by 11%, 23% and 21% respectively, for Al, when compared to the respective controls (P < 0.05). AChE activity in synaptosomes was increased by 14% for Al, when compared to control (P < 0.05). Erythrocyte AChE activity was increased by 17% for Al + Ci and 11% for Al, when compared to control (P < 0.05). These results indicate that Al affects at the same way AChE activity in the central nervous system and erythrocyte. AChE activity in erythrocytes may be considered a marker of easy access of the central cholinergic status.     

Reactivation of organophosphate-inhibited human acetylcholinesterase by isonitrosoacetone (MINA): a kinetic analysis

Treatment of poisoning by highly toxic organophosphorus compounds (OP) with atropine and an acetylcholinesterase (AChE) reactivator (oxime) is of limited effectiveness in case of different nerve agents and pesticides. One challenge is the reactivation of OP-inhibited brain AChE which shows inadequate success with charged pyridinium oximes. Recent studies with high doses of the tertiary oxime isonitrosoacetone (MINA) indicated a beneficial effect on central and peripheral AChE and on survival in nerve agent poisoned guinea pigs. Now, an in vitro study was performed to determine the reactivation kinetics of MINA with tabun-, sarin-, cyclosarin-, VX- and paraoxon-inhibited human AChE. MINA showed an exceptionally low affinity to inhibited AChE but, with the exception of tabun-inhibited AChE, a moderate to high reactivity. In comparison to the pyridinium oximes obidoxime, 2-PAM and HI-6 the affinity and reactivity of MINA was in most cases lower and in relation to the most effective reactivators, the second order reactivation constant of MINA was 500 to 3400-fold lower. Hence, high in vivo MINA concentrations would be necessary to achieve at least partial reactivation. This assumption corresponds to in vivo data showing a dose-dependent effect on reactivation and survival in animals. In view, of the toxic potential of MINA in animals human studies would be necessary to determine the tolerability and pharmacokinetics of MINA in order to enable a proper assessment of the value of this oxime as an antidote in OP poisoning.     

Oxime-induced decarbamylation and atropine/oxime therapy of guinea pigs intoxicated with pyridostigmine

The generally accepted explanation for the effects of oximes in countering organophosphorus (OP) anticholinesterase is reactivation of the inhibited acetylcholinesterase (AChE). With soman, the inhibited AChE rapidly becomes resistant to oxime reactivation due to a phenomenon called aging. Thus, pretreatment with pyridostigmine (Py) or physostigmine (Ph) followed by atropine sulfate therapy is required to achieve significant protection against soman; the effectiveness of a pretreatment/therapy (P/T) regimen can be further increased against certain OPs (e.g. sarin and VX) by including an oxime in the therapy regimen. The P/T regimen is clouded by a controversy concerning the use of oximes in the treatment of carbamate intoxication, because 2-PAM has been reported to exacerbate intoxication by some carbamates and to have no effect on decarbamylation rates. To better understand the role of oxime therapy in the theory of pretreatment of OP intoxication we examined the effects of 2-PAM and HI-6 on the rate of decarbamylation of Py-inhibited erythrocyte AChE in vitro and in vivo, and studied the effects of atropine plus 2-PAM or HI-6 on Py toxicity. In decarbamylation experiments, Py-inhibited guinea pig erythrocytes were washed free of excess Py and incubated with vehicle or oxime (2 X 10(-4) M, pH 7.3 and 37 degrees C). Aliquots were assayed for AChE activity at various times during a 60 min incubation period. Rate constants were calculated and compared to determine whether the presence of oxime affected decarbamylation. The data from in vitro and in vivo experiments revealed that oximes accelerated the decarbamylation (p less than 0.05) of inhibited AChE. Lethality data for Py-treated guinea pigs showed that treatment with atropine (23 mumoles/kg, im) plus 2-PAM or HI-6 (145 mumoles/kg, im) at one min after injection of Py increased the protective ratio from 4.2 (atropine only) to 5.1 and 12.2, respectively. It is suggested that the enhanced therapeutic efficacy of atropine by oximes against Py intoxication is related to oxime-induced reactivation.     

Selective Inhibition of Acetylcholinesterase in the Cerebellum and Hippocampus of Mice Following an Acute Treatment with Malathion

Adult male ICR mice were treated by intraperitoneal injection with 250?mg/kg of bodyweight of commercial malathion (a dose corresponding to 1/12 the LD50). After 6?h, acetylcholinesterase (AChE) activity in blood, liver, and six brain regions was determined. A statistically significant inhibition was observed in whole blood (23%), liver (21%), and, in particular, the central nervous system; the greatest degree of AChE inhibition was observed in the cerebellum (45%), followed by the hippocampus (29%). There was no significant change in AChE activity in the caudate putamen, frontal cortex, midbrain, or pons medulla. These results demonstrate that the magnitude of AChE inhibition in peripheral tissues does not accurately reflect the central-inhibitory effects of malathion on AChE activity in specific brain regions.     

Selective inhibition of acetylcholinesterase in the cerebellum and hippocampus of mice following an acute treatment with malathion

Adult male ICR mice were treated by intraperitoneal injection with 250 mg/kg of bodyweight of commercial malathion (a dose corresponding to 1/12 the LD50). After 6 h, acetylcholinesterase (AChE) activity in blood, liver, and six brain regions was determined. A statistically significant inhibition was observed in whole blood (23%), liver (21%), and, in particular, the central nervous system; the greatest degree of AChE inhibition was observed in the cerebellum (45%), followed by the hippocampus (29%). There was no significant change in AChE activity in the caudate putamen, frontal cortex, midbrain, or pons medulla. These results demonstrate that the magnitude of AChE inhibition in peripheral tissues does not accurately reflect the central-inhibitory effects of malathion on AChE activity in specific brain regions.     

