Endogenous digitalis-like factors were found in the mammalian and human blood. It was the starting point for the elucidation of the new non-pumping function of the Na,K-ATPase. It was previously well known that Na,K-ATPase is a pharmacological target receptor for cardiac glycosides (J.C. Skou. 1957. Biochim. Biophys. Acta, 23: 394-401). We have investigated the trophotropic effects of such agents as ouabain, epinephrine, norepinephrine, atenolol, and comenic acid using the organotypic tissue culture combined with the reconstruction of optical cross sections and confocal microscopy. It was shown that the growth zone of organotypic culture forms a multidimensional structure. Our results indicate that the cardiac glycoside ouabain applied in endogenous concentrations (10, 10 mol/L) can modulate transducer function of Na,K-ATPase and control the cell growth and proliferation. It was also shown that Src-kinase is involved in "endogenous" ouabain activated intracellular pathways as a series unit. Epinephrine (10-10 mol/L) and comenic acid (10-10 mol/L) were demonstrated to modulate the growth of 10- to 12-day-old chicken embryo cardiac tissue explants in a dose-dependent manner. Epinephrine and comenic acid regulate growth and proliferation of the cardiac tissue via receptor-mediated modulation Na,K-ATPase as a signal transducer. The trophotropic effects of the investigated agents specifically control the heart remodeling phenomenon.
Clinical and neurological, neurophysiological, and neuropsychological examination of 50 patients aged 50–65 y. o. with an experience of COVID‑19 infection within the last 3 to 6 months, revealed pathological changes in the central nervous system in the form of cerebrastenic and autonomic disorders, motor disorders, vestibulopathy symptoms, which occurred in various combinations, with astheno-vegetative syndrome as obligate. Cognitive impairments were detected in 26% of patients; the mental fatigability index was 1.055 ± 0.124; a high level of situational anxiety was noted in 35% of patients, and a high level of personal anxiety in 50 % of patients with the experience of COVID‑19. The study of brain biopotentials revealed moderate diffuse changes (18%) and irritative disorders on the part of hypothalamic (69 %) and diencephalic structures (20%). All of the above may indicate that, regardless of the form of coronavirus infection occurred in humans, i. e., latent, mild, moderate or severe, one of the targets of the pathological impact of COVID‑19 virus is the median structures of the brain responsible for autonomic and cognitive functions. Nevertheless, in our opinion, these disorders are associated not with a direct pathological effect, but are mediated mainly by circulatory disorders in the microcirculatory bed due to endothelial damage and are rather functional disorders on the part of the central nervous system. This provides the grounds for the selection of pathogenetic therapy aimed at stabilizing the functional state of neurons, and one of the drugs of choice may be citicoline (Noocyl), the action of which is associated with reinforcing the cell membrane of the neuron and normalizing bioelectric processes.
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