TY - JOUR ID - 32789 TI - Measurement of Renal Vitamin E for Assessment of Iron and Nitric Oxide Interaction in Rats JO - Journal of Kerman University of Medical Sciences JA - JKMU LA - en SN - 1023-9510 AU - Abbasnejad, M, AU - Gol, A AU - Shirpoor, A AU - Eskandari, M AD - Asistant Professor, Department of Biology, Shaheed Bahonar University, Kerman, Iran AD - Assistant Professor, Physiology Department AD - Instructor, Physiology Department Oroomia University of Medical Sciences, Oroomia, Iran Y1 - 2004 PY - 2004 VL - 10 IS - 1 SP - 7 EP - 13 KW - Iron KW - nitric oxide KW - Kidney KW - Vitamin E DO - N2 - Oxidative stress has been implicated as an important factor in induction of many disorders such as nephropathy and cancer. Iron by producing hydroxyl radical can cause this kind of stress. On the other hand nitric oxide (NO) when its concentration is high results in oxidative stress. Iron and NO have some interactions in each other function but there is no total agreement on this. For example in one study NO prevents and in another it worsens iron toxicity.The study aims at evaluating the interaction between NO and iron on renal oxidative stress. Renal vitamin E level was measured as an index of oxidative stress. Sixty-four male rats were divided into eight 8- rat groups as follows: 1-SHAM (normal saline), 2- Fe (iron dextran), 3- ARG (L-arginine precursor of NO synthesis), 4- Fe+ARG, 5- L-NAME (Blocker of NO production), 6- Fe+L-NAME, 7- DFO (Defferoxamine, shelator of iron), and 8- ARG+DFO. All injections were performed intraperitoneally. Twenty hours after injections, right kidneys were removed and their concentration of vitamin E was measured by high performance liquid chromatography. The results showed that in group Fe there was a reduction in vitamin E compared to group SHAM (P<0.05). In group Fe+L-NAME there was a further reduction in vitamin E compared to group SHAM (P<0.01). There was no significant difference between group SHAM with Fe+ARG. Group Fe+L-NAME also showed a significant decrease in vitamin E compared to group Fe+ARG (P<0.05). We conclude that NO can prevent iron induced oxidative stress and can act as an antioxidant. UR - https://jkmu.kmu.ac.ir/article_32789.html L1 - https://jkmu.kmu.ac.ir/article_32789_ba53c8fec7d48bf77d6740b34e51f9ae.pdf ER -