Protein oxidative modification and cathepsin H activity in rats’ thymocytes at nitrogen oxide (II) synthesis modulation in vitro
- Authors: Abalenikhina Y.V1, Fomina MA1
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Affiliations:
- Ryazan State Medical University, Ryazan, Russia
- Issue: Vol 95, No 4 (2014)
- Pages: 553-557
- Section: Experimental medicine
- URL: https://bakhtiniada.ru/kazanmedj/article/view/1842
- DOI: https://doi.org/10.17816/KMJ1842
- ID: 1842
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Abstract
Aim. To study the influence of substrate for nitrogen oxide (II) synthesis - L-arginine - and non-selective NO-synthase inhibitor - N-nitro-L-arginine-methyl ester - on protein oxidative modification in combination with rats’ thymocytes cathepsin H activity estimation in vitro. Methods. The study was performed on male Wistar rats with body weight of 280-320 g. Freshly-separated thymocytes were incubated in vitro in the full nutrient medium containing 5 мМ of N-nitro-L-arginine-methyl ester (n=8) or 5 мМ of L-arginine for 24 hours at the temperature of 37 °C (n=8). Control group consisted of thymocytes incubated in the same conditions in the full nutrient medium (n=8) for 24 hours. Nitric oxide metabolites levels were measured by spectrophotometry in the visible spectrum using the reaction with Griess reagent. Cathepsin H activity was estimated by Barrett&Kirschke spectrofluorimetry. Protein oxidative modification was measured by R.L. Levine method in E.E. Dubinina modification followed by carbonyl derivatives absorption spectrum quantitative analysis. Results. In nitrogen oxide (II) synthesis deficiency model, protein oxidative modification degree increased, mainly due to basic and neutral aldehyde- and ketone-dinitrophenylhydrazones level increase. Those changes were accompanied by increased activity of cathepsin H. In nitrogen oxide (II) synthesis stimulation model, level of oxidative-modified proteins decreased, mainly due to lower levels of neutral amino acid derivatives, cathepsin H activity didn’t change. Conclusion. In vitro nonselective inhibitor of inducible NO-synthase - N-nitro-L-arginine-methyl ester - stimulates protein oxidative modification and increases activity of cathepsin Н; substrate of NO synthesis - L-arginine - showes antioxidant effect.
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##article.viewOnOriginalSite##About the authors
Yu V Abalenikhina
Ryazan State Medical University, Ryazan, Russia
Email: abalenihina88@mail.ru
M A Fomina
Ryazan State Medical University, Ryazan, Russia
References
- Дубинина Е.Е., Бурмистров О.С., Ходов Д.А., Поротов И.Г. Окислительная модификация белков сыворотки крови человека, метод её определения // Вопр. мед. химии. - 1995. - Т. 41, №1. - С. 24-26.
- Метельская В.А., Гуманов Н.Г. Скрининг-метод определения уровня метаболитов оксида азота в сыворотке крови // Клин. лаб. диагн. - 2005. - №6. - С. 15-18.
- Муравлёва Л.Е., Молотов-Лучанский В.Б., Клюев Д.А. и др. Окислительная модификация белков: проблемы и перспективы исследования // Фундамент. исслед. - 2010. - №1. - С. 74-78.
- Селиванов Е.А., Ремизова М.И., Гербут К.А. и др. Влияние динитрозильного комплекса железа с глютатионом на течение геморрагического шока при его инфузионной терапии // Мед. академ. ж. - 2012. - Т. 12, №2. - С. 84-89.
- Barrett A.J., Kirschke H. Cathepsin B, cathepsin H, cathepsin L //Methods in Enzymol. - 1981. - Vol. 80. - P. 535-561.
- Conus S. Cathepsins and their involvement in immune responses. - Swiss Medical Weekly, 2010. - P. 1-12.
- Grimm S., Höhn A., Grune T. Oxidative protein damage and the proteasome // Amino Acids. - 2012. - Vol. 42, N 1. - P. 23-38.
- Kim C.J., Lee D.I., Lee C.H., Ahn I.S. A dityrosine-based substrate for a protease assay: application for the selective assessment of papain and chymopapain activity // Anal. Chim. Acta. - 2012. - Vol. 20, N 723. - P. 101-107.
- Kumar S., Kumar M.S., Raja B. Efficacy of piperine, an alkaloidal constituent of pepper on nitric oxide, antioxidants and lipid peroxidation markers in L-NAME induced hypertensive rats // Int. J. Res. Pharm. Sci. - 2010. - Vol. 1, N 3. - P. 300-307.
- Radi R. Peroxynitrite, a stealthy biological oxidant // J. Biol. Chem. - 2013. - Vol. 288, N 37. - P. 26 464-26 472.
- Vittorio C., Cornelius С., Rizzarelli Е. et al. Nitric oxide in cell survival: a janus molecule // Antioxid. Redox Signal. - 2009. - Vol. 11, N 11. - P. 2717-2739.
- Wall S.B., Oh J.Y., Diers A.R., Landar A. Oxidative modification of proteins: an emerging mechanism of cell signaling // Front Physiol. - 2012. - Vol. 14, N 3. - P. 369.
- Wink D.A., Hines H.B., Cheng R.Y. et al. Nitric oxide and redox mechanisms in the immune response // J. Leukocyte Biol. - 2011. - Vol. 89. - P. 873-891.
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