Asaad Safadi scite author profile

Exposure of human plasma to gas-phase (but not to whole) cigarette smoke (CS) produces oxidative damage to lipids [Frei, Forte, Ames & Cross (1991) Biochem. J. 277, 133-138], which is prevented by ascorbic acid. The ability of CS to induce protein damage was measured by the carbonyl assay and by loss of enzyme activity and protein -SH groups. Both whole and gas-phase CS caused formation of carbonyls in human plasma, which was partially inhibited by GSH but not by ascorbic acid or metal-ion-chelating agents. Isolated albumin exposed to CS showed much faster carbonyl formation (per unit protein) than did whole plasma; damage to isolated albumin was partially prevented by chelating agents. Isolated creatine kinase (CK) lost activity upon exposure to CS much faster than did CK in plasma. Direct addition to plasma of mixtures of some or all of the aldehydes reported to be present in CS caused protein carbonyl formation and inactivation of CK, but neither occurred to the extent produced by CS exposure.

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Antioxidant properties of nitecapone (OR-462)

Suzuki

Tsuchiya

Safadi

et al. 1992

Free Radical Biology and Medicine

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NADPH-dependent inhibition of lipid peroxidation in rat liver microsomes

Kagan

Serbinova

Safadi

et al. 1992

Biochemical and Biophysical Research Communications

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Activity of alkaline phosphatase in rat skeletal muscle localized along the sarcolemma and endothelial cell membranes.

Safadi

Livne²,

Silbermann³

et al. 1991

J Histochem Cytochem.

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Alkaline phosphatase (AP), a membrane-associated glycoprotein which enhances the hydrolysis of monophosphate esters at alkaline pH, is widely distributed in animal tissues. AP activity is increased in a variety of muscle disorders, i.e., myopathies and denervation. Established histochemical methods at the light microscopy level failed to demonstrate AP in skeletal muscles. In the present study we applied the Gomori lead nitrate method for ultrastructural examination of AP in rat gastrocnemius muscles and showed that the enzyme was linked to the sarcolemma of the striated muscle and to the membranes of endothelial cells in adjacent capillaries. In comparison with ATPase activity, AP activity was inhibited by both levamisole and a pH of 7.2, but not by ouabain. Hence, it appears that in skeletal muscles AP is active at a high pH and is bound to cell membranes.

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Asaad Safadi

Modification of plasma proteins by cigarette smoke as measured by protein carbonyl formation

Antioxidant properties of nitecapone (OR-462)

NADPH-dependent inhibition of lipid peroxidation in rat liver microsomes

Activity of alkaline phosphatase in rat skeletal muscle localized along the sarcolemma and endothelial cell membranes.

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