Timur Kolomin

Comparison of the Temporary Dynamics of NGF and BDNF Gene Expression in Rat Hippocampus, Frontal Cortex, and Retina Under Semax Action

Neurotrophins are a family of structurally related proteins that regulate the survival, differentiation, and maintenance of function of different neuron populations. Some peptides are able to affect the production and activity of neurotrophins. One of these synthetic peptides is heptapeptide Semax, an analog of the N-terminal adrenocorticotropic hormone fragment 4-10. It is known that Semax has effects on learning and memory formation and exerts some neuroprotective effects in rodents and humans. Male Wistar rats were treated for 20xa0min, 40xa0min, 90xa0min, 3xa0h, 8xa0h, and 24xa0h with Semax. Nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF) gene expression in rat brain and retina was analyzed by real-time polymerase chain reaction. It was revealed that after Semax administration the multidirectional activation of the expression of the genes under investigation in the hippocampus, frontal cortex, and retina was observed. The expression of both neurotrophin genes was decreased in rat hippocampus and retina 20xa0min after Semax administration and was increased in the frontal cortex. The expression levels of NGF remained practically constant in the retina at the initial stage, whereas the expression levels of BDNF were significantly increased 90xa0min after Semax administration.

Expression of inflammation-related genes in mouse spleen under tuftsin analog Selank

Previous studies have shown that synthetic tuftsin analogue Selank causes a transcriptomic response in the rat hippocampus and in spleen cells and may participate in the regulation of inflammatory processes in the body. In this work we studied the effect of Selank and two of its fragments on the expression of genes involved in processes of inflammation. We analyzed the expression of 84 genes involved in processes of inflammation (e.g., chemokines, cytokines, and its receptors) in mouse spleen 6 and 24 h after Selank single intraperitoneal injection (100 μg/kg) using real-time PCR method. We found significant changes in the expression of 34 genes involved in inflammation processes. The detailed analysis of quantitative data showed that the Bcl6 gene, which plays a main role in the formation and development of the immune system, exhibited significant changes in its expression levels in response to injection of each of the peptides. Also, we observed expression changes for Bcl6 target and corepressor genes under the influence of Selank and its fragments. Our results showed that Selank and its fragments caused a number of alterations in the expression of genes involved in inflammation. The data obtained confirmed the participation of Selank in the processes of regulation of inflammation in the body. The complex biological effect of Selank may be partially determined by the systematic effect of this peptide on genomic expression.

The temporary dynamics of inflammation-related genes expression under tuftsin analog Selank action.

Previous studies have shown that synthetic tuftsin analogue Selank and its fragments cause a number of alterations in the expression of certain genes involved in inflammation in mouse spleen. In this work we studied the effect of Selank and its short fragment Gly-Pro on the temporary dynamics of C3, Casp1, Il2rg, and Xcr1 genes expression in mouse spleen after single intraperitoneal injection (100 μg/kg) of peptides using real-time PCR method. We found a significant 3-fold decrease in the C3 mRNA level just 30 min after Selank injection and similar alteration this gene mRNA level after Gly-Pro administration. A wave-like alteration in the Casp1 mRNA level was observed after Selank injection. We found a significant alteration in the mRNA level of the Il2rg gene at early time points after Selank and Gly-Pro administration and an almost equal reduction in the Xcr1 mRNA level 90 min after the administration of Selank and its fragment. Our results showed that, Selank and its short fragment Gly-Pro influence the expression of genes that mediate different types of immune responses, thereby maintaining the balance of the immune system. It should be noted that in most cases, there was a coincidence in the expression profiles of the studied genes after Selank and Gly-Pro administration. This might indicate an active contribution of the dipeptide to the final effect of Selank.

Selank Administration Affects the Expression of Some Genes Involved in GABAergic Neurotransmission.

Clinical studies have shown the similarity of the spectrum of physiological effects of Selank and classical benzodiazepines, such as diazepam and phenazepam. These data suggest that there is a similar basis of their mechanism of action. To test this hypothesis we studied the effect of Selank and GABA on the expression of genes involved in neurotransmission. We analyzed the expression of 84 genes involved in neurotransmission (e.g., major subunit of the GABA receptor, transporters, ion channels, dopamine, and serotonin receptors) in the frontal cortex of rats 1 and 3 h after the administration of Selank or GABA (300 μg/kg) using real-time PCR method. We found significant changes in the expression of 45 genes 1 h after the administration of the compounds. Three hours after Selank or GABA administration, 22 genes changed their expression. We found positive correlation between the changes in genes expression within 1 h after administration of Selank or GABA. Our results showed that Selank caused a number of alterations in the expression of genes involved in neurotransmission. The data obtained indicate that Selank is characterized by its complex effects on nerve cells, and one of its possible molecular mechanisms is associated with allosteric modulation of the GABAergic system.

