NITRIC OXIDE IS A HIGHLY EFFICIENT ROS TRAP. POSSIBILITY OF CLINICAL USE FOR DIAGNOSTICS-Reference-Cited by-同舟云学术

NITRIC OXIDE IS A HIGHLY EFFICIENT ROS TRAP. POSSIBILITY OF CLINICAL USE FOR DIAGNOSTICS

Published:2024-05-21 Issue:2 Volume:8 Page:185-193
ISSN:2499-9962
Container-title:Russian Journal of Biological Physics and Chemisrty
language:en
Short-container-title:

Author:

Titov V.¹²³,Osipov A.¹,Anankina A.¹,Kochish I.⁴

Affiliation:

1. Pirogov Russian National Research Medical University

2. Moscow State Academy of Veterinary Medicine and Biotechnology - MVA by K.I. Skryabin

3. Russian National Research and Technological Poultry Farming Institute, RAS

4. Moscow state Academy of Veterinary Medicine and Biotechnology - MVA by K.I. Skryabin

Abstract

It has been shown that nitrite is normally present in most tissues at a concentration not exceeding 50 nM. But the tissues contain NO donor compounds in concentration dozens of micromoles. Consequently, there are mechanisms in the tissues that prevent the oxidation of NO to nitrite. The NO donor compounds do not spontaneously dissociate with the release of NO. The transformation of NO included in the composition of donor compounds to nitrite and non-thiolate nitroso compounds (NO2- + RNO) occurs under the action of active oxygen species (ROS) and, above all, superoxide that is produced by activated phagocytes. Thus, the content of NO2- + RNO is a very sensitive indicator of phagocyte activation, a process that accompanies any inflammation. In this paper, the possibility of using the NO2- + RNO content as indicator for the early diagnosis of inflammatory diseases is considered. It has been shown that this indicator has greater sensitivity and specificity than all known clinical and biochemical indicators. This makes it especially valuable for monitoring the state of patients in the hospital, monitoring the farm animals. The factor limiting the use of the NO2- + RNO indicator in diagnostics is the permeability of tissue barriers to these compounds. This is especially important for monitoring the condition of the fetus, as well as the state of the central nervous system.

Publisher

RIOR Publishing Center

Reference19 articles.

1. Shumaev K., Gubkin A., Gubkina S., Gudkov L., Sviriaeva I., Timoshin A., Topunov A., Vanin A., Ruuge E. Interaction between dinitrosyl iron complexes and intermediate products of oxidative stress. Biofizika, 2006, vol. 51, pp. 472-477., Shumaev K., Gubkin A., Gubkina S., Gudkov L., Sviriaeva I., Timoshin A., Topunov A., Vanin A., Ruuge E. Interaction between dinitrosyl iron complexes and intermediate products of oxidative stress. Biofizika, 2006, vol. 51, pp. 472-477.

2. Shumaev K., Gubkin, A., Serezhenkov V., Lobysheva I., Kosmachevskaya O., Ruuge E., Lankin V., Topunov A., Vanin A. Interaction of reactive oxygen and nitrogen species with albumin- and methemoglobin-bound dinitrosyl-iron complexes. Nitric Oxide, 2008, vol. 18, pp. 37-46, doi: 10.1016/j.niox.2007.09.085., Shumaev K., Gubkin, A., Serezhenkov V., Lobysheva I., Kosmachevskaya O., Ruuge E., Lankin V., Topunov A., Vanin A. Interaction of reactive oxygen and nitrogen species with albumin- and methemoglobin-bound dinitrosyl-iron complexes. Nitric Oxide, 2008, vol. 18, pp. 37-46, doi: 10.1016/j.niox.2007.09.085.

3. Titov V., Osipov A., Vanin A. The Ability of Blood Plasma to Inhibit Catalase in the Presence of Chloride is a Highly Sensitive Indicator of Deposited Nitric Oxide and Leukocyte Activation. Current Enzyme Inhibition, 2020, vol. 16, no. 2, pp. 172-180, doi: 10.2174/1573408016999200429123919., Titov V., Osipov A., Vanin A. The Ability of Blood Plasma to Inhibit Catalase in the Presence of Chloride is a Highly Sensitive Indicator of Deposited Nitric Oxide and Leukocyte Activation. Current Enzyme Inhibition, 2020, vol. 16, no. 2, pp. 172-180, doi: 10.2174/1573408016999200429123919.

4. Tarpey M., Wink D., Grisham M. Methods for detection of reactive metabolites of oxygen and nitrogen: in vitro and in vivo considerations. Am. J. Physiol. Regul. Integr Comp. Physiol., 2004, vol. 286, pp. R431-R444, doi: 10.1152/ajpregu.00361.2003., Tarpey M., Wink D., Grisham M. Methods for detection of reactive metabolites of oxygen and nitrogen: in vitro and in vivo considerations. Am. J. Physiol. Regul. Integr Comp. Physiol., 2004, vol. 286, pp. R431-R444, doi: 10.1152/ajpregu.00361.2003.

5. Емченко С.В., Цыганенко О.И. Аналитические обзоры. Новосибирск, 1993, вып. 27, с. 95-115., Yemchenko S.V., Tsyganenko O.I. Analytical review. Novosibirsk, 1993, vol. 27, pp. 95-115 (In Russ.).