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J Investig Med. 1999 Mar;47(3):151-60.

Gamma-glutamyl transpeptidase-dependent iron reduction and LDL oxidation--a potential mechanism in atherosclerosis.

Author information

1
Department of Experimental Pathology, University of Pisa School of Medicine, Italy.

Abstract

BACKGROUND:

gamma-Glutamyl transpeptidase (gamma-GT) is found in serum and in the plasma membranes of virtually all cell types. Its physiologic role is to initiate the hydrolysis of extracellular glutathione (GSH), a tripeptide in which cysteine lies between alpha-glycine and gamma-glutamate residues. Cysteine and other thiol compounds are known to promote LDL oxidation by reducing Fe(III) to redox active Fe(II); therefore, we sought to determine whether similar reactions can be sustained by GSH and influenced by gamma-GT.

METHODS:

Fe(III) reduction and LDL oxidation were studied by monitoring the formation bathophenanthroline-chelatable Fe(II) and the accumulation of thiobarbituric acid-reactive substances, respectively. Human atheromatous tissues were examined by histochemical techniques for the presence of oxidized LDL and their colocalization with cells expressing gamma-GT activity.

RESULTS:

A series of experiments showed that the gamma-glutamate residue of GSH affected interactions of the juxtaposed cysteine thiol with iron, precluding Fe(III) reduction and hence LDL oxidation. Both processes increased remarkably after addition of purified gamma-GT, which acts by removing the gamma-glutamate residue. GSH-dependent LDL oxidation was similarly promoted by gamma-GT associated with the plasma membrane of human monoblastoid cells, and this process required iron traces that can be found in advanced or late stage atheromas. Collectively, these findings suggested a possible role for gamma-GT in the cellular processes of LDL oxidation and atherogenesis. Histochemical analyses confirmed that this may be the case, showing that gamma-GT activity is expressed by macrophage-derived foam cells within human atheromas, and that these cells colocalize with oxidized LDL.

CONCLUSIONS:

Biochemical and histochemical correlates indicate that gamma-GT can promote LDL oxidation by hydrolyzing GSH into more potent iron reductants. These findings may provide mechanistic clues to the epidemiologic evidence for a possible correlation between persistent elevation of gamma-GT and the risk of fatal reinfarction in patients with ischemic heart disease.

PMID:
10198571
[Indexed for MEDLINE]

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