Abstract

We studied the effects of modulation of the activity of noradrenergic and GABA-ergic cerebral transmitter systems on the hippocampal electrical activity in rats during long-lasting (21 weeks) stress induced by a zooconflict situation. The background field electrical activity of the hippocampus (electrohippocampogram, EHcG) was recorded from control and stressed rats in the state of residual ketamine-barbiturate anesthesia. We used injections of the following modulators of central neurotransmission: amitriptyline, aminazine, and carbamazepine, which are extensively used in clinics for intensification of the activity of the antistress GABA system based on the influence of these agents on the monoaminergic cerebral systems. Under such conditions, we found the two-phase dynamics of spectral powers of EHcG components. In the first phase, where changes in the excitatory influences on central neurons prevailed, the total power of EHcG oscillations and spectral powers of its components were significantly lower with respect to the control, while in the second phase we observed rapid increases in the above indices, which probably resulted from parallel hyperactivation of both excitatory and inhibitory (GABA-ergic) elements of neuronal networks of the hippocampus. In rats forming the groups for comparison (control animals and stressed ones with no injections of synaptic modulators), changes in the powers of EHcG oscillations during the 21-week-long experiment waves were three-phase; in the latter animal group, the above characteristics differed from each other mostly quantitatively. Such changes in stressed rats with respect to the control ones could reflect modulation of the mediator/hormonal influences on hippocampal neurons during three phases of the stress reaction of the organism.

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