T. V. V’yunova scite author profile

T. V. V’yunova

3Publications

37Citation Statements Received

72Citation Statements Given

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Affiliations

Institute of Molecular Genetics, Russian Academy of Sciences, Kurchatov Institute

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Synacton and individual activity of synthetic and natural corticotropins

V’yunova

Andreeva

Шевченко

et al. 2016

J of Molecular Recognition

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Short endogenous peptides represent one of the most important constituents of the mammalian body's general regulatory system. Some synthesized analogs and modified natural peptides (eg, corticotropins) also show high biological activity. Nevertheless, the mechanism of action of regulatory peptides remains unclear. To explain the effects of peptides of intermolecular processes, the hypothesis that a synactonal mechanism underlies the action of regulatory peptides, exemplified by the heptapeptide Semax, has been proposed. Thus, in the total pool of Semax metabolites, which includes the cleavage products of the parental molecule, we can distinguish the functional core, represented by the major metabolic products-peptides HFPGP and PGP. These peptides have their own binding sites with similar although differing characteristics. Together with Semax, they constitute a single complex of bioregulators acting in a certain sequence and in interaction, ie, synacton. It can be assumed that the diverse clinically significant effects of the drug Semax are determined by its synacton. Specific interactions between some tritium-labeled peptides (basic constituents of the Semax synacton) and plasma membranes of neurons have been characterized. Only a few peptides of the Semax synacton showed competitive activity for the Semax binding sites. Fragments comprising 5 amino acid residues (EHFPG and HFPGP) showed the highest competitive activity. We also characterized the processes of specific ligand-receptor interactions of some tritium-labeled corticotropins ([ H-Pro]MEHFPGP, [ H-Pro]HFPGP, and [ H-Pro]PGP) by applying mathematical discriminative models (Scatchard, Hill, Bjerrum, and Lineweaver-Burk plots). So the intermolecular interactions of these peptides with plasma membranes of neuronal brain targets are probably not limited by specific binding at orthosteric sites. The effect of peptides that act in the synacton considerably extends the regulatory potential of the initial molecule.

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An integrated approach to study the molecular aspects of regulatory peptides biological mechanism

V’yunova

Andreeva

Шевченко

et al. 2019

Labelled Comp Radiopharmac

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An integrated methodological approach to study the molecular aspects of short regulatory neuropeptides biological mechanism is proposed. The complex research is based on radioligand-receptor method of analysis and covers such points of peptides molecular activity as: specific binding of peptides to brain cells plasmatic membranes, formation of tissue specific synacton, influence of peptides (as allosteric modulators) on functionality of different neuroreceptors as well as delayed in time effects of peptides on receptor-binding activity of well-known neuroreceptor systems. Radiolabeled ligands in such complex study are the one of the best and precision instruments to uncover the molecular mechanism of multiple and multitarget biological effects of regulatory peptides. In this issue we used heptapeptide Semax as a model regulatory peptide, [ 3 H]Ach and [ 3 H]GABA as an effector molecules, and the rat model of stress-induced memory and behavior impairment as a morbid state. We showed the ability of Semax to modulate in a dose-dependent manner [ 3 H] Ach and [ 3 H]GABA specific binding to some of its corresponding receptors as well as to affect the number of [ 3 H]GABA specific binding places on rat neurons plasmatic membranes after complex stress exposure.

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Peptide regulation of specific ligand-receptor interactions of GABA with the plasma membranes of nerve cells

et al. 2014

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T. V. V’yunova

Synacton and individual activity of synthetic and natural corticotropins

An integrated approach to study the molecular aspects of regulatory peptides biological mechanism

Peptide regulation of specific ligand-receptor interactions of GABA with the plasma membranes of nerve cells

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