Tag Archives: renal failure
Indoleamine 2,3-dioxygenase level and oxidative stress parameters in the serum of patients with chronic renal failure
F. M. Y. Saeed, R. F. Jasim*
College of Education for Girls, Department of Chemistry, University of Mosul, Iraq;
*e-mail: ra.fadhel@uomosul.edu.iq
Received: 13 April 2023; Revised: 02 June 2023;
Accepted: 07 September 2023; Available on-line: 12 September 2023
Indoleamine 2,3-dioxygenase (IDO) is a tryptophan-degrading enzyme belonging to the kynurenine pathway. IDO activity has been suggested as a biomarker for diagnosis of chronic kidney disease. The aim of the study was to estimate the level of IDO, urea, creatinine, uric acid, phosphate, calcium, albumin, MDA, GSH, and activity of peroxidase, catalase, arylesterase in the serum of chronic renal failure (CRF) patients treated with dialysis compared to the healthy control group. The results showed a significant increment in IDO level in patients compared with the control. Linear regression analysis using the Pearson correlation coefficient showed that increased IDO level correlates positively with urea, creatinine, uric acid, phosphate, MDA level and peroxidase activity whereas negatively with albumin, calcium, glutathione level, catalase activity and glomerular filtration rate. We concluded that IDO level might be a possible marker of oxidative stress and inflammation in patients with CRF.
Rhabdomyolysis attenuates activity of semicarbazide sensitive amine oxidase as the marker of nephropathy in diabetic rats
O. Hudkova*, I. Krysiuk, L. Drobot, N. Latyshko
Department of Cell Signaling, Palladin Institute of Biochemistry, National Academy of Sciences of Ukraine, Kyiv;
*e-mail: ogudkova@biohem.kiev.ua
Received: 22 December 2021; Accepted: 21 January 2022
Amine oxidases are involved in the progression of many diseases and their complications, including renal failure, due to the generation of the three toxic metabolites (H2O2, aldehydes, and ammonia) in the course of biogenic amines oxidative deamination. The participation of the first two products in kidney pathogenesis was confirmed, whereas the role of ammonia as a potential inducer of the nitrozative stress is not yet understood. The aim of the present study was to test how further intensification of oxidative stress would affect diabetes-mediated metabolic changes. For this purpose, a rat model of glycerol-induced rhabdomyolysis, as a source of powerful oxidative stress due to the release of labile Fe3+ from ruptured myocytes, on the background of streptozotocin-induced diabetes was used. The experimental animal groups were as follows: group 1 – ‘Control’, group 2 – ‘Diabetes’, group 3 – ‘Diabetes + rhabdomyolysis’. A multifold increase in semicarbazide sensitive amine oxidase (SSAO) activity in the kidney and blood, free radicals (FR), MetHb and 3-nitrotyrosine (3-NT) levels in the blood, as well as the emergence of HbNO in plasma and dinitrosyl iron complexes (DNICs) in the liver of animals in group 2 as compared to control were revealed. An additional increase in FR, HbNO levels in the blood, and DNICs in the liver of animals in the diabetes + rhabdomyolysis group as compared to the diabetes group, which correlated with the appearance of a large amount of Fe3+ in the blood of group 3 animals, was detected. Unexpectedly, we observed the positive regulatory effects in animals of the diabetes + rhabdomyolysis group, in particular, a decreased SSAO activity in the kidney and 3-NT level in plasma, as well as the normalization of activity of pro- and antioxidant enzymes in the blood and liver compared to animals of diabetes group. These consequences mediated by rhabdomyolysis may be the result of NO exclusion from the circulation due to the excessive formation of NO stable complexes in the blood and liver. The data obtained allow us to consider SSAO activity as a marker of renal failure in diabetes mellitus. In addition, we suggest a significant role of nitrosative stress in the development of pathology, and, therefore, recommend NO-traps in the complex treatment of diabetic complications.