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

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

Effects of zonisamide on experimental tremors in rats.

OBJECTS: To study the effect of zonisamide on experimental tremors in rats. METHODS: Effect of zonisamide on harmaline- or oxotreorine-induced tremors, and tacrine-induced tremulous jaw movements (TJMs) was studied. RESULTS: Zonisamide significantly suppressed both harmaline- and oxotremorine-induced tremors dose-dependently. Zonisamide also significantly suppressed tacrine-induced TJMs, and this effect was not lost under conditions of monoamine-depletion or dopaminergic blockade. CONCLUSION: The anti-tremor effects of zonisamide may be achieved by a non-dopaminergic mechanism. Since it effectively suppressed tremors that are based on different kinds of tremors, we propose a novel perspective of clinical potential of zonisamide as a non-specific, anti-tremor drug.

Effects of AIT-082, a purine derivative, on tremor induced by arecoline or oxotremorine in mice.

The effects of AIT-082, a hypoxanthine derivative, on tremor in mice were investigated. The mice received intragastric administration of AIT-082 for consecutive 60 days at doses of 150, 300 and 600 mg.kg(-1). The results showed that AIT-082 not only effectively inhibited the tremor induced by arecoline or oxotremorine, but also alleviated the tremor intensity and significantly shortened the tremor durations. The inhibition of tremor was perhaps associated with the central cholinergic nerve depressant effects as well as the stimulation of proliferation and differentiation of nerve cells.

CNS effects of a series of 1,2,4-triazolyl heterocarboxylic derivatives.

A series of 1,2,4-triazolyl heterocarboxylic derivatives were tested for acute toxicity and CNS effects in mice. Several of these compounds demonstrated clear psychostimulant effects. Other components of the series, however, showed a definite central depressant activity. Some of the screened derivatives showed interesting anxiolytic properties.

Method for screening drug and chemical effects in laboratory rats using computerized quantitative electroencephalography.

A minimally-invasive method of quantitative electroencephalography (qEEG) that requires no anesthetics and parallels techniques of naturalistic stimulation was developed and validated for regulatory testing of drugs and chemicals in rats. Male and female Fischer 344 rats were utilized in a randomized-block design to measure qEEG target parameters associated with a range of cholinesterase inhibition. For this study, physostigmine was administered ip at doses of 0.05, 0.2 or 1.0 mg/kg, resulting in average cholinesterase inhibition in plasma (28, 38 and 70%), erythrocytes (19, 24 and 36%), and brain (2, 10 and 31%) which correlated well with increased total power and amplitude changes. Additional treatment-related effects consisted of decreased relative alpha and beta, increased relative delta, and a left-shift in the spectral-edge frequency. In a second study, male and female Sprague-Dawley rats were utilized in a treatment-by-subjects design to determine qEEG target parameter changes due to the M2 autoreceptor agonist oxotremorine. Repeated incremental doses (0.05, 0.1, 0.2 mg/kg; ip) of oxotremorine resulted in increased beta contribution, a right-shift in the spectral-edge frequency and decreased alpha contribution. These qEEG results with physostigmine and oxotremorine correlate well with receptor-specific and general muscarinic effects, making it a reliable contribution to analysis of agonist and antagonist effects of cholinergic compounds.

Method for screening drug and chemical effects in laboratory rats using computerized quantitative electroencephalography.

