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11.
Yu. A. Zolotarev A. K. Dadayan O. V. Dolotov V. S. Kozik N. V. Kost O. Yu. Sokolov E. M. Dorokhova V. K. Meshavkin L. S. Inozemtseva M. V. Gabaeva L. A. Andreeva L. Yu. Alfeeva T. S. Pavlov K. E. Badmaeva S. E. Badmaeva Z. V. Bakaeva G. N. Kopylova G. E. Samonina B. V. Vaskovsky I. A. Grivennikov A. A. Zozulya N. F. Myasoedov 《Russian Journal of Bioorganic Chemistry》2006,32(2):166-173
Biologically active peptides evenly labeled with tritium were used for studying the in vitro and in vivo biodegradation of the peptides. Tritium-labeled peptides with a specific radioactivity of 50–150 Ci/mmol were obtained by high temperature solid phase catalytic isotope exchange (HSCIE) with spillover tritium. The distribution of the isotope label among all amino acid residues of these peptides allows the simultaneous determination of practically all possible products of their enzymatic hydrolysis. The developed analytical method includes extraction of tritium-labeled peptides from organism tissues and chromatographic isolation of individual labeled peptides from the mixture of degradation products. The concentrations of a peptide under study and the products of its biodegradation were calculated from the results of liquid scintillation counting. This approach was used for studying the pathways of biodegradation of the heptapeptide TKPRPGP (Selank) and the tripeptide PGP in blood plasma. The pharmacokinetics of Selank, an anxiolytic peptide, was also studied in brain tissues using the intranasal in vivo administration of this peptide. The concentrations of labeled peptides were determined, and the pentapeptide TKPRP, tripeptide TKP, and dipeptides RP and GP were shown to be the major products of Selank biodegradation. The study of the biodegradation of the heptapeptide MEHFPGP (Semax) in the presence of nerve cells showed that the major products of its biodegradation are the pentapeptide HFPGP and tripeptide PGP. The enkephalinase activity of blood plasma was studied with the use of evenly tritium labeled [Leu]enkephalin. A high inhibitory effect of Semax on blood plasma enkephalinases was shown to arise from its action on aminopeptidases. The method, based on the use of evenly tritium-labeled peptides, allows the determination of peptide concentrations and the activity of enzymes involved in their degradation on a μg scale of biological samples both in vitro and in vivo. 相似文献
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N V Kost O Iu Sokolov M V Gabaeva I A Grivennikov L A Andreeva N F Miasoedov A A Zozulia 《Bioorganicheskaia khimiia》2001,27(3):180-183
A dose-dependent effect of synthetic heptapeptides Semax (Met-Glu-His-Phe-Pro-Gly-Pro) and Selank (Thr-Lys-Pro-Arg-Pro-Gly-Pro) on the enkephalin-degrading enzymes of human serum was demonstrated. The inhibitory effects of Semax (IC50 10 microM) and Selank (IC50 20 microM) are more pronounced than those of puromycin (IC50 10 mM), bacitracin, and some other inhibitors of peptidases. Beside the heptapeptides, their pentapeptide fragments also possessed an inhibitory effect; tri-, tetra-, and hexapeptide fragments did not display such an effect. As the above enzymes take part in degradation of not only enkephalins but also other regulatory peptides, it can be assumed that one of the mechanisms of biological activity of Semax and Selank is related to this inhibitory activity of theirs. 相似文献
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S. A. Antonov E. V. Novosadova E. L. Arsenyeva M. A. Grefenstein A. A. Zykova A. G. Kobylyansky E. S. Manuilova I. A. Grivennikov S. N. Illarioshkin N. F. Myasoedov 《Doklady biological sciences》2016,470(1):244-246
The influence of GABA receptor agonists on the terminal differentiation in vitro of dopaminergic (DA) neurons derived from IPS cells was investigated. GABA-A agonist muscimol induced transient elevation of intracellular Ca2+ level ([Ca2+]i) in the investigated cells at days 5 to 21 of differentiation. Differentiation of cells in the presence of muscimol reduced tyrosine hydroxylase expression. Thus, the presence of active GABA-A receptors, associated with phenotype determination via Ca2+-signalling was demonstrated in differentiating human DA neurons. 相似文献
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E. V. Novosadova E. S. Manuilova E. L. Arsenyeva I. A. Grivennikov N. F. Myasoedov 《Doklady. Biochemistry and biophysics》2016,470(1):353-356
