Exchange of cysteamine, thiol ligand in binuclear cationic tetranitrosyl iron complex, for glutathione

L. A. Syrtsova; N. A. Sanina; E. N. Kabachkov; N. I. Shkondina; A. I. Kotelnikov; S. M. Aldoshin

doi:10.1039/c4ra01766h

What is it about?

Nitrosyl iron complexes belong to a new class of efficient exogenous donors of nitric oxide (NO), an important bioregulatory agent for various physiological processes (apoptosis in human leukemia erythroblastic cells and human colon carcinoma). We have chosen reduced glutathione (GSH) to study ligand exchange reactions with binuclear cationic tetranitrosyl iron complex.

Why is it important?

Ligand-glutathione exchange reaction is very important for anti-tumor activity of the complex by causing its bifunctionality, i.e., in addition to the NO donating activity, this complex binds glutathione thus preventing S–S-glutathionation of essential enzyme systems and giving back the anti-tumor activity to them. The correlation between metabolism of GSH and such diseases such as cancer, neurodegenerative diseases, cystic fibrosis, HIV and aging has been established. Moreover GSH may promote S-glutathionation of essential enzymes, receptors, structural proteins, transcription factors and transport proteins

Perspectives

Therefore it is crucial to understand whether this reaction is common for nitrosyl iron complexes with functional sulfur containing ligands, in particular, for complexes with cationic structure.
Evgeny Kabachkov
Institute of the Problems of Chemical Physics Russian Academy of Sciences

This page is a summary of: Exchange of cysteamine, thiol ligand in binuclear cationic tetranitrosyl iron complex, for glutathione, RSC Advances, January 2014, Royal Society of Chemistry,
DOI: 10.1039/c4ra01766h.
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Exchange of cysteamine, thiol ligand in binuclear cationic tetranitrosyl iron complex, for glutathione
This paper describes the comparative study of the decomposition of two iron nitrosyl complexes (NICs) with a cysteamine thiolate ligand {Fe2[S(CH2)2NH3]2(NO)4}SO4·2.5H2O (I) and a glutathione (GSH)-ligand, [Fe2(SC10H17N3O6)2(NO)4]SO4·2H2O (II), which spontaneously evolve NO in aqueous medium. NO formation was measured by using a spectrophotometric method by the formation of a hemoglobin (Hb)-NO complex. Spectrophotometry and mass-spectrometry methods have firmly shown that the cysteamine ligands are exchanged for 2 GS− during decomposition of 1.5 × 10−4 M (I) in the presence of 10−3 M GSH, with 77% yield at 68 h. As has been established, such behaviour is caused by the resistance of (II) to decomposition due to the higher affinity of iron towards GSH in the complex. The discovered reaction may impede S-glutathionation of the essential enzyme systems the presence of (I) and is important for metabolism of NICs, connected with their anti-tumor activity.

Contributors

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Evgeny Kabachkov
Institute of the Problems of Chemical Physics Russian Academy of Sciences

Exchange of cysteamine and glutathione

What is it about?

Why is it important?

Perspectives

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