A minimally-invasive method of quantitative electroencephalography (qEEG) that requires no anesthetics and parallels techniques of naturalistic stimulation was developed and validated for regulatory testing of drugs and chemicals in rats. Male and female Fischer 344 rats were utilized in a randomized-block design to measure qEEG target parameters associated with a range of cholinesterase inhibition. For this study, physostigmine was administered ip at doses of 0.05, 0.2 or 1.0 mg/kg, resulting in average cholinesterase inhibition in plasma (28, 38 and 70%), erythrocytes (19, 24 and 36%), and brain (2, 10 and 31%) which correlated well with increased total power and amplitude changes. Additional treatment-related effects consisted of decreased relative alpha and beta, increased relative delta, and a left-shift in the spectral-edge frequency. In a second study, male and female Sprague-Dawley rats were utilized in a treatment-by-subjects design to determine qEEG target parameter changes due to the M2 autoreceptor agonist oxotremorine. Repeated incremental doses (0.05, 0.1, 0.2 mg/kg; ip) of oxotremorine resulted in increased beta contribution, a right-shift in the spectral-edge frequency and decreased alpha contribution. These qEEG results with physostigmine and oxotremorine correlate well with receptor-specific and general muscarinic effects, making it a reliable contribution to analysis of agonist and antagonist effects of cholinergic compounds.

Dopamine receptor agonists, N,N-dipropyl-2-aminotetralin (TL-68) and 2-di-n-propylamino-4,7-dimethoxyindane (RDS-127) antagonize oxotremorine-induced tremors by antimuscarinic action in mice.

Central antimuscarinic actions of dopamine receptor agonists: N,N-dipropylaminotetrain (TL-68) and 2-di-n-propylamino-4,7-dimethoxyindane (RDS-127), were evaluated against oxotremorine-induced tremors in mice. Both TL-68 and RDS-127 inhibited the tremor intensity but were less potent than atropine.

Muscarinic actions and receptor binding of the enantiomers of BM 130, an alkylating analog of oxotremorine.

The enantiomers of the oxotremorine analog N-[4-(2-chloromethylpyrrolidine)-2-butynyl]-2-pyrrolidone (BM 130) were synthesized. The LD50 values of (+)- and (-)-BM 130 in mice (i.v.) were 10.4 +/- 1.4 and 13.5 +/- 1.9 mumol/kg, respectively. Atropine and N-methylatropine poorly protected against the lethal effects, suggesting that they were nonmuscarinic in nature. When administered i.v. to mice, (+)- and (-)-BM 130 were equipotent in producing peripheral and central muscarinic effects. ED50 values were 1.3 to 1.4, 2.8 to 3.2 and 0.20 to 0.26 mumol/kg, respectively, for salivation, tremor and analgesia (tail-flick assay). After i.p. injection, tremor was not observed and analgesic potency was reduced more than 10-fold compared to the i.v. route. The aziridinium ions [(+)- and (-)-BM 130A], formed by spontaneous cyclization of (+)- and (-)-BM 130, were virtually equipotent in eliciting contractions of the isolated guinea pig ileum and in causing salivation in mice. Their LD50 values in mice (i.v.) were 1.1 +/- 0.2 and 2.1 +/- 0.3 mumol/kg, respectively. The enantiomers of BM 130A had similar affinity for muscarinic receptors in the rat cerebral cortex as measured by competitive inhibition of (-)-[3H]N-methylscopolamine binding at 0 degrees C. The rate constants for alkylation of muscarinic receptors, obtained at 37 degrees C by measuring the decline in (-)-[3H]-3-quinuclidinyl benzilate binding to cortical homogenates that had been treated with various concentrations of (+)- and (-)-BM 130A for 20, 45 or 90 min, differed significantly for the two enantiomers.(ABSTRACT TRUNCATED AT 250 WORDS)

Nonmuscarinic neurotoxicity of oxotremorine.

