Renata Alleva scite author profile

In spite of unrelenting effort, the net incidence of neoplastic diseases appears not to have been curbed. While some types of cancer have been suppressed significantly, others are either stagnating or on the increase. Therefore, the need for a cure is imperative, in particularly a drug or combination of drugs that would be selective for malignant cells, i.e. with as low secondary toxicity as possible. Recent data strongly suggest that analogues of vitamin E, epitomised by the most studied alpha-tocopheryl succinate (alpha-TOS), may meet the need for the coveted drugs with a selective anti-neoplastic effect. The reasons for this optimism are reviewed in this article.

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In vivo supplementation with coenzyme Q ₁₀ enhances the recovery of human lymphocytes from oxidative DNA damage

Tomasetti

et al. 2001

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We investigated the effect of in vitro and in vivo CoQ10 supplementation on the recovery of lymphocytes from oxidative DNA damage. Furthermore, we investigated whether CoQ10 supplementation modulates the activity of DNA repair enzymes by using cellular extracts from lymphocytes. Exposure of lymphocytes to oxidizing agents leads to an increase of DNA strand breaks, oxidized purines, and pyrimidines. Enrichment of cells with CoQ10 prevents DNA strand‐break formation and affects the kinetics of repair, which occurs faster in enriched than in native lymphocytes. In contrast, CoQ10 supplementation neither prevents endogenous formation of oxidized bases nor affects their repair. DNA repair enzyme activity is enhanced by in vivo CoQ10 supplementation. Changes in the redox state of several transcriptional factors have been proposed as mechanisms regulating cell proliferation and apoptosis. Because CoQ10 is mainly present as ubiquinol‐10, both in plasma and lymphocytes, it can feasibly modulate the intracellular redox potential involved in the regulation of gene expression. The redox mechanism implicated in the enzyme transactivation could explain the property of CoQ10 to enhance the DNA repair activity and protect DNA from oxidative damage.

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Distribution of antioxidants among blood components and lipoproteins: Significance of lipids/CoQ₁₀ ratio as a possible marker of increased risk for atherosclerosis

et al. 1999

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Total CoQ10 levels were evaluated in whole blood and in plasma obtained from a group of 83 healthy donors. Extraction with light petroleum ether/methanol was more efficient, for whole blood, than the extraction which is often used for plasma and serum, i.e., ethanol hexane. An excellent correlation was present between plasma CoQ10 and whole blood CoQ10. CoQ10 is mainly associated with plasma rather than with cellular components. Positive, significant correlations were found between the LDL-chol/CoQ10 ratio and the total-chol/HDL-chol ratio, which is usually considered a risk factor for atherosclerosis. The proportion of CoQ10 carried by LDL was 58 +/- 10%, while the amount carried by HDL was 26 +/- 8%. In VLDL + IDL CoQ10 was 16 +/- 8%. The content of CoQ10 in single classes of lipoproteins is strictly correlated with CoQ10 plasma concentration. In a parallel study conducted on a population of diabetic patients (one IDDM group and one NIDDM) CoQ10 plasma levels were generally higher compared to the control group, also when normalised to total cholesterol. In particular the LDL fraction showed a CoQ10/chol ratio higher in NIDDM but not in IDDM patients, compared to controls. The CoQ10/triglycerides ratio was lower in NIDDM respect to controls and even lower in IDDM patients.

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Relationship of Job Satisfaction, Psychological Distress and Stress‐Related Biological Parameters among Healthy Nurses: A Longitudinal Study

Amati¹,

Tomasetti²,

Ciuccarelli³

et al. 2010

Journal of Occupational Health

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Oxidation of Free Fatty Acids in Low Density Lipoprotein by 15-Lipoxygenase Stimulates Nonenzymic, α-Tocopherol-mediated Peroxidation of Cholesteryl Esters

