D.K. Lim

Effect of Acute and Chronic Cholinesterase Inhibition with Diisopropylfluorophosphate on Muscarinic, Dopamine, and GABA Receptors of the Rat Striatum

Abstract: The effects of acute and chronic administration of diisopropylfluorophosphate (DFP) to rats on acetylcholinesterase (AChE) activity (in striatum, medulla, diencephalon, cortex, and medulla) and muscarinic, dopamine (DA), and γ‐aminobutyric acid (GABA) receptor characteristics (in striatum) were investigated. After a single injection of (acute exposure to) DFP, striatal region was found to have the highest degree of AChE inhibition. After daily DFP injections (chronic treatment), all brain regions had the same degree of AChE inhibition, which remained at a steady level despite the regression of the DFP‐induced cholinergic overactivity. Acute administration of DFP increased the number of DA and GABA receptors without affecting the muscarinic receptor characteristics. Whereas chronic administration of DFP for either 4 or 14 days reduced the number of muscarinic sites without affecting their affinity, the DFP treatment caused increase in the number of DA and GABA receptors only after 14 days of treatment; however, the increase was considerably lower than that observed after the acute treatment. The in vitro addition of DFP to striatal membranes did not affect DA, GABA, or muscarinic receptors. The results indicate an involvement of GABAergic and dopaminergic systems in the actions of DFP. It is suggested that the GABAergic and dopaminergic involvement may be a part of a compensatory inhibitory process to counteract the excessive cholinergic activity produced by DFP.

Comparative studies of muscarinic and dopamine receptors in three strains of rat.

Cholinesterase activities and characteristics of muscarinic and dopamine receptors from 9 week old male Sprague-Dawley (SD), Wistar-Kyoto (WKY) and spontaneously hypertensive rats (SHR) were studied. Plasma cholinesterase activity in WKY was significantly lower (50%) than activity in the other strains. In studies of muscarinic receptors, the number of [3H]QNB binding sites in striata from SD rats was lower (18%) than those from WKY and SHR. However, muscarinic receptor properties (Kd and Bmax) were the same in hypothalami. Studies of dopamine receptors revealed that the densities of both D-1 and D-2 receptors in both striata and hypothalami were significantly higher in SHR than in other strains. However, there were no differences in the affinity constant (Kd). The higher densities in hypothalami from SHR were mainly due to the high population of D-1 and D-2 receptors in the posterior hypothalamus. In the anterior hypothalamus, there was no difference in the population of D-2 receptors. These results provide a substantive basis, i.e. demonstration of alterations in drug metabolizing enzymes and receptor populations, on which to build an understanding of the genetic predisposition to the actions of xenobiotic agents.

Prevention of soman toxicity after the continuous administration of physostigmine

Protective effects of continuous administration of physostigmine alone, or in addition to scopolamine, against soman-induced toxicity were studied in guinea pigs. The results clearly demonstrated that treatment with physostigmine continuously via implanted mini-osmotic pumps for 4 or 7 days prior to soman exposure significantly protected from soman-induced mortality. In vehicle-infused guinea pigs, tremors, convulsions and loss of righting reflex occurred prior to their deaths induced by soman. Although all of the guinea pigs which received physostigmine pretreatment for 4 days prior to soman administration also displayed soman-induced tremors and convulsions, the onsets of these symptoms were significantly delayed. When animals continuously treated with physostigmine received injections of scopolamine 10 min prior to soman injections, there was a decreased incidence of all three toxicity symptoms as well as an increase in the latency to onset of tremors. Scopolamine was also able to reverse toxicity symptoms when soman was administered earlier. In animals which had been continuously treated with physostigmine via mini-osmotic pumps, the protective action against soman-induced toxicity was still apparent. On the contrary, acute physostigmine administration failed to protect against soman lethality. The present results suggest that the prophylactic uses of physostigmine via mini-osmotic pumps might be more useful than the acute bolus administration of physostigmine.

