Effect of delta sleep-inducing peptide on the expression of antioxidant enzyme genes in the brain and blood of rats during physiological aging.

Subcutaneous injections of exogenous delta sleep-inducing peptide in a dose of 100 µg/kg (monthly, 5-day courses) to rats of various age groups (2-24 months) were followed by an increase in the expression of genes for SOD 1 (Sod1) and glutathione peroxidase 1 (Gpx1) in the brain and nucleated blood cells. The expression of these genes was shown to decrease during physiological aging of the body.

[Rat tissues antioxidant status correction by peptide delta sleep during physiological aging of the organism].

It is shown that exogenous delta-sleep inducing peptide increases glutathione antioxidant system level in rat tissues at different stages of ontogenesis, by subcutaneous injection to rats 2-24 months postnatal development in a dose of 100 mg/kg animal body weight by courses of 5 consecutive days per month, and this effect is especially marked in non-renewable postmitotic tissues.

[Influence of delta-sleep inducing peptide on the state of lysosomal membranes and intensity of lysosomal proteolysis in different rat tissues during physiological aging of the organism].

It is shown that subcutaneous injection of exogenous delta-sleep inducing peptide (DSIP) to rats aged 2-24 months in a dose of 100 µg/kg animal body weight by courses of 5 consecutive days per month has a stabilizing effect on the state of lysosomal membranes in rat tissues (brain, heart muscle and liver) at different ontogenetic stages, and this effect is accompanied by increasing intensity of lysosomal proteolysis in these tissues.

[Antioxidative and detoxifying effects of analogues of delta-sleep inducing peptide (DSIP)].

16 DSIP analogues with substitutions of 1-2 amino acid residues were synthesized in order to investigate their potential use in medicine. Antioxidative properties of these peptides were studied in vitro and their detoxifying activity was examined in vivo on a model of toxicosis that was induced by the cisplatin cytostatic, which has been widely used in the cancer treatment. Practically all the studied DSIP analogues were shown to exhibit considerable direct antioxidative activity (AOA), and that of the ID-6 analogue was higher than AOA of DSIP and comparable with AOA of vitamin C and ß-carotine. This analogue also demonstrated the most pronounced detoxifying effect towards cisplatin action, resulting in a decrease in the animal death from the acute cisplatin toxicity to 17% (in comparison with 50-67% for the control animals) and restoration of a number of cisplatin-sensitive biochemical blood parameters: decrease in the activity of aspartate aminotransferase and alanine aminotransferase and downregulation of the concentration of the final products of nitrogen exchange (creatinine and urea). Thus, the DSIP-relative peptides could be promising agents for the decrease in the toxic effects of cytostatics that are used in oncology.

[Influence of delta-sleep peptide on the enzymes activity of mitochondrial electron transport chain in various rat tissues during aging of the organism].

It is shown that subcutaneous injection of exogenous delta-sleep inducing peptide (DSIP) to rats aged 2-24 months in a dose of 100 µg/kg animal body weight by courses of 5 consecutive days per month has a stabilizing effect on the NADH-dehydrogenase activity in the mitochondrial fractions of various tissues, which together with increasing capacity of the antioxidant system should reduce the production of free radicals and their adverse action on cells macromolecule, herewith the activity of succinate dehydrogenase did not change.

[Metabolic effects of delta-sleep inducing peptide during physiological aging of the organism].

Subcutaneous injection of delta-sleep inducing peptide (DSIP) to postnatal rats (aged from 2 to 24 months) during 5 consecutive days every months at a dose of 10 microg/100 g body weight favors normalization of the age-related changes in carbohydrate metabolism and shows hypoglycemic effect, as manifested by a decrease in the level of glycosylated hemoglobin in erythrocytes of test rats. The administration of DSIP in postnatal rats of different age also led to a decrease in serum total lipid level, total cholesterol level, and atherogenicity index and an increase in the level of high-density lipoprotein cholesterol.

[Olygopeptide KND as a putative endogenous prototype of delta sleep inducing peptide (DSIP). Comparative study of biological properties].

We have undertaken a comparative study on physiological activity of well known neuropeptide DSIP (WAGGDASG E) and new closely related peptide KND (WKGGNASGE) in vivo assays. The sequence of K2, N5-DSIP (KND) was found recently by the computer search for DSIP homologous sequences in available nucleotide and protein databases at 324-332 site of Lysine-specific demethylase 3 B (EC 1.14.11, Swiss-Prot: Q7LBC6.1, 1-1761aa). This human lysine-specific histone demethylase is a representative of the recently discovered family of so called JmjC-domain-containing histone demethylases encoded by JMJD1B gene and ubiquitously expressed in tissues of various mammalian species. Biological investigations performed in this work confirm our preliminary data that DSIP-related peptide KND exhibits the similar biological properties in comparison with DSIP. Assessed by us antioxidative, anticonvulsive and behavioral effects of KND were even more expressed than in DSIP case. These results provide the additional evidences to support our suggestion that KND can be a possible endogenous prototype of "real" DSIP.