Induced pluripotent stem cells (iPSCs) can be a highly informative model of hereditary and sporadic human diseases. In the future, such cells can be used in substitution and regenerative therapy of a wide range of diseases and for the treatment of injuries and burns. The ability of iPSCs derived from patients with Parkinson’s disease to differentiate into fibroblast-like cells (derivatives) was studied. It was found that these cells can serve as an effective feeder layer not only to maintain the pluripotency of allogenic and autologous iPSCs but also to derive new iPSC lines. 相似文献
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JNK1 in hematopoietically derived cells contributes to diet-induced inflammation and insulin resistance without affecting obesity 总被引:3,自引:0,他引:3
Solinas G Vilcu C Neels JG Bandyopadhyay GK Luo JL Naugler W Grivennikov S Wynshaw-Boris A Scadeng M Olefsky JM Karin M 《Cell metabolism》2007,6(5):386-397
Obesity-induced insulin resistance is a major factor in the etiology of type 2 diabetes, and Jun kinases (JNKs) are key negative regulators of insulin sensitivity in the obese state. Activation of JNKs (mainly JNK1) in insulin target cells results in phosphorylation of insulin receptor substrates (IRSs) at serine and threonine residues that inhibit insulin signaling. JNK1 activation is also required for accumulation of visceral fat. Here we used reciprocal adoptive transfer experiments to determine whether JNK1 in myeloid cells, such as macrophages, also contributes to insulin resistance and central adiposity. Our results show that deletion of Jnk1 in the nonhematopoietic compartment protects mice from high-fat diet (HFD)-induced insulin resistance, in part through decreased adiposity. By contrast, Jnk1 removal from hematopoietic cells has no effect on adiposity but confers protection against HFD-induced insulin resistance by decreasing obesity-induced inflammation. 相似文献
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Novel lymphotoxin alpha (LTalpha) knockout mice with unperturbed tumor necrosis factor expression: reassessing LTalpha biological functions 下载免费PDF全文
Liepinsh DJ Grivennikov SI Klarmann KD Lagarkova MA Drutskaya MS Lockett SJ Tessarollo L McAuliffe M Keller JR Kuprash DV Nedospasov SA 《Molecular and cellular biology》2006,26(11):4214-4225
Lymphotoxin alpha (LTalpha) can exist in soluble form and exert tumor necrosis factor (TNF)-like activity through TNF receptors. Based on the phenotypes of knockout (KO) mice, the physiological functions of LTalpha and TNF are considered partly redundant, in particular, in supporting the microarchitecture of the spleen and in host defense. We exploited Cre-LoxP technology to generate a novel neomycin resistance gene (neo) cassette-free LTalpha-deficient mouse strain (neo-free LTalpha KO [LTalphaDelta/Delta]). Unlike the "conventional" LTalpha-/- mice, new LTalphaDelta/Delta animals were capable of producing normal levels of systemic TNF upon lipopolysaccharide (LPS) challenge and were susceptible to LPS/D-galactosamine (D-GalN) toxicity. Activated neutrophils, monocytes, and macrophages from LTalphaDelta/Delta mice expressed TNF normally at both the mRNA and protein levels as opposed to conventional LTalpha KO mice, which showed substantial decreases in TNF. Additionally, the spleens of the neo-free LTalpha KO mice displayed several features resembling those of LTbeta KO mice rather than conventional LTalpha KO animals. The phenotype of the new LTalphaDelta/Delta mice indicates that LTalpha plays a smaller role in lymphoid organ maintenance than previously thought and has no direct role in the regulation of TNF expression. 相似文献
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Zolotarev YA Dolotov OV Inozemtseva LS Dadayan AK Dorokhova EM Andreeva LA Alfeeva LY Grivennikov IA Myasoedov NF 《Amino acids》2006,30(4):403-408
Summary. Here a new approach of the elucidation of paths of proteolytic biodegradation of physiologically active peptides, based on
the use of a peptide with isotopic label at all amino acid residues and the enrichment of HPLC samples with unlabeled peptide
fragments in UV-detectable concentration, has been proposed. The method has been applied for the investigation of degradation
dynamics of the neuroactive heptapeptide MEHFPGP (Semax) in the presence of plasma membranes, and cultures of glial and neuronal
cells obtained from the rat basal forebrain. The splitting away of ME and GP, and formation of pentapeptides are the predominant
processes in the presence of all tested objects, whereas the difference in patterns of resulting peptide products for glial
and neuronal cells has been detected. In conclusion, the approach applied allows analyzing physiologically active peptide
concentrations in biological tissues and degradation pathways of peptides in the presence of targets of their action. 相似文献
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