Effects of picrotoxin treatment on GABAA receptor supramolecular complexes in rat brain

Abstract The effects of acute and chronic administration of a subconvulsive dose of picrotoxin on t‐[35S]butylbieyclophosphorothionate ([35S]TBPS), [3H]muscimol, and [3H]flunitrazepam binding characteristics in various regions and on the convulsant potency of picrotoxin in Sprague‐Dawley rats were examined. Acute administration of a sub‐convulsive dose of picrotoxin (3 mg/kg, i. p.) significantly increased [35S]TBPS and [3H]muscimol binding in cerebellum (CB) with no change in frontal cortex (FC). In rats treated chronically with picrotoxin (3 mg/kg, i.p., daily for 10 days), the Bmax of [35S]TBPS binding site was significantly decreased in the FC., striatum (ST), and CB with no change in KD values. Neither [3H]muscimol binding in the FC and CB nor [3H]fiunitrazepam binding in the FC was affected in these rats. In addition, the potency of pentobarbital to inhibit [35S]TBPS binding in vitro was not altered following acute or chronic treatment of picrotoxin. Chronic administration of picrotoxin did not affect convulsive ED50 or LD50 of picrotoxin; however, it delayed the onset of convulsions and increased the time to death. These results suggest that treatment with picrotoxin at a subconvulsive dose for 10 days causes down‐regulation of [35S]TBPS binding sites and that this down‐regulation might be related, at least in part, to the decreased extent of convulsant potency of picrotoxin. In addition, the results indicate possible interaction between convulsant binding sites and GABAA receptor sites in the CB following picrotoxin treatment.

Binding Characteristics of t‐[35S]Butylbicyclophosphorothionate in Discrete Brain Regions of Rats Made Tolerant to and Dependent on Pentobarbital

Abstract: The effects of acute and continuous pentobarbital administration by pellet implantation on binding characteristics of t‐[35S]butylbicyclophosphorothionate ([35S]TBPS) in discrete regions of rat brains were examined. Acute administration of pentobarbital (60 mg/kg, s.c.) affected neither the KD nor the Bmax values of [35S]TBPS binding in any of the regions studied. The cerebella of pentobarbital‐tolerant rats had an increased density of [35S]TBPS binding sites with no change in their apparent affinity. There were no significant changes in the binding characteristics in the frontal cortex (FC), the striatum (ST), and the substantia nigra (SN) of these animals. Twenty‐four hours after removal of the pentobarbital pellets, a significant decrease in the latency of onset of first twitch response induced by pentylenetetrazol (PTZ) (50 mg/ kg, i.p.) was observed. In addition, the density of [35S]TBPS binding sites was significantly increased in the FC, the SN, and the cerebellum but not in the ST. In all brain regions studied, placebo pellet implantation and pentobarbital tolerance and dependence caused no changes in the apparent affinity of [35S]TBPS binding or the IC50 of pentobarbital for the inhibition of [35S]TBPS binding. These results suggest that [35S]TBPS binding was significantly increased following the withdrawal of the pentobarbital pellets without altering intrinsic coupling activity of barbiturate recognition sites and convulsant binding sites and that these increases in [35S]TBPS binding are related to the increased susceptibility to seizures induced by PTZ in rats made dependent on pentobarbital.

Bicuculline Up-Regulation of GABAA Receptors in Rat Brain

Effects of acute and subacute administration of Dicuculline on [3H]muscimol, [3H]flunitrazepam, and t‐[35S]butylbicyclophosphorothionate ([35S]TBPS) binding to various brain regions were studied in Sprague‐Dawley rats. Acute administration of bicuculline affected neither the KD nor the Bmax of the three receptor sites. In rats treated sub‐acutely with bicuculline (2 mg/kg, i.p., daily for 10 days), [3H]muscimol binding was increased in the frontal cortex, cerebellum, striatum, and substantia nigra. Scatchard analysis revealed that subacute treatment of rats with bicuculline resulted in a significantly lower KD of high‐affinity sites in the striatum and in a significantly lower KD of high‐ and low‐affinity sites in the frontal cortex. In the cerebellum, two binding sites were apparent in controls and acutely treated animals; however, only the high‐affinity site was defined in subacutely treated animals, with an increase in the Bmax value. Triton X‐100 treatment of frontal cortical membranes eliminated the difference in [3H]muscimol binding between control and subacute bicuculline treatments. On the other hand, [3H]muscimol binding was significantly increased in the cerebellum from bicuculline‐treated animals even after Triton X‐100 treatment. The apparent Ki of bicuculline for the GABAA receptor was also decreased in the frontal cortex and the striatum following the treatment. However, subacute administration of bicuculline affected neither the KD nor the Bmax of [3H]‐flunitrazepam and [35S]TBPS binding in the frontal cortex and the cerebellum. These results suggest that GABAA receptors are up‐regulated after subacute administration of bicuculline, with no change in benzodiazepine and picro‐toxin binding sites.