Distribution,Levels, and Risk Assessment of Polycyclic Aromatic Hydrocarbons (PAHs) in Singed Cattle Hide

Human beings are exposed to polycyclic aromatic hydrocarbons (PAHs) from various occupational, environmental, and dietary sources. The study was carried out in the Cape Coast Metropolis of Ghana to assess the levels of PAHs in treated and untreated cattle hide and the associated health risks thereof. Treated cattle hide (wele) is one of the most well-patronized meat products in Ghana. A total of 90, treated (n = 36), untreated (n = 36), and control (n = 18) cattle hide samples were treated and analyzed using a gas chromatography flame ionization detection (GC/FID) technique. The total PAH concentration in the treated cattle hide ranged from 5.9 μg/kg naphthalene to 719.9 μg/kg benzo[b]fluoranthene. The total PAHs in untreated hide ranged from 57.6 μg/kg naphthalene to 19840.9 μg/kg benzo[b]fluoranthene. The amount of PAHs in the control hide, however, ranged from non-detectable for many of the PAHs to 0.5 μg/kg for fluorene. The carcinogenic risk value associated with the consumption of treated hide in children ranged between 1.0 × 10^?3 and 9.4 × 10^?3 whereas that of adults ranged between 1.9 × 10^?4 and 2.1 × 10^?5. This implies that the continuous consumption of heavily burnt cattle hide may not exempt the consumers from all the possible health cases associated with PAHs.     

Rosmarinic acid prevents lipid peroxidation and increase in acetylcholinesterase activity in brain of streptozotocin‐induced diabetic rats

We investigated the efficacy of rosmarinic acid (RA) in preventing lipid peroxidation and increased activity of acetylcholinesterase (AChE) in the brain of streptozotocin‐induced diabetic rats. The animals were divided into six groups (n = 8): control, ethanol, RA 10 mg/kg, diabetic, diabetic/ethanol and diabetic/RA 10 mg/kg. After 21 days of treatment with RA, the cerebral structures (striatum, cortex and hippocampus) were removed for experimental assays. The results demonstrated that the treatment with RA (10 mg/kg) significantly reduced the level of lipid peroxidation in hippocampus (28%), cortex (38%) and striatum (47%) of diabetic rats when compared with the control. In addition, it was found that hyperglycaemia caused significant increased in the activity of AChE in hippocampus (58%), cortex (46%) and striatum (30%) in comparison with the control. On the other hand, the treatment with RA reversed this effect to the level of control after 3 weeks. In conclusion, the present findings showed that treatment with RA prevents the lipid peroxidation and consequently the increase in AChE activity in diabetic rats, demonstrating that this compound can modulate cholinergic neurotransmission and prevent damage oxidative in brain in the diabetic state. Thus, we can suggest that RA could be a promising compound in the complementary therapy in diabetes. Copyright © 2013 John Wiley & Sons, Ltd.     

Effect of aminazin on changes in the electrical activity of the cerebral cortex under the influence of the toxin C1. perfringens type A]

Experiments on cats revealed that injection of chlorpromazine (3 mg/kg of body weight, intramuscular) one hour prior to the Cl. perfingens toxin type A injection prevented the appearance of desynchronization of the electrical activity of the cerebral cortex usually observed during the first phase of intoxication. Chlorpromazine injection postpones the appearance of the electrical activity depression phase during the second phase and prolonged the animals' life span from 1.5 to 2 times. The effect of chlorpromazine was apparently connected with the block of the adrenergic structures of the brain stem reticular formation.     

Pralidoxime iodide (2-pAM) penetrates across the blood-brain barrier

The in vivo rat brain microdialysis technique with HPLC/UV was used to determine the blood-brain barrier (BBB) penetration of pralidoxime iodide (2-PAM), which is a component of the current nerve agent antidote therapy. After intravenous dosage of 2-PAM (10, 50, 100 mg/kg), 2-PAM appeared dose-dependently in the dialysate; the striatal extracellular/blood concentration ratio at 1 h after 50 mg/kg dosage was 0.093 ± 0.053 (mean ± SEM). This finding offered conclusive evidence of the BBB penetration of 2-PAM. We also examined whether the BBB penetration of 2-PAM was mediated by a certain specific transporter, such as a neutral or basic amino acid transport system. Although it was unclear, the neural uptake of 2-PAM was Na⁺ dependent. The mean BBB penetration by 2-PAM was approximately 10%, indicating the intravenous administration of 2-PAM might be to a degree effective to reactivation of the blocked cholinesterase in the brain.     

Oximes: Reactivators of phosphorylated acetylcholinesterase and antidotes in therapy against tabun poisoning

One of the therapeutic approaches to organophosphate poisoning is to reactivate AChE with site-directed nucleophiles such as oximes. However, pyridinium oximes 2-PAM, HI-6, TMB-4 and obidoxime, found as the most effective reactivators, have limiting reactivating potency in tabun poisoning. We tested oximes varying in the type of ring (pyridinium and/or imidazolium), the length and type of the linker between rings, and in the position of the oxime group on the ring to find more effective oximes to reactivate tabun-inhibited human erythrocyte AChE. Three of our tested pyridinium oximes K027, K048, K074, along with TMB-4, were the most promising for AChE reactivation. Promising oximes were further tested in vivo on tabun poisoned mice not only as antidotes in combination with atropine but also as pretreatment drug. Herein, we showed that a promising treatment in tabun poisoning by selected oximes and atropine could be improved if oximes are also used in pretreatment. Since the reactivating efficacy of the oximes in vitro corresponded to their therapeutic efficacy in vivo, it seems that pharmacological effect of these oximes is indeed primarily related to the reactivation of tabun-phosphorylated AChE.