Neuropeptide Y (NPY) is a biologically active neuropeptide that is responsible for a large list of physiological processes. We propose a short modified fragment of NPY that should at least partially have a spectrum of biological activity of the original peptide. The compound was named nonapeptide NP9. The aim of our study was to investigate the ability of the modified fragment of NPY to influence spatial memory and learning. Materials and methods: the study was performed on 24 one-year-old random-bred female rats weight 220–250 g. The animals were divided into 3 groups of 8 rats each: treated with a solvent (0.9 % NaCl), a solution of peptide NP9 0.02 mg/kg and the drug “Semax” 0.1 mg/kg. All drugs were administered intranasally. The study of the effect of the peptide NP9 on spatial memory and learning ability was performed in the psychopharmacological test the Morris water maze. Navigation parameters were analyzed using Noldus EthoVision XT 14 video tracking software. The escape latency, the distance moved, the average velocity and the meander were recorded. An inter-quadrant analysis of rat behavior was also performed, for which the frequency of appearance and time spent in certain quadrants were recorded. Results: nonapeptide NP9 in the Morris water maze test demonstrated the ability to accelerate the time to find a hidden platform, reduce the distance traveled, meander, and optimize the search strategy. Conclusions: NP9 peptide has demonstrated the ability to positively influence learning and spatial memory. The improvement in cognitive performance of animals administered with the peptide NP9 was no less than that of the reference nootropic drug Semax. These results substantiate the feasibility of further research with the aim of pharmaceutical development of a new nootropic drug
Aim. The research provides a comparative analysis of the possible anticonvulsant action of different cardiac glycosides, namely: digoxin, lanatoside C, strophanthin G and corglycone. In addition, it detrmines the leading medication among the abovementioned ones by dose-dependence of its anticonvulsant action. Material and Methods. The research was performed on 66 random-bred albino male mice. The anticonvulsant effect of cardiac glycosides was studied in a baseline model of pentylenetetrazole-induced seizures. The first series of experiment evaluated the effect of cardiac glycosides on the course of model seizures in comparable doses of approximately 1/10 LD50 for the corresponding drug: digoxin, lanatoside C and strophanthin G - at a dose of 0.8 mg/kg; corglycone - at a dose of 1 mg/kg. The second series of experiments used the drug-leader, which was digoxin, in a wide dose range from 0.2 to 1.6 mg/kg. Digoxin, strophanthin G and corglycone were administered subcutaneously for 15 minutes, lanatoside C - intragastrically for 30 minutes before the induction of experimental seizures. Convulsive agent - pentylenetetrazole in the form of an aqueous solution was administered to animals subcutaneously at a dose of 80 mg/kg. Results and Discussion. Digoxin at a dose of 0.8 mg/kg under conditions of pentylenetetrazole-induced seizures shows a pronounced anticonvulsant activity: it is the only one among the studied cardiac glycosides that probably reduces lethality. In addition, digoxin prolongs the latency period of the first attacks, and reduces the number of clonic-tonic paroxysms in 1 mouse. Moderate anticonvulsant properties of lanatoside C were found both by a statistically significant decrease in the number of clonic-tonic seizures in 1 mouse, and by a significant reduction in the duration of the convulsive period. Although strophanthin G is unlikely to affect lethality, it moderately reduces the severity of pentylenetetrazole-induced seizures in mice, as evidenced by a statistically significant prolongation of the latency period of the first seizures, as well as a decrease in the number of clonic-tonic seizures in 1 mouse and the duration of seizures. Prophylactic administration of corglycone only prolongs the latency period of seizures and significantly reduces the number of clonic-tonic seizures in 1 mouse. The results of the dose-dependence study of digoxin anticonvulsant action show a clear anticonvulsant potential of this cardiac glycoside in a wide range of doses - from 0.2 to 1.6 mg/kg - with a maximum effect at a dose of 0.8 mg/kg. Conclusions. It was found that cardiac glycosides have a different severity of anticonvulsant effect: the most powerful anticonvulsant effect is due to digoxin, lanatoside C and strophanthin G have moderate properties, and the least pronounced effect is characteristic to corglycone. In addition, it was determined that digoxin exhibits anticonvulsant properties in a wide range of doses, and has the most pronounced anticonvulsant effect at a dose of 0.8 mg/kg. The obtained results substantiate the expediency of further in-depth study of digoxin as an anticonvulsant medicine.
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