Maria Sokołowska, Ewa Niedzielska, Małgorzata Iciek, Anna Bilska, Elżbieta Lorenc-Koci, Lidia Włodek
Department of Medical Biochemistry, Jagiellonian University, Kraków, Poland. mbsokolo@cyf-kr.edu.pl
Toxicology mechanisms and methods 2011 JulChronic renal failure (CRF) patients have an increased plasma level of urea, which can be a source of cyanate. This compound can cause protein carbamoylation thereby changing biological activity of proteins. Therefore, in renal failure patients, cyanate can disturb metabolism and functioning of the liver. This work presents studies demonstrating that the treatment of rats with cyanate alone causes the following changes in the liver: (1) inhibition of rhodanese (TST), cystathionase (CST) and 3-mercaptopyruvate sulfotransferase (MPST) activities, (2) decrease in sulfane sulfur level (S*), (3) lowering of nonprotein sulfhydryl groups (NPSH) group level, and (4) enhancement of prooxidant processes (rise in reactive oxygen species (ROS) and malondialdehyde (MDA) level). This indicates that cyanate inhibits anaerobic cysteine metabolism and shows prooxidant action in the liver. Out of the above-mentioned changes, lipoate administered with cyanate jointly was able to correct MDA, ROS and NPSH levels, and TST activity. It had no significant effect on MPST and CST activities. It indicates that lipoate can prevent prooxidant cyanate action and cyanate-induced TST inhibition. These observations can be promising for CRF patients since lipoate can play a dual role in these patients as an efficient antioxidant defense and a protection against cyanate and cyanide toxicity.
Maria Sokołowska, Ewa Niedzielska, Małgorzata Iciek, Anna Bilska, Elżbieta Lorenc-Koci, Lidia Włodek. The effect of the uremic toxin cyanate (CNO⁻) on anaerobic cysteine metabolism and oxidative processes in the rat liver: a protective effect of lipoate. Toxicology mechanisms and methods. 2011 Jul;21(6):473-8
PMID: 21417628
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