[Reactivity of brain benzodiazepine receptors and individual sensitivity of rats to pentylenetetrazole]. / Reaktivnost' benzodiazepinovykh retseptorov mozga i individual'naia chuvstvitel'nost' krys k pentilentetrazolu.

The individual sensitivity of the male Wistar rats to acute pentylenetetrazole injection was studied, the density and the affinity of benzodiazepine receptors in the cerebellar cortex for 3H-diazepam was measured. It was demonstrated that the reactivity of benzodiazepine receptors underlies the individual sensitivity to pentylenetetrazole. The animals with higher sensitivity were characterized by more intensive reaction than the control and resistant animals, i.e., by an decrease in the receptors density (the initial receptors density being equal in the sensitive, resistant, and control animals). Daily injections of a subconvulsive dose of pentylenetetrazole during 24 days increase the animal sensitivity to this substance, and this was accompanied by an increase in the reactivity of benzodiasepine receptors. Later on, the produced high sensitivity became somewhat lower but persisted for 6 months. The receptors density in this period reduced almost by half. In sensitive rats, a single low dose of pentylenetetrazole injected 6 months after treatment increased the density of benzodiazepine receptors. The age-matched controls, the same acute dose of pentylenetetrazole decreased both the receptor density and affinity of their binding. It is suggested that the increase in reactivity of benzodiazepine receptors is actualized via the intracellular metabotropic feedback mechanism.

[Possible mechanisms for forming typological features of behavior of WAG/Rij line rats]. / Vozmozhnye mekhanizmy formirovaniia tipologicheskikh osobennostei povedeniia krys linii WAG/Rij.

Typological behavior reactions of WAG/Rij rats were studied from the standpoint of divergent modulatory integration hypothesis. This rat strain has a genetically determined dominant dysfunction of the benzodiazepine system of the thalamic nuclei. This disorder provokes an epileptiform disease such as absence epilepsy. It was suggested that the dysfunction of this system would result in a modification of the modulatory systems, which support the motivation states of escape and avoidance reactions as well as of the modulatory systems, which form the emotional states. Modifications of these states are the background of typological behavioral features of WAG/Rij rats. It was shown that WAG/Rij have the lower threshold of the development of haloperidol catalepsy, higher levels of fear and depression. On the first day of training in a shuttle box, WAG/Rij rats demonstrated better avoidance performance than Wistar rats. On the second and 28th days, the amnestic effect of the epileptiform disease was observed. The amnestic effect was also observed after passive avoidance conditioning. The results are discussed in terms of the modulatory integratin hypothesis.