Evidence for the involvement of presynaptic cholinergic functions in tolerance to diisopropylfluorophosphate

Rats were treated with diisopropylfluorophosphate (DFP) acutely or daily for 14 days. The involvement of various presynaptic and postsynaptic functions of the cholinergic system in the development of tolerance to DFP was studied. Receptor density and affinity of both muscarinic and nicotinic receptors, high-affinity choline uptake, and [K+]-evoked release of acetylcholine (ACh) by atropine were not changed after acute administration of 2 mg/kg DFP. Both muscarinic and nicotinic receptors were down-regulated to the same extent (40-50%) after subacute administration of DFP (1 mg/kg) without changes in their affinities. Binding sites of muscarinic receptors were maximally decreased after 7 days of DFP administration. Thereafter, they remained constant throughout 14 days of administration. One hour after the last injection of 2 mg/kg DFP to subacutely treated rats, the maximum velocity of high-affinity choline uptake was significantly decreased in the striatum (33%) and hippocampus (53%) without changes in Km values. Twenty-four hours after the last injection of DFP, only a higher dose of DFP (2 mg/kg) significantly inhibited choline uptake. Potassium-evoked release of ACh by slices of striatum was not different between acutely and subacutely treated rats. However, the release of ACh by slices of striatum and hippocampus was significantly increased by atropine in subacutely treated rats. It is suggested that along with the down-regulation of the postsynaptic receptors, subsensitivity of presynaptic functions of the cholinergic synapse also develops during subacute administration of DFP.

Trihexyphenidyl enhances physostigmine prophylaxis against soman poisoning in guinea pigs

The protective effects of simultaneous and continuous administration of physostigmine and trihexyphenidyl against soman-induced toxicity were studied in guinea pigs. Not only did trihexyphenidyl reduce physostigmine-induced toxicity when it was administered continuously to the animals along with physostigmine, the combination afforded greater protection from soman lethality than did either agent administered alone. The combination pretreatment also gave better protection against soman-induced body weight loss and decreased water consumption and attenuated the down-regulation of cholinergic receptors which occurred when physostigmine alone was used. The onsets of other soman-induced toxicity signs were delayed significantly by the combination pretreatment regimen. These results suggest that simultaneous administration of the combination of physostigmine and trihexyphenidyl may be more useful than physostigmine alone as prophylaxis against soman poisoning.

Effects of acute and subacute cocaine administration on the CNS dopaminergic system in Wistar-Kyoto and spontaneously hypertensive rats: II. Dopamine receptors

The characteristics of D-1 and D-2 dopamine receptors after acute and subacute cocaine administration were determined in striata and nuclei accumbens from WKY and SHR. In striata from acutely treated rats, significant increases in D-2 receptor density were observed at 30 min, 2 or 24 h following cocaine injection in both strains without changes in affinities. The density of D-1 receptors was significantly decreased 30 min after the injection in WKY, but not in SHR. In striata from subacutely treated rats, the density of D-1 receptors was significantly increased in 3- and 7-day treated WKY, but not in SHR. The affinities of both binding sites remained unchanged. In nuclei accumbens, the changes in both D-1 and D-2 receptors after cocaine administration were similar to those observed in the striatum. The results suggest that cocaine administration alters dopamine receptor binding characteristics. Furthermore, D-1 and D-2 dopamine receptors appear to be differently regulated.

Correlation of muscarinic receptor density and acetylcholinesterase activity in repeated DFP-treated rats after the termination of DFP administration

Following chronic exposure to DFP, both AChE activity and muscarinic receptor density were markedly depressed in the rat striatum. The rate of recovery of AChE activity was 5.2% per day within 7 days, while the density of muscarinic receptor recovered at the rate of 1.94% per day. The correlation between 2 parameters was very high (R = 0.99). Thus, it is suggested that the muscarinic receptor density was intimately related to AChE activity.