[IL-2-receptor associated action of the modified peptide fragments of human IL-2 on macrophages].

Synthetic peptides corresponding to the 59-72 (I), 60-72 (II) and 61-72 (III) sequences of human interleukin 2 with their N(alpha) acetylated and C(alpha) methylated termini were shown to exhibit pronounced hepatoprotective properties. These peptides neutralized hepatotoxic effects of such agents as tetrachloromethane and galactosamine in experiments in vivo. The peptide action revealed as normalization of duration of the thiopental narcosis of experimental animals and the level of hepatospecific enzymes in their blood. The effects of peptides (I)-(III) proved to be similar to that of prednisolone (the well-known anti-inflammatory agent), whereas the bestatine cytotoxic dipeptide had no hepatoprotecting effect. The target of the hepatoprotective activity of the peptides was shown to be the preliminary activated macrophages. We proposed that this activity of the peptides was associated with their interaction with the a-subunit of the interleukin 2 receptor (IL-2Ralpha), because the X-Ray analysis pointed to this region as one of binding sites of IL-2 with IL-2Ralpha. Experiments on the influence of the most active (59-72)-peptide on growth of the IL-2 dependent cell line (CTLL) confirmed this proposal. The 3H-labeled peptide corresponding to the 59-72 sequence ofthe human IL-2 was shown to bind to the CTLL cels. We assumed that the binding of this peptide was specific and occurred precisely with IL-2Ra and virtually determined the binding constant. Its value (1.41 x 10(-6) M) was comparable with that of the interaction of IL-2 with IL-2Ralpha (approximately 10(-7) M).

Effect of delta sleep-inducing peptide on oxidative modification of proteins in rat tissues and blood during physiological aging.

Accumulation of oxidized proteins (evaluated by the levels of carbonyl and SH groups) in tissues of 2-24-month-old rats (spleen>myocardium>testicles>liver>skeletal muscles) has been demonstrated. Exogenous delta sleep-inducing peptide injected subcutaneously to rats of different age in a dose of 100 µg/kg by monthly 5-day courses protected proteins of the studied tissues from oxidation; its effect was tissue-specific. Delta sleep-inducing peptide exhibited a hypoglycemic effect: it prevented nonenzymatic glycosylation of hemoglobin and reduced the level of defective protein molecules during aging.

[Effect of delta-sleep inducing peptide on the functional activity of some organs and tissues of rats during physiological aging].

The authors show that exogenous delta-sleep inducing peptide (DSIP) injected subcutaneously to the rats in the age of 2-24 months of postnatal development in a dose of 100 mg/kg of animal body weight in courses for 5 consecutive days every month, has a hepatoprotective effect. DSIP does not affect the functional activity of the pancreas, and is not involved in the regulation of calcium homeostasis in the physiological aging of the organism.

[Mechanism of delta-sleep inducing peptide geroprotective activity].

It is shown that the subcutaneous injection to the rats in the age from 2 to 24 months during 5 consecutive days every month with 10 microg/100 g body weight of delta-sleep inducing peptide (DSIP) suppresses lipid peroxidation preventing the increasing of malonic dialdehyde level in rats tissues and plasma, possesses a powerful antioxidant effect, which is realized by means of the activation of different endogenous antioxidant defense system of cell and extracellular fluid, including high- and low-molecular regulators of free radical processes. DSIP exerts stimulating influence upon the superoxid-dismutese, catalase, ceruloplasmin activities as well as the level of nonenzymatic antioxidants--urea and uric acids, because during organism aging the antioxidant defense systems are being suppressed. DSIP increases the volume of tissues and blood endogenous antioxidant defense system mainly by means of enzymatic antioxidant system, especially during later ontogenesis.

Effect of delta-sleep-inducing peptide on expression of heat shock protein 70 kDa in K562 cells.

For evaluation of the stress-protective influence of delta-sleep inducing peptide we studied its effects on the system of heat-shock proteins in immune cells using the method of flow cytometry. The peptide affected the expression of heat-shock protein 70 kDa in cultured human myeloleukemia K562 cells. Delta-sleep-inducing peptide reduces accumulation of intracellular heat shock proteins 70 kDa in cells cultured under conditions of high density.

[Effect of delta-sleep inducing peptide preparation Deltaran on longevity, physiological functions, and carcinogenesis in mice].

Female SHR mice received 5-days long monthly courses of delta-sleep inducing peptide (DSIP) preparation "Deltaran" subcutaneously in dose 5 mkg/kg during all their lives. It was demonstrated, that last 10% (most aged) of mice which received Deltaran lived for 16% longer than the controls. They had significantly higher amount of vertical activity in the "open field" test, than the controls, starting from time when they were 6 months old and until their natural death. Mice of Deltaran group spent 73% more time in the open arms of elevated plus maze, and 9 times more often explored the extremities of this maze, than controls. Also Deltaran slowed the spontaneous carcinogenesis parameters. It's assumed that DSIP preparation "Deltaran" have geroprotective, anxiolytic and antitumor activity.

