Reversal of a trimethyltin-induced learning deficit by desglycinamide-8-arginine vasopressin

Intranasal vasopressin expedites dishonesty in women

As an integral ingredient of human sociality, dishonesty can be both egocentric and altruistic, as well as gradually escalate. Here, we examined the influence of arginine vasopressin (AVP), a neuropeptide associated with human prosocial behaviors, on dishonest behaviors in men and women. In this double-blind and placebo-controlled study, 101 participants were randomized to administration of either 20 IU intranasal AVP or placebo. We used a two-party task to manipulate the incentive structure of dishonesty in the way of self-/other-serving repeatedly. For lies that benefit both themselves and others, women receiving intranasal AVP lied more than women receiving intranasal placebo and men receiving intranasal AVP. The dishonest behavior of women treated with AVP gradually escalated with repetition over time. These results suggest that AVP selectively regulates the escalation of dishonesty in women, contingent on the motivation of dishonesty. Our findings provide insight into gender-specific modulations of AVP on human dishonest behavior.

Systemic administration of atipamezole, a selective antagonist of alpha-2 adrenoceptors, facilitates behavioural activity but does not influence short-term or long-term memory in trimethyltin-intoxicated and control rats

The present study used trimethyltin (TMT)-intoxicated rats as a model for the behavioural syndrome seen after neuronal damage to the limbic system. Behavioural assessments indicated increased locomotor activity and reduced number of groomings in an open-arena task in TMT-intoxicated (6.6 mg/kg as a free base) rats, as has been found previously. A novel finding was the severe deficit in swimming to a visible platform in the water maze task, with reduced swimming speed at the beginning of the training period. During the reacquisition phase of a radial arm maze task, TMT-intoxicated rats made more short-term and long-term memory errors, and their behavioural activity was increased in comparison with controls. The administration of atipamezole (300 micrograms/kg), a selective antagonist of alpha 2-adrenoceptors, enhanced locomotor activity compared to saline-treated rats, but these effects did not differ between the TMT group and their controls. Atipamezole did not enhance short-term or long-term memory in either TMT or control groups. Taken together, the present data indicate that TMT intoxication is a model for global dementia rather than for a specific loss of relational memory. Previous studies on the neurochemical effects of TMT and the alleviation or prevention of neurotoxicity of TMT are reviewed.

Effects of anticonvulsants in a novel operant learning paradigm in rats: comparison of remacemide hydrochloride and FPL 15896AR to other anticonvulsant agents

One of the primary undesired effects of anticonvulsant medication is an impairment in cognitive function, such as new learning ability. The purpose of the present study was to compare the effects of remacemide hydrochloride [(+/-)-2-amino-N-(1-methyl-1,2,-diphenylethyl)acetamide monohydrochloride] and FPL 15896AR [(+)-alpha-phenyl-2-pyridine-ethanamide] to a number of anticonvulsant agents on an operant acquisition baseline. Remacemide hydrochloride is currently in clinical trials for epilepsy and FPL 15896AR is under development. In the present procedure, fasted, experimentally naive rats were placed into operant chambers in which food pellets were initially available under a Fixed-Ratio 1 (FR1) schedule of food presentation, and as lever pressing progressed, the FR value incremented. All drugs were tested in multiples of three and ten times their respective ED50 values against maximal electroshock-induced seizure (MES) following p.o. administration. The drugs tested varied widely in their ability to disrupt acquisition of the lever-pressing task. Remacemide hydrochloride and a structurally related analog, FPL 15896AR, did not disrupt acquisition. Clonazepam, lamotrigine, MK-801, phenobarbital, felbamate, phenytoin, and carbamazepine increased the number of hours required to achieve FR3 (emit more than 100 responses) with respect to vehicle control performance. Of these, clonazepam, MK-801 and phenytoin produced robust enough disruption to result in significantly fewer reinforcers delivered over the 14-h operant session.

Parallel changes in operant behavioral adaptation and hippocampal corticosterone binding in rats treated with trimethyltin

Rats were given water vehicle or trimethyltin (TMT; 3.0, 6.0 or 7.5 mg/kg, p.o.). Lever responding for food was measured 3 months later, in a test in which the fixed ratio requirement was doubled daily (FR1-128). Response rates for all groups were inverted U-shaped functions of FR values. However, the effect of increasing ratio values was attenuated in the 6.0 mg/kg group, which responded less than controls when control rates were maximal (at FR16 and FR32). In contrast, rats given the high dose responded at higher rates (at FR4 and FR64). [3H]Corticosterone binding to hippocampal cytosolic protein was maximally reduced for the group given 6.0 mg TMT/kg. The greatest reduction in hippocampal weight resulted from injection of 7.5 mg TMT/kg, but a smaller reduction in [3H]corticosterone binding (i.e. 22%) was observed for this group. In the absence of an effect of 3.0 mg TMT/kg upon weight of hippocampus, there also was a reduction in steroid binding, indicating the sensitivity of this parameter for TMT toxicity. The results support the notion that hippocampal corticosteroid receptors are important for behavioral adaptation, and rats given moderate doses of TMT may be useful for studying functions of corticosterone receptors.