P40phox associates with the neutrophil Triton X-100-insoluble cytoskeletal fraction and PMA-activated membrane skeleton: a comparative study with P67phox and P47phox.

NADPH oxidase is an O2*- -generating enzyme found in phagocytes such as neutrophils. It is composed of a membrane-bound cytochrome b, the cytosolic proteins p67phox, p47phox, p40phox, and the G-protein p21rac. The system is dormant in resting cells but acquires catalytic activity on exposure to appropriate stimuli. Cytochrome b, p67phox, p47phox, and rac2 associate with the cytoskeleton and membrane skeleton of activated neutrophils. It is not known whether p40phox associates with the cytoskeleton. The purpose of this study was to analyze the subcellular distribution of p40phox. When resting neutrophils were lysed in Triton X-100 or octyl glucoside buffer and separated into detergent-soluble and detergent-insoluble fractions, p40phox and p67phox were mainly associated with the detergent-insoluble fraction (defined as the cytoskeleton), whereas p47phox was mainly found in the soluble fraction. Neutrophil activation by phorbol myristate acetate (PMA) induced p47phox translocation to the cytoskeleton but did not affect the distribution of p40phox or p67phox. Using immunofluorescence confocal microscopy, we found that p40phox colocalized with filamentous actin. In neutrophils from a p67phox-deficient patient with detectable p40phox, p40phox associated with the cytoskeleton only after activation by PMA. A complex containing the three proteins was isolated from the cytoskeleton of activated neutrophils. When activated membranes were treated with Triton X-100 buffer, p40phox, p47phox, and p67phox were found in the membrane skeleton enriched in NADPH-oxidase activity; some p40phox and p47phox was found in the soluble membrane fraction, but no p67phox was detected. These findings show that p40phox, like p67phox and p47phox, binds to the cytoskeleton and membrane skeleton. In addition, p40phox can dissociate from p67phox in activated membranes.

alpha-tocopherol inhibits the respiratory burst in human monocytes. Attenuation of p47(phox) membrane translocation and phosphorylation.

Vitamin E (alpha-tocopherol), one of the most important natural antioxidants, is assumed to be beneficial in the prevention of cardiovascular diseases. alpha-Tocopherol exhibits acyl-peroxyl-radical scavenger properties and exerts cell-mediated actions in the hemovascular compartment, such as inhibition of superoxide anion (O-2) production by leukocytes. The aim of this study was to examine the mechanism underlying the inhibitory effect of alpha-tocopherol on O-2 production by human monocytes. In activated monocytes O-2 is produced by the NADPH-oxidase enzyme complex. The oxidase activation elicited by phorbol myristate acetate (PMA) requires membrane translocation of several cytosolic factors. We found that in human PMA-stimulated adherent monocytes, alpha-tocopherol (but not beta-tocopherol) inhibited O-2 production in intact cells but had no effect on a membrane preparation containing activated NADPH-oxidase, suggesting that alpha-tocopherol impairs the assembly process of the enzyme complex. We showed that translocation and phosphorylation of the cytosolic factor p47(phox) were reduced in monocytes preincubated with alpha-tocopherol. We verified that the tryptic phosphopeptide map of monocyte p47(phox) was similar to that of neutrophil p47(phox), indicating that several serine residues were phosphorylated. Peptides whose phosphorylation is dependent on protein kinase C (PKC) were phosphorylated to a lesser degree when p47(phox) was immunoprecipitated from alpha-tocopherol-treated monocytes. In vitro, the activity of PKC from monocytes was inhibited by alpha-tocopherol in a specific manner compared with that of beta-tocopherol or Trolox(R). Membrane translocation of PKC was not affected. These results show that alpha-tocopherol inhibits O-2 production by human adherent monocytes by impairing the assembly of the NADPH-oxidase and suggest that the inhibition of phosphorylation and translocation of the cytosolic factor p47(phox) results from a decrease in PKC activity.

Monocyte superoxide production is inversely related to normal content of alpha-tocopherol in low-density lipoprotein.

Vitamin E (alpha-tocopherol) is a potent peroxyl radical scavenger. According to the oxidative theory of atherosclerosis, it prevents oxidation of low-density lipoprotein (LDL) and thereby lowers the risk of cardiovascular disease. It also mediates cell actions, and specifically decreases monocyte superoxide anion-production (O2.--production), which is involved in LDL oxidation. We investigated whether alpha-tocopherol-containing LDL decreases this production in a manner dependent on the LDL alpha-tocopherol content (the alpha-tocopherol/apoB molar ratio) in human, phorbol ester-stimulated, adherent monocytes. We found that O2.--production was inhibited by native LDL (n-LDL) in a manner highly sensitive to the increasing alpha-tocopherol content (range 4.5 8). In addition: (1) inhibition was greater when alpha-tocopherol was associated to acetylated LDL (ac-LDL), the maximal percentage of inhibition being 80% as opposed to 35% for n-LDL; (2) the alpha-tocopherol overloading of either form of LDL did not produce further inhibition; (3) the free form of alpha-tocopherol produced lower inhibition compared with the lipoprotein-associated forms; (4) inhibition was not related to the cell content of alpha-tocopherol. We propose that the cell targeting of alpha-tocopherol is crucial to the inhibition of monocyte O2.--production, and thus that the role of normal LDL-alpha-tocopherol contents (range 6-8) in the prevention of atherogenic processes needs to be reexamined.

Red blood cell vitamin E concentrations in fetuses are related to but lower than those in mothers during gestation. A possible association with maternal lipoprotein (a) plasma levels.

OBJECTIVE: The purpose was to establish which blood characteristic of vitamin E status were highly correlated between mothers and fetuses during gestation. STUDY DESIGN: Twenty-four pregnant women were selected because of suspicion of toxoplasmosis or other disease and malformation or intrauterine growth delay justifying cord blood puncture. After maternal and fetal blood was collected, analyses of plasma and red blood cell vitamin E contents were performed together with analyses of standard lipid parameters and lipoprotein (a) in maternal plasma and fatty acid compositions of maternal and fetal red blood cells. RESULTS: The maternal population was characterized by a plasma lipid-normalized vitamin E mean content higher (3.5 mmol/mol lipids) than usually found in nonpregnant adults. There was no relationship between plasma and red blood cell vitamin E contents. This was also true for fetuses. When the vitamin E status of mothers was compared with that of fetuses, we found no correlation in plasma vitamin E in the whole population and in the high lipoprotein (a) (> 300 mg/L) and low lipoprotein (a) (< 300 mg/L) groups. In contrast, statistically significant correlations appeared between maternal and fetal red blood cell contents and red blood cell relative charges in vitamin E in the whole population, whereas still higher correlations occurred in the high lipoprotein (a) group (r = 0.94 for the red blood cell content). Improved correlations were also found in the high lipoprotein (a) group for the interrelationship between vitamin E and plasma lipid contents (cholesterol and triglycerides), whereas improvement was noted in the low lipoprotein (a) group by positive correlation between age and vitamin E red blood cell content or red blood cell relative charge. CONCLUSION: Determination of red blood cell vitamin E and plasma lipoprotein (a) in mothers could be useful in antenatal blood analysis in cases of risk of prematurity at birth, to prevent peroxidative membrane damage in neonates, and > 85% of the mothers in the current population would benefit from vitamin E supplementation from the viewpoint of the fetal red blood cell vitamin E requirement in spite of the rather high maternal lipid-normalized vitamin E plasma content.