[Selective inhibitors of plasmepsin II from Plasmodium falciparum based on pepstatin].

A number of new inhibitors of plasmepsin II (PlmII) from Plasmodium falciparum, one of the key factors of malarial parasite survival, were synthesized. The inhibitors are analogues of pepstatin with various variants of Ala residue substitutions. Effects of the inhibitors on human PlmII and cathepsin D were studied. Inhibition of PlmII by the substrate was found, which required the use of the modified Henderson method for the determination of inhibition constants. Two synthesized inhibitors were shown to exhibit a pronounced selectivity to PlmII (K(i) = 5.5 and 5 nM) in comparison with cathepsin D (K(i) = 230 and 3000 nM, respectively).

Delta sleep-inducing peptide and Deltaran: potential approaches to antistress protection.

The aims of the present work were to perform a comparative study of the effects of delta sleep-inducing peptide and Deltaran on neurons in emotiogenic brain structures and to address the question of whether it is possible to prevent or decrease the negative influences of stress loads on the severity of subsequent cerebral ischemia in rats, using glycine with delta sleep-inducing peptide combined in the neuroprotective formulation Deltaran. The results showed that Deltaran and delta sleep-inducing peptide had largely the same actions on the nature of spike activity of neurons in the dorsal hippocampus, paraventricular nucleus of the hypothalamus, and ventral anterior nuclei of the thalamus, evoking activation of some of the neurons in these brain structures. The dorsal hippocampus was dominated by activation of spike activity in response to administration of delta sleep-inducing peptide; Deltaran produced activation mainly in the paraventricular nuclei of the hypothalamus. In all animals given Deltaran, the index of brain blood supply was significantly greater than in animals not given Deltaran. The survival rate of cerebral ischemia was 100% in animals given Deltaran. Death occurred in 38% of animals not given Deltaran.

[Delta-sleep inducing peptide and the drug deltaran: possible approaches to antistress protection].

An aim of the present study was a comparative investigation of a delta-sleep inducing peptide and the drug deltaran on the neural activity of the brain structures involved in emotional processing. Another goal was to analyze the possibility to prevent negative effects of emotional stress on brain ischemia using, along with deltaran, glycine and a delta-sleep inducing peptide. Deltaran and the delta-sleep inducing peptide exert in general similar effect on the burst activity of neurons in the dorsal hippocampus, hypothalamic paraventricular nucleus and ventral anterior thalamic nucleus, inducing amplification of the majority of recorded units. The activation of neuronal activity was seen mostly after the delta-sleep inducing peptide microiontophoresis in the dorsal hippocampus and after the deltaran application in the hypothalamic paraventricular nuclei. The index characterizing blood supply was significantly higher in all rats receiving deltaran as compared to the controls. Animals receiving deltaran survived experimental brain ischemia in 100% cases versus 38% in those not exposed to this drug.

Effect of delta sleep-inducing peptide on macromolecule biosynthesis in brain tissue of stressed rodents.

For evaluation of the nature of adaptogenic properties of delta sleep-inducing peptide we studied the effect of this substance on macromolecule biosynthesis in the brain of rats and mice exposed to burn injury and psychoemotional stress, respectively. Anabolic activity of delta sleep-inducing peptide depended on the purpose of adaptation corresponding to the type of stress.

[Interaction of delta sleep-inducing peptide and its analogues with cellular membranes: a structure-function analysis].

The possibility of a correlation between the membrane properties of the delta sleep-inducing peptide (DSIP) and its analogues and their biological activity in vivo was examined by a comparative study of the membrane effects of these peptides. The peptides exhibiting biological activity in vivo were shown to cause a statistically reliable disordering of lipids in thrombocyte plasma membranes similar to the effect of DSIP. The membrane effect of the D-Val2, D-Tyr2, and Tyr1, Pro2 analogues of DSIP had the same bimodal dose dependence characteristic of natural DSIP. Only a slight nonspecific lipid disordering was registered for Trp-Asp-Ala-Ser-Gly-Glu, a biologically inactive hexapeptide analogue. These results indicate a correlation between the biological activity of the peptides during in vivo tests and their membrane properties in vitro. The structure-function relationship was studied within the group of DSIP analogues examined in vitro. The DSIP modeling effect, especially pronounced under the action of stress factors, was suggested to be directly associated with the ability of DSIP to change the dynamic structure of biological membranes.

[Effect of delta-sleep-inducing peptide on trypsin and pronase E activities in a model experiment]. / Vliianie del'ta-son indutsiruiushchego peptida na aktivnost' tripsina i pronazy E v model'nykh opytakh.

A delta-sleep-inducing peptide in various concentrations inhibits the pharmacological activity of trypsin and pronase E under experimental conditions.