Upston

Neužil

Witting

et al. 1997

Journal of Biological Chemistry

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15-Lipoxygenase has been implicated in the in vivo oxidation of low density lipoprotein (LDL) a process thought to be important in the origin and/or progression of human atherogenesis. We have suggested previously that oxidation of LDL's cholesteryl esters (CE) and phospholipids by soybean (SLO) or human recombinant 15-lipoxygenase (rhLO) can be ascribed largely to ␣-tocopherol (␣-TOH)-mediated peroxidation (TMP). In this study we demonstrate that addition to LDL of unesterified linoleate (18:2), other free fatty acid (FFA) substrates, or phospholipase A 2 (PLA 2 ) significantly enhanced the accumulation of CE hydro(pero)xides (CE-O(O)H) induced by rhLO, whereas the corresponding CE and nonsubstrate FFA were without effect. The enhanced CE-O(O)H accumulation showed a dependence on the concentration of free 18:2 in LDL. In contrast, addition of 18:2 had little effect on LDL oxidation induced by aqueous peroxyl radicals or Cu 2؉ ions. Analyses of the regio-and stereoisomers of oxidized 18:2 in SLO-treated native LDL demonstrated that the small amounts of 18:2 associated with the lipoprotein were oxidized enzymically and within minutes, whereas cholesteryl linoleate (Ch18:2) was oxidized nonenzymically and continuously over hours. ␣-Tocopheroxyl radical (␣-TO ⅐ ) formed in LDL exposed to SLO was enhanced by addition of 18:2 or PLA 2 . With rhLO and 18:2-supplemented LDL, oxidation of 18:2 was entirely enzymic, whereas that of Ch18:2 was largely, though not completely, nonenzymic. The small extent of enzymic Ch18:2 oxidation increased with increasing enzyme to LDL ratios. Ascorbate and the reduced form of coenzyme Q, ubiquinol-10, which are both capable of reducing ␣-TO ⅐ and thereby preventing TMP, inhibited nonenzymic Ch18:2 oxidation induced by rhLO. Trolox and ascorbyl palmitate, which also inhibit TMP, ameliorated both enzymic and nonenzymic oxidation of LDL's lipids, whereas probucol, a radical scavenger not capable of preventing TMP, was ineffective. These results demonstrate that rhLO-induced oxidation of CE is largely nonenzymic and increases with LDL's content of FFA substrates. We propose that conditions which increase LDL's FFA content, such as the presence of lipases, increase 15-LO-induced LDL lipid peroxidation and that this process requires only an initial, transient enzymic activity.

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Renata Alleva

Vitamin E Analogues: A New Class of Inducers of Apoptosis with Selective Anti-Cancer Effects

In vivo supplementation with coenzyme Q ₁₀ enhances the recovery of human lymphocytes from oxidative DNA damage

Distribution of antioxidants among blood components and lipoproteins: Significance of lipids/CoQ₁₀ ratio as a possible marker of increased risk for atherosclerosis

Relationship of Job Satisfaction, Psychological Distress and Stress‐Related Biological Parameters among Healthy Nurses: A Longitudinal Study

Oxidation of Free Fatty Acids in Low Density Lipoprotein by 15-Lipoxygenase Stimulates Nonenzymic, α-Tocopherol-mediated Peroxidation of Cholesteryl Esters

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Renata Alleva

Vitamin E Analogues: A New Class of Inducers of Apoptosis with Selective Anti-Cancer Effects

In vivo supplementation with coenzyme Q 10 enhances the recovery of human lymphocytes from oxidative DNA damage

Distribution of antioxidants among blood components and lipoproteins: Significance of lipids/CoQ10 ratio as a possible marker of increased risk for atherosclerosis

Relationship of Job Satisfaction, Psychological Distress and Stress‐Related Biological Parameters among Healthy Nurses: A Longitudinal Study

Oxidation of Free Fatty Acids in Low Density Lipoprotein by 15-Lipoxygenase Stimulates Nonenzymic, α-Tocopherol-mediated Peroxidation of Cholesteryl Esters

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Product

Resources

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In vivo supplementation with coenzyme Q ₁₀ enhances the recovery of human lymphocytes from oxidative DNA damage

Distribution of antioxidants among blood components and lipoproteins: Significance of lipids/CoQ₁₀ ratio as a possible marker of increased risk for atherosclerosis