Abstract

In the recent years, an identification of regulatory mechanisms underlying the general adaptation syndrome as an organism’s response to drastic emotional stress-evoking environmental changes is gaining in its importance. The ability to control over visceral functions plays a crucial role in stress reactions due to a threat of neurodynamic imbalance in sympathetic-parasympathetic relationships with the heart as their most vulnerable element. Fast stress adaptation promotes restoration not only of the sympathetic-parasympathetic balance, but also of energy metabolism. Taurine is one of the major regulatory molecules that activate metabolic processes. The present work addresses the following issues: (1) the descending influence of the paraventricular nucleus (PVN) on neural reaction of the solitary tract nucleus (STN), which is the first link in the visceral sensitivity pathway, (2) the mechanisms of central control over visceral reactions as investigated by mathematical modelling and analysis of the heart rate variability (HRV), and (3) morphofunctional changes in brain structures, integrating and regulating the visceral sphere (hypothalamic PVN, amygdala), under psycho-emotional stress with and without intraperitoneal injection of taurine (50 mg/kg). Acute and semichronic experiments were conducted on white nonlinear rats under 5-h immobilization stress. An extremely strong centralization of the vegetative HRV parameters (HR, VBI, SSTI) was revealed, with these parameters normalized on days 7 and 14 post taurine injection. An interaction and interdependence of the central regulatory mechanisms of cardiovascular reactions as well as a considerable protective role of taurine, promoting fast restoration of adaptive properties of the central and peripheral visceral sensitivity components under the development of long-term psycho-emotional stress, were shown.

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