[Systemic control of the molecular, cell, and epigenetic mechanisms of long-lasting consequences of stress].

Based on M.E. Lobashev's views of the systemic control of genetic and cytogeneitc processes and a substantial effect of excitability on plastic changes in the central nervous system (CNS), the effect of prolonged emotional and pain stress (PEPS) on the molecular, cell, and epigenetic mechanisms of injury memory was studied in rat strains bred for a certain excitability of the nervous system.

[Morpho-functional changes in the frog urinary bladder receptors under the influence of barbiturates].

The effect of hexenal and nembutal on the tissue bushy receptors was studied the living isolated frog urinary bladder using methylene blue staining. These drugs were shown to induce the changes in the receptor pulse activity which included three phases: an initial sharp increase, an abrupt decline and a low protracted plateau. Reactions to hexenal and nembutal, while possessing some common features, had their own peculiarities.

Neuron density in the hippocampus in rat strains with contrasting nervous system excitability after prolonged emotional-pain stress.

A model system consisting of two rat strains bred for nervous system excitability in response to electric shocks was used to study changes in the number density of neurons in hippocampal field CA3 at 24 h, two weeks, and two and six months after prolonged emotional-pain stress (PEPS). Neuron density in hippocampal field CA3 decreased after completion of PEPS. These changes arose at different time points in the different rat strains (one day for low-excitability rats, two months for high-excitability rats) and persisted to six months.

[Numerical density of neurons in the hippocampus of rat lines contrasting in excitability of the nervous system exposed to prolonged emotional painful stress].

Two lines of rats, selected according to the excitability of nervous system to the action of an electric current, served as the model objects to study the changes of numerical density of neurons in hippocampus area CA3 24 hours, 2 weeks, 2 and 6 months after prolonged exposure to emotional painful stress. Reduction of neuron density in hippocampus area CA3 was demonstrated after exposure to stress that persisted as long as 6 months. These changes developed following time intervals that were different for each line of rats (24 hours for rats with low excitability and 2 month--for rats with high excitability).

[Branched form of the encapsulated dermal receptors in rats].

Using electron microscope the receptors found in the zone of highest receptor sensitivity in the skin fold at the base of IV finger of rat hind limb were studied. These receptors are represented by complex incapsulated corpuscles consisting of a group of small endings similar to Pacinian corpuscles, which are densely packed and surrounded by a common connective tissue capsule. Each single primary receptor is provided with an unmyelinated receptor terminal, analogue of internal bulb, and a multilayered external bulb.