Changes in expression of the genes for chemokines, cytokines, and their receptors in response to selank and its fragments

A study of the immunomodulating effect of selank showed that both the total peptide and its fragment significantly change the expression of the genes for chemokines, cytokines, and their receptors in mouse spleen 6 and 24 h after single administration. Changes in the mRNA level of the majority of the genes under study were observed after the administration of Gly-Pro, which was earlier identified as a selank pharmacophore, a minimum fragment with anitiviral activity.

GABA, Selank, and Olanzapine Affect the Expression of Genes Involved in GABAergic Neurotransmission in IMR-32 Cells

Clinical studies have shown that Selank had an anxiolytic effect comparable to that of classical benzodiazepine drugs, which can enhance the inhibitory effect of GABA by allosteric modulation of GABAA receptors. These data suggest that the molecular mechanism of the effect of Selank may also be related to its ability to affect the performance of the GABAergic system. To test this hypothesis, we studied the changes in expression of 84 genes involved in the functioning of the GABAergic system and in the processes of neurotransmission in the culture of neuroblastoma IMR-32 cells using qPCR method. As test substances, in addition to Selank, we selected the major GABAA receptor ligand, GABA, the atypical antipsychotic, olanzapine, and combinations of these compounds (Selank and GABA; Selank and olanzapine). We found no changes in the mRNA levels of the genes studied under the effect of Selank. The combined effect of GABA and Selank led to nearly complete suppression of changes in expression of genes in which mRNA levels changed under the effect of GABA. When Selank was used in conjunction with olanzapine, the expression alterations of more genes were observed compared with olanzapine alone. The data obtained indicate that Selank has no direct effect on the mRNA levels of the GABAergic system genes in neuroblastoma IMR-32 cells. At the same time, our results partially confirm the hypothesis that the peptide may affect the interaction of GABA with GABAA receptors. Our data also suggest that Selank may enhance the effect of olanzapine on the expression of the genes studied.

Peptide Selank Enhances the Effect of Diazepam in Reducing Anxiety in Unpredictable Chronic Mild Stress Conditions in Rats

It was shown that the anxiolytic effect of Selank is comparable to that of classical benzodiazepine drugs and that the basis of their mechanism of action may be similar. These data suggest that the presence of Selank may change the action of classical benzodiazepine drugs. To test this hypothesis, we evaluated the anxiolytic activity of Selank and diazepam in rats both under conditions of unpredictable chronic mild stress and in its absence, after the individual and combined administration of these compounds using the elevated plus maze test. We found that, even in the absence of chronic stress, the administration of a course of test substances changed anxiety indicators toward their deterioration, but the changes after the administration of a course of Selank were less pronounced. In conditions of chronic stress, anxiety indicator values after the simultaneous use of diazepam and Selank did not differ from the respective values observed before chronic stress exposure. The data obtained indicate that the individual administration of Selank was the most effective in reducing elevated levels of anxiety, induced by the administration of a course of test substances, whereas the combination of diazepam with Selank was the most effective in reducing anxiety in unpredictable chronic mild stress conditions.

Developmental stage-specific expression of genes for sphingomyelin synthase in rat brain

Sphingomyelin synthase genes (Sgms1 and Sgms2) encode the vital enzymes that participate in the processes of membrane transport, cell proliferation and apoptosis. We previously determined the exon–intron structure of Sgms1 and some features of its expression in human and rodent tissues. The circular RNAs (circRNAs) emerging from exons of the 5′-untranslated region (5′-UTR) of Sgms1 were determined. These circRNAs are represented at a high level in the adult brain. Here, we demonstrate that, in contrast to Sgms1, Sgms2 does not contain the multi-exon 5′-UTR but encodes circRNAs, which are composed of the coding region of the gene and are expressed at a low level. We present a study of the expression of sphingomyelin synthase genes in rat brain at embryonic days 7, 9, 13, 17 and 21 and in adult rat brain. In contrast to Sgms1, Sgms2 is expressed at a significantly low level in adult brain. In embryonic rat brain, the mRNA expression of sphingomyelin synthase genes is varied in a developmental stage-specific manner. The level of Sgms1 mRNAs, differing by 5′-UTR—in the formation of which alternative promoters can participate—changes significantly during the process of embryonic development. The expression of circRNAs of Sgms1 was significantly raised during rat embryonic brain development. We assume that the circRNAs are involved in the regulation of sphingomyelin synthase activity in rat brain in different developmental stages.

Changes in the Transcription Profile of the Hippocampus in Response to Administration of the Tuftsin Analog Selank

We describe here our studies of the effects of single doses and courses of the synthetic tuftsin analog Selank (a peptide with the sequence Thr-Lys-Pro-Arg-Pro-Gly-Pro) at a dose of 200 μg/kg on the transcription profile of rat hippocampal cells using a cDNA microarray method. Single doses of Selank produced more than two-fold changes in the mRNA levels of 36 genes, while courses were followed by changes in 20 genes. Most of these genes encoded proteins associated with the plasma membrane (including transmembrane proteins), suggesting that Selank is able to regulate ion homeostasis of hippocampal cells, thus modulating the levels of various ion-dependent processes at the molecular genetic level, these including learning and memory formation processes.