The ability of various treatments to prevent peripheral parasympathetic actions, central effects and lethality of the muscarinic agonist oxotremorine was studied in rats. The percentage of animals exhibiting effects of oxotremorine was dose and time dependent. The ED50 for producing lacrimation, salivation, tremor, convulsions and death was 2.5, 1.3, 1.6, 3.2 and 8.3 mg/kg i.p., respectively. Pretreatment with 5 mg/kg of atropine completely prevented all observable effects of oxotremorine at doses of 5 mg/kg and below. Doses of oxotremorine in excess of 5 mg/kg produced tremor, generalized clonic convulsions and death that could not be prevented by atropine when given at up to 160 mg/kg; lacrimation and salivation were not present in atropine-treated rats. In the presence of 40 mg/kg of atropine, ED50 values for oxotremorine were shifted more than 12-fold for lacrimation, salivation and tremor, whereas convulsions and death were maximally altered by a factor of 2. Scopolamine, benactyzine and benztropine were also incapable of completely preventing tremor, convulsions and death induced by 10 or 15 mg/kg of oxotremorine. Atropine methyl nitrate had effects comparable to atropine sulfate on lacrimation, salivation and lethality induced by oxotremorine (10 or 15 mg/kg) but had no effect on tremor or convulsions. A similar profile of atropine-insensitive effects was produced by pilocarpine and arecoline. Doses of diazepam 4 times higher (4 mg/kg) than necessary to prevent tonic-clonic convulsions induced by pentylenetetrazol were ineffective against tremor, convulsions or death produced by oxotremorine (10 or 15 mg/kg) unless given in conjunction with atropine.(ABSTRACT TRUNCATED AT 250 WORDS)

Behavioral and physiological effects of an aziridinium analog of oxotremorine (BM130).

When injected IV BM130, a mustard analog of oxotremorine, acts initially as a cholinergic agonist and thereafter produces a sustained resistance to muscarinic agonists. Control subjects were injected with saline or with BM130A, the active aziridinium intermediate of BM130. Acute injections of BM130 were followed initially by effects that were characteristically cholinomimetic in nature: e.g., tremor, chromodacryorrhea, salivation, hypothermia. The effects were dose-dependent and of limited duration. They were not seen in behavioral variables measured 30 min after drug treatment. Injection of BM130A produced peripheral, but not central effects; saline had no effects. The prediction that initial cholinomimetic effects should be followed by sustained resistance to cholinergic agonists was tested by subjecting animals to oxotremorine challenges at weekly intervals following single injections of BM130. In none of the measures taken did animals injected with BM130A or saline show resistance to the muscarinic challenges. Those administered BM130 showed resistance, which in some variables was sustained for 3-4 weeks. The resistance was statistically significant at high BM130 doses and appeared to be dose dependent over the range studied.

Studies on the mechanism of chlordecone-induced tremor in rats.

Organochlorine insecticides such as DDT and chlordecone produce tremor in exposed individuals. Using a spectral analysis technique, chlordecone-induced tremor in rats was found to be dose- and time-related and could be distinguished from pharmacological agents (i.e., harmine, oxotremorine, and apomorphine) that produce tremor or stereotypic behavior. Drugs with known pharmacological effects were used to study the possible mechanism of chlordecone-induced tremor. Although no one neurotransmitter system appears necessary for tremor, the serotonergic, gabaergic, and cholinergic systems appear to contribute to chlordecone-induced tremor. The role of the catecholaminergic system is uncertain. Subsequent experiments indicated that supraspinal processes, possibly located in the brain stem, are important contributors to chlordecone-induced tremor. Activation of the cerebellum via the olivocerebellar tract to produce tremor cannot explain chlordecone's tremorgenic effects.

Quantitation of tolerance development after chronic oxotremorine treatment.

A new procedure was developed to quantitate the tolerance which develops as mice are chronically infused with the muscarinic agonist, oxotremorine. Cumulative dose-response curves were constructed for the effects of oxotremorine on body temperature and rotarod performance by administering sequential injections to individual animals. These dose-response curves compare favorably to those constructed by injecting individual animals with one of several doses. The sequential injection technique was used to assess the magnitude of tolerance development to oxotremorine. A linear relationship between oxotremorine infusion rate (dose) and magnitude of change of the ED50 value for impairment of rotarod performance was observed, with animals receiving an infusion rate of 1.0 mg/kg/hr showing a 24-fold increase in ED50. Dose-response curves for tolerant animals were parallel to those constructed for naive animals. The oxotremorine dose required to decrease body temperature to 35 degrees C (ED35 degrees) was 80-fold greater than control in the group treated with 1.0 mg/kg/hr. The dose-response curves for tolerant animals were not parallel to those seen in naive animals. Time courses of recovery from a challenge dose of oxotremorine suggest little change in metabolism occurred during chronic infusion. Chronic oxotremorine infusion resulted in a decrease in the total number of QNB binding sites. Both high- and low-affinity sites were reduced in number. Since no change in K1 for the muscarinic agonist, carbamylcholine, was observed, it seems unlikely that a change occurs in the affinity of the muscarinic receptor for agonists. Significant change in receptor number was detected only in animals that received higher doses of oxotremorine. Chronic oxotremorine treatment had no effect on choline uptake by synaptosomes prepared from any of five brain regions.

