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

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...

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Bibliographic Details
Published in:Journal of labelled compounds & radiopharmaceuticals 2019-10, Vol.62 (12), p.812-822
Main Authors: Vyunova, Tatiana V., Andreeva, Lioudmila A., Shevchenko, Konstantin V., Myasoedov, Nikolai F.
Format: Article
Language:English
Subjects:
[3H]Ach
[3H]GABA
AchR
allosteric modulation
Allosteric properties
Animals
Behavior, Animal
Binding
Biological effects
Brain - metabolism
Brain - physiopathology
cognitive effects
Coordination compounds
GABAR
Integrated approach
Isotope Labeling
Male
Membranes
Memory
Modulators
Neuromodulation
Neuropeptides
Neuropeptides - metabolism
Peptides
radioligand binding method
Rats
Receptors
Semax
stress
Stress, Psychological - metabolism
Stress, Psychological - physiopathology
stress‐induced impairment of memory
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Summary: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, [3H]Ach and [3H]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 [3H]Ach and [3H]GABA specific binding to some of its corresponding receptors as well as to affect the number of [3H]GABA specific binding places on rat neurons plasmatic membranes after complex stress exposure. 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 delay in time effects of peptides on receptor‐binding activity of well‐known neuroreceptor systems.
ISSN:0362-4803
1099-1344
DOI:10.1002/jlcr.3785