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Dinitrosyl iron complexes with thiol-containing ligands as a working form of endogenous nitric oxide

Journal

NITRIC OXIDE-BIOLOGY AND CHEMISTRY
Volume 54, Issue -, Pages 15-29

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.niox.2016.01.006

Keywords

Nitric oxide; Dinitrosyl iron complexes

Funding

  1. Russian Foundation for Basic Research [15-04-00708-a]

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The material presented herein is an overview of the results obtained by our research team during the many years' study of biological activities and occurrence of dinitrosyl iron complexes (DNIC) with thiol-containing ligands in human and animal organisms. With regard to their dose dependence and vast diversity of biological activities, DNIC are similar to the system of endogenous NO, one of the most universal regulators of biological processes. The role of biologically active components in DNIC is played by their iron-dinitrosyl fragments, [Fe(NO)(2)], endowed with the ability to generate neutral NO molecules and nitrosonium ions (NO+). Their release is effected by heme- and thiol-containing proteins, which fulfill the function of biological targets and acceptors of NO and NO+. Beneficial regulatory effects of DNIC on physiological and metabolic processes are numerous and diverse and include, among other things, lowering of arterial pressure and accelerated healing of skin wounds. In the course of fast decomposition of their Fe(NO)(2) fragments (e.g., in the presence of iron chelators), DNIC produce adverse (cytotoxic) effects, which can best be exemplified by their ability to suppress the development of experimental endometriosis in animals. In animal tissues, DNIC with thiol-containing ligands are predominantly represented by the binuclear form, which, contrary to mononuclear DNIC detectable by the 2.03 signal, is EPR-silent. The ample body of evidence on biological activities and occurrence of DNIC gained so far clearly demonstrates that in human and animal organisms DNIC with thiol-containing ligands represent a working form of the system of endogenous NO responsible for its accumulation and stabilization in animal tissues as well as its further transfer to its biological targets. (C) 2016 Elsevier Inc. All rights reserved.

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