M. L. Mira scite author profile

M. L. Mira

5Publications

71Citation Statements Received

0Citation Statements Given

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155

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University of Lisbon

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Mechanisms of Hemolysis Induced by Copper

Fernandes¹,

Mira²,

Azevedo³

et al. 1988

Free Radical Research Communications

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An excess of copper is the cause of hemolysis in a number of clinical conditions. Incubation of human erythrocyte (RBC) suspensions with copper (II) causes the formation of methemoglobin, lipid peroxidation and hemolysis. A new variant of the thiobarbituric acid (TBA) method, which minimizes the formation of interfering chromophores, was used to detect lipid peroxidation. Lipid peroxidation precedes hemolysis and the antioxidant vitamins C and E, which inhibit lipid peroxidation, also inhibit hemolysis. Consequently lipid peroxidation appears to be the cause of RBC destruction. Lipid peroxidation arises mostly from the oxidation of oxyhemoglobin by copper as it is inhibited in RBCs with carbon monoxyhemoglobin or methemoglobin. A direct interaction of copper with the red cell membrane seems to play only a minor role. Copper effects depend on the presence of free SH groups. Lipid peroxidation is probably initiated by activated forms of oxygen as it is increased by an inhibitor of catalase and reduced by hydroxyl radical scavengers. With higher copper concentrations hemolysis is greater: its mechanism appears different as lipid peroxidation is smaller but hemoglobin alterations, namely precipitation, are more pronounced.

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Angiotensin Converting Enzyme Inhibitors as Oxygen Free Radical Scavengers

Mira¹,

Silva²,

Queiroz³

et al. 1993

Free Radical Research Communications

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The authors have compared the ability of two non-SH-containing angiotensin converting enzyme (ACE) inhibitors (enalaprilat and lisinopril) with an -SH containing ACE inhibitor (captopril) to scavenge the hydroxyl radical (.OH). All three compounds were able to scavenge .OH radicals generated in free solution at approximately diffusion-controlled rates (10(10) M-1 s-1) as established by the deoxyribose assay in the presence of EDTA. The compounds also inhibited deoxyribose degradation in reaction mixtures which did not contain EDTA but not so effectively. This later findings also suggests that they have some degree of metal-binding capability. Chemiluminescence assays of oxidation of hypoxanthine by xanthine oxidase in the presence of luminol, confirm that the three ACE inhibitors are oxygen free radical scavengers. Our results indicate that the presence of a sulphydryl group in the chemical structure of ACE inhibitors is not relevant for their oxygen free radical scavenging ability.

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Oxidative inhibition of red blood cell ATPases by glyceraldehyde

Mira¹,

Martinho²,

Azevedo³

et al. 1991

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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The Scavenging of Oxygen Free Radicals by Angiotensin Converting Enzyme Inhibitors: The Importance of the Sulfhydryl Group in the Chemical Structure of the Compounds

Mira¹,

Silva²,

Manso³

1994

Annals of the New York Academy of Sciences

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The Neutralization of Hydroxyl Radical by Silibin, Sorbinil and Bendazac

Mira¹,

Azevedo²,

Manso³

1987

Free Radical Research Communications

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M. L. Mira

Mechanisms of Hemolysis Induced by Copper

Angiotensin Converting Enzyme Inhibitors as Oxygen Free Radical Scavengers

Oxidative inhibition of red blood cell ATPases by glyceraldehyde

The Scavenging of Oxygen Free Radicals by Angiotensin Converting Enzyme Inhibitors: The Importance of the Sulfhydryl Group in the Chemical Structure of the Compounds

The Neutralization of Hydroxyl Radical by Silibin, Sorbinil and Bendazac

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