Glutathione Transferase Superfamily Behaves Like Storage Proteins for Dinitrosyl-Diglutathionyl-Iron Complex in Heterogeneous Systems

Electron paramagnetic resonance and kinetics experiments have been made to determine the formation, stability, and fate of the natural nitric oxide carrier, dinitrosyl-diglutathionyl-iron complex (DNDGIC), in heterogeneous systems approaching in vivo conditions. Both in human placenta and rat liver...

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Published in:The Journal of biological chemistry 2003-10, Vol.278 (43), p.42294-42299
Main Authors: Turella, Paola, Pedersen, Jens Z., Caccuri, Anna Maria, De Maria, Francesca, Mastroberardino, Piergiorgio, Bello, Mario Lo, Federici, Giorgio, Ricci, Giorgio
Format: Article
Language:English
Subjects:
Animals
Electron Spin Resonance Spectroscopy
Feedback, Physiological
Female
Ferrous Compounds - metabolism
Glutathione - analogs & derivatives
Glutathione - metabolism
Glutathione S-Transferase pi
Glutathione Transferase - metabolism
Glutathione Transferase - physiology
Half-Life
Humans
Isoenzymes
Kinetics
Liver - metabolism
Nitric Oxide - metabolism
Placenta - metabolism
Protein Binding
Rats
Rats, Sprague-Dawley
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cited_by cdi_FETCH-LOGICAL-c409t-c0d8309d68fbf2b1a55f1544560ed5c61307d443752ea1544e63ebb378e6c9363
cites cdi_FETCH-LOGICAL-c409t-c0d8309d68fbf2b1a55f1544560ed5c61307d443752ea1544e63ebb378e6c9363
container_end_page 42299
container_issue 43
container_start_page 42294
container_title The Journal of biological chemistry
container_volume 278
creator Turella, Paola
Pedersen, Jens Z.
Caccuri, Anna Maria
De Maria, Francesca
Mastroberardino, Piergiorgio
Bello, Mario Lo
Federici, Giorgio
Ricci, Giorgio
description Electron paramagnetic resonance and kinetics experiments have been made to determine the formation, stability, and fate of the natural nitric oxide carrier, dinitrosyl-diglutathionyl-iron complex (DNDGIC), in heterogeneous systems approaching in vivo conditions. Both in human placenta and rat liver homogenates DNDGIC is formed spontaneously from GSH, S-nitroso-glutathione, and trace amounts of ferrous ions. DNDGIC is unstable in homogenates depleted of glutathione S-transferase (GST); an initial phase of rapid decomposition is followed by a slower decay, which is inversely proportional to the concentration. In the crude human placenta homogenate, GSTP1-1, which represents 90% of the cytosolic GST isoenzymes, is the preferential target for DNDGIC. It binds the complex almost stoichiometrically and stabilizes it for several hours (t1/2 = 8 h). In the presence of an excess of DNDGIC, negative cooperativity in GSTP1-1 opposes the complete loss of the usual detoxicating activity of this enzyme. In the rat liver homogenate, multiple endogenous GSTs (mainly Alpha and Mu class isoenzymes) bind the complex quantitatively and stabilize it (t1/2 = 4.5 h); negative cooperativity is also seen for these GSTs. Thus, the entire pool of cytosolic GSTs, with the exception of the Theta GST, represents a target for stoichiometric amounts of DNDGIC and may act as storage proteins for nitric oxide. These results confirm the existence of a cross-link between NO metabolism and the GST superfamily.
doi_str_mv 10.1074/jbc.M305569200
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source ScienceDirect Additional Titles
subjects Animals
Electron Spin Resonance Spectroscopy
Feedback, Physiological
Female
Ferrous Compounds - metabolism
Glutathione - analogs & derivatives
Glutathione - metabolism
Glutathione S-Transferase pi
Glutathione Transferase - metabolism
Glutathione Transferase - physiology
Half-Life
Humans
Isoenzymes
Kinetics
Liver - metabolism
Nitric Oxide - metabolism
Placenta - metabolism
Protein Binding
Rats
Rats, Sprague-Dawley
title Glutathione Transferase Superfamily Behaves Like Storage Proteins for Dinitrosyl-Diglutathionyl-Iron Complex in Heterogeneous Systems
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