[Isolation of expressed in E. coli human interferon beta1b (Ser17) by ion-exchange chromatography].

A method for isolation of interferon beta1b (Serl7) from inclusion bodies, comprising the steps of solution and reduction of protein from the inclusion bodies, refolding, chromatography on DEAE-Sepharose, chromatography on SP-Sepharose, concentrating, desalting and addition of stabilizers. The solution of reduced protein was diluted with pH 8.0 buffer of 50 mM Tris-HCl, 25 microM CuCl2 and 0.5% Twin 20 for refolding. We used gradient of pH (from 9.3 upto 11.3) for elution of interferon-beta from cation-exchange column. We concentrated of eluate and then desalted on the Sephadex G-50 column with 1 mM NaOH. Then the protein solution was neutralized with mannitol and Na-phosphate. Obtained preparation of interferon-beta was pure by gel-electrophoresis and by HPLC analysis, and had practically indentical level of antiproliferative activity with well-known preparation of Betaferone. Thus we show the possibility of isolation and obtaining of pure and active interferone-beta by ion-exchange chromatography in the presence of non-ion detergent Twin 20. We believe this method for interferon betalb preparation is perspective for scaling and using in the develop of industrial technology for production of this preparation.

[Nanocomplexes of recombinant proteins and polysialic acid: preparation, characteristics, and biological activity].

A preparation of nanocomplexes containing recombinant proteins (interferons alpha2b and beta1b, insulin, and human granulocyte colony stimulating factor) and natural polysialic acid (PSA) has been described. The incorporation of protein into the complex changes its electrophoretic mobility. Atomic force microscopy reveals the average size of 23-kD insulin complexes with PSA of 10-20 nm and demonstrates that more than 60% of glycopolymer molecules carry a single protein molecule. Experiments with cultured cells show that cytokines bound to polysialic acid retain their ability to regulate cell proliferation. Insulin bound to PSA has a prolonged hypoglycemic effect in vivo.

[Modification of recombinant proteins by covalent polysialation illustrated with the example of human insulin].

Methods of selective and nonselective covalent immobilization of genetically engineered proteins on molecules of natural polysialic acid are described by the example of human insulin. Such modification increases insulin lifetime in vivo.

[New aspects of biosynthesis and metabolism of N-acyldopamines in rat tissues].

Possible biosynthetic pathways of N-acyldopamines in rat tissues were compared. It was shown that an insignificant amount of the conjugation products was formed during the incubation of arachidonic acid and dopamine, whereas the substitution of tyrosine for dopamine resulted in the productive biosynthesis of N-arachidonoyldopamine. The biosynthesis presumably involves several closely conjugated enzymatic stages, and free fatty acids rather than their CoA esters served as the starting substrates. The decarboxylation stage probably precedes the stage of catechol system formation, because N-acetyltyramine (a probable intermediate) was easily oxidized by monophenol monooxygenase to N-acyldopamine, whereas N-acyltyrosine is hydrolyzed under these conditions. Biosynthesis of N-acyldopamines in a cell-free medium was accompanied by their methylation. The possibility of oxidative metabolism of N-acyldopamines, which could serve as co-substrates or inhibitors of different oxidoreductases, was shown for the first time.

[Arachidonoyl amino acids and arachidonoyl peptides: synthesis and properties].

N-Arachidonoyl (AA) derivatives of amino acids (glycine, phenylalanine, proline, valine, gamma-amino butyric acid (GABA), dihydroxyphenylalanine, tyrosine, tryptophan, and alanine) and peptides (Semax, MEHFPGP, and PGP) were synthesized in order to study the biological properties of acylamino acids. The mass spectra of all the compounds at atmospheric pressure electrospray ionization display the most intense peaks of protonated molecular ions; the detection limits for these compounds are 10 fmol per sample. AA-Gly showed the highest inhibitory activity toward fatty acid amide hydrolase from rat brain (IC50 6.5 microM) among all the acylamino acids studied. AA-Phe, AA-Tyr, and AA-GABA exhibited a weak but detectable inhibitory effect (IC50 55, 60, and 50 microM, respectively). The acylated amino acids themselves, except for AA-Gly, were stable to the hydrolysis by this enzyme. All the arachidonoylamino acids inhibited cabbage phospholipase D to various degrees; AA-GABA and AA-Phe proved to be the most active (IC50 20 and 27 microM, respectively). Attempts to detect the biosynthesis of AA-Tyr in homogenates of rat liver and nerve tissue showed no formation in vitro of either this acylamino acid or AA-dopamine and AA-Phe, the products of its metabolism. The highest contents of these metabolites were detected in liver homogenate and in the brain homogenate, respectively. Acylamino acids exert no cytotoxic effect toward the glioma C6 cells. It was shown that N-acylation of Semax with arachidonic acid results in enhancement of its hydrolytic stability and increases its affinity for the sites of specific binding in rat cerebellum membranes. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2006, vol. 32, no. 3; see also http://www.maik.ru.

[Effect of dopamineamides of polyunsaturated fatty acids on blood coagulation system and cerebral circulation]. / Vliianie dofaminamidov polinenasyshchennykh zhirnykh kislot na svertyvaiushchuiu sistemu krovi i mozgovoe krovoobrashchenie.

A series of original dopaminamides of polyunsaturated fatty acids were synthesized and characterized with respect to antiaggregant and cerebrovascular stimulant properties. It was established that dopaminamides of linolic, dimethyllinolic, docosapentaenoic, docosahexaenoic (DHEA) and stearidonic (C18:4 and C18:3) acids decrease ADP and arachidonic acid (AA) induced human thrombocyte aggregation in vitro. The most pronounced antiaggregant effect was observed for DHEA dopaminamide: in a dose of 10 mg/kg, this agent produced a significant decrease in the AA induced thrombocyte aggregation. DHEA per se in the same dose increases the activated partial thromboplastin time (APTT), while not affecting the prothrombin time. The synthesized dopaminamides of arachidonic, eicosapentaenoic, and docosahexaenoic acids stimulate local circulation in the cerebral cortex. The most pronounced cerebrovascular effect was also produced by DHEA dopaminamide.

[Artificially functionalized polyenoic fatty acids--a new lipid bioregulators]. / Iskusstvenno funktsionalizirovannye polienovye zhirnye kisloty-- novye lipidnye bioreguliatory.

Dopamine, histamine, serotonin, and serotonin analogs were acylated with arachidonic and eicosapentaenoic acids, and the reaction products were named as artificially functionalized fatty acids (AFFA). The amides of arachidonic acid with serotonin, dopamine, and histamine were found to inhibit human platelet aggregation induced by ADP, arachidonic acid and adrenaline. Amides of arachidonic and eicosapentaeonic acids with serotonin and dopamine protect sea urchin early embryos against cytotoxic action of serotonin and histamine antagonists. These effects are not connected with the possible hydrolytic cleavage of AFFA to their constituent polyenoic fatty acids and amines. Arachidonic acid dopaminamide was shown to be a substrate of soybean 15-lipoxygenase, whereas the arachidonic acid amides with serotonin and its derivatives were resistant to this enzyme. Moreover, arachidonic acid serotoninamide turned out to be an irreversible lipoxygenase inhibitor. Considerable amount of hydroxyl radicals (fluorescent assay) were found for the first time to accompany lipoxygenase oxidation of linoleic acid; arachidonic acid serotoninamide blocked this process completely. Therefore, it was concluded that AFFA possess specific biological activity and can be considered as a novel group of lipid bioregulators.