Cholecystokinin octapeptide (CCK-8), ceruletide and analogues of ceruletide: effects on tremors induced by oxotremorine, harmine and ibogaine. A comparison with prolyl-leucylglycine amide (MIF), anti-Parkinsonian drugs and clonazepam.

Cholecystokinin octapeptide (CCK-8), ceruletide (caerulein, CER) and 10 analogues of ceruletide, were studied in mice for antagonism of the tremors induced by harmine (5 mg/kg, s.c.), ibogaine (20 mg/kg, s.c.) and oxotremorine (0.2 mg/kg, s.c.). The following reference drugs were tested for comparison: prolyl-leucylglycine amide (MIF), atropine, haloperidol, biperiden, ethopropazine, trihexyphenidyl, methixene and clonazepam. All treatments were subcutaneous, the antagonists being given 10 min (in some trials 30 min) before the tremorogen. Tremorolytic potency (ED50) was calculated from dose-response curves. Against the tremors induced by either harmine or ibogaine, CCK-8 and ceruletide, as well as many of the analogues of ceruletide had greater tremorolytic potency than the reference drugs. Against oxotremorine, however, ceruletide and its most potent analogue, Nle8-CER (other analogues were not tested) were inactive and MIF showed very little effectiveness. Additional experiments on hypothermia and sedation as well as evaluation of previous studies on other central actions suggested that the tremorolytic effect of CCK-like peptides is independent of other central effects. The CCK-like peptides may play a physiological role in the regulation of extrapyramidal motor activity.

Cholinergic inhibition of methylphenidate-induced stereotypy: oxotremorine.

Lethality of orally administered oxotremorine for female mice required 250 times the dose that was effective for inhibiting methylphenidate-induced stereotypy. A number of lines of evidence indicate that increasing central cholinergic activity may be useful in various psychiatric syndromes and movement disorders. A relatively safe oral cholinomimetic would be clinically useful. Oxotremorine may be such an agent.

[Behavioral pharmacology of a new antidepressant, lopramine].

The behavioral effects of lopramine [N-methyl-N-(4-chlorobenzoyl-methyl)-3-(10, 11-dihydro-5H-dibenz (b,f) azepin-5-yl) propylamine hydrochloride] were investigated in mice and rats and compared with those of amitriptyline and imipramine. Lopramine inhibited reserpine hypothermia and haloperidol catalepsy in mice and tetrabenazine ptosis in rats. In addition the drug potentiated the effects of methamphetamine, and DOPA- or apomorphine-induced stereotypy in mice, whereas it suppressed muricide of the rat induced by either olfactory bulbectomy or delta9-tetrahydrocannabinol, similar to the responses seen with imipramine and amitriptyline. On the other hand,lopramine increased spontaneous motor activity and markedly potentiated methamphetamine hyperactivity. In contrast to imipramine and amitriptyline, lopramine failed to counteract both the lethal effect of physostigmine and oxotremorine tremor in mice, indicating that the drug had no central anticholinergic effect. Lopramine, even at such a large dose as 5,000 mg/kg p.o., caused neitherimpairment of coordinated motor activity nor muscle relaxation. It is concluded that lopramine is a new type of tricyclic antidepressant with extremely low toxicity and without central anticholinergic action.