The Effect of Long-Term Emotional and Painful Stress on the Expression of Proinflammatory Cytokine Genes in Rats with High and Low Excitability of the Nervous System.

Stress plays an important role in the pathogenesis of anxiety and depressive disorders. Neuroinflammation is considered as one of the mechanisms by which stress alters the molecular and cellular plasticity in the nervous tissue and thus entails CNS dysfunction. The contribution of genetically determined features of the nervous system to the development of post-stress neuroinflammation has not been sufficiently studied.

Differences in the Autophagy Response to Hypoxia in the Hippocampus and Neocortex of Rats.

Autophagy is a regulated mechanism of degradation of misfolded proteins and organelles in the cell. Neurons are highly differentiated cells with extended projections, and therefore, their functioning largely depends on the mechanisms of autophagy. For the first time in an animal model using immunohistochemistry, dot analysis, and qRT-PCR, the autophagy (macroautophagy) activity in neurons of two brain regions (hippocampus and neocortex) under normoxia and after exposure to hypoxia was studied.

The Effect of the Taste Receptor Protein T1R3 on the Development of Islet Tissue of the Murine Pancreas.

T1R3 protein, the main subunit of the sweet taste receptor and receptor of amino acid taste, is expressed in the epithelium of the tongue and gastrointestinal tract, in β cells of the pancreas, hypothalamus, and numerous other organs. Recently, convincing evidences on the involvement of T1R3 in the control of carbohydrate and lipid metabolism, and the control of incretin and insulin production were obtained. In the study on Tas1r3-gene knockout mouse strain and parent C57BL/6J strain as a control, the data on the effect of T1R3 on morphological characteristics of Langerhans islets in the pancreas were obtained.

Copy-number variation of housekeeping gene rpl13a in rat strains selected for nervous system excitability.

We evaluated copy number variation (CNV) for four genes in rat strains differing in nervous system excitability. rpl13a copy number is significantly reduced in hippocampus and bone marrow in rats with a high excitability threshold and stress. The observed phenomenon may be associated with a role for rpl13a in lipid metabolism.

[THE REGULATING EFFECT OF DIPEPTIDES ON CELL PROLIFERATION IN NERVE TISSUE CULTURE IN MAMMALS AND ON ASSOCIATIVE LEARNING IN INSECTS].

The effect of dipeptides AspPro and AspSer and of their composing amino acids (asparagine acid--Asp, proline--Pro, serin--Ser) on the proliferative activity in the explants of cortex and subcortical structures of the rat brain and on the functional activity of CNS of the honeybee was studied. The square index defined as a proportion of the whole explant square to the square of its central zone was determined. The number of bees responded with the conditional reaction (proboscis extension in the direction to aromatized solution) after 1 min (short-term memory) and 180 min (long-term memory) was detected after single learning procedure.