Effect of omega 3 fatty acids on oxidative stress in humans: GC-MS measurement of urinary F2-isoprostane excretion.

Despite the reported benefits associated with omega3 fatty acids for cardiovascular disease, there remains concern that increased intake may lead to increased lipid peroxidation. To date, however, the data, particularly in vivo, are inconclusive. This report describes two interventions, one providing daily fish meals and the other eicosapentaenoic acid (EPA, 20:5 omega3) or docosahexaenoic acid (DHA, 22:6 omega3), the two principal omega3 fatty acids in marine oils, in which in vivo lipid peroxidation was assessed by measurement of urinary excretion of F2-isoprostanes. In both trials, urinary F2-isoprostanes were significantly reduced by 20-27%. Therefore, in contrast with previous reports in the literature, these results demonstrate that omega3 fatty acids reduce in vivo oxidant stress in humans.

Effect of dietary fish and exercise training on urinary F2-isoprostane excretion in non-insulin-dependent diabetic patients.

Despite the potential benefits of dietary treatment with marine omega3 fatty acids in cardiovascular disease, there remains concern with respect to their potential for increased lipid peroxidation. Thus far, data from in vivo studies are inconclusive. Increased lipid peroxidation has also been associated with acute exercise in some studies, but the methods have been nonspecific. The quantitation of F2-isoprostanes provides a more reliable and useful assessment of in vivo lipid peroxidation. We therefore aimed to assess the independent and combined effects of dietary omega3 fatty acids and aerobic exercise training on urinary F2-isoprostane levels in dyslipidemic non-insulin-dependent diabetic (NIDDM) patients. In a randomized controlled trial, 55 untrained, sedentary, dyslipidemic NIDDM patients were randomly assigned to a low-fat diet (30% of daily energy) with or without one daily fish meal (3.6 g omega3 fatty acids per day) and further randomized to either a moderate (55% to 65% maximal oxygen consumption [VO2max]) or light (heart rate <100 bpm) exercise training program for 8 weeks. Twenty-four-hour urine samples from 49 subjects were collected for measurement of urinary F2-isoprostanes by gas chromatography-mass spectrometry before and after intervention. The fish diets reduced urinary F2-isoprostanes by 830+/-321 pmol/24 h (20%, P = .013) relative to the low-fat diet alone. This effect was independent of age, gender, and body weight change. Moderate exercise training did not alter F2-isoprostanes. These findings show that, at least in the short-term, exercise had no effect, whereas the inclusion of regular fish meals as part of a low-fat diet reduced in vivo lipid peroxidation in dyslipidemic NIDDM patients. This response could further complement the known benefits of omega3 fatty acids and exercise favoring a reduced cardiovascular risk in diabetic patients.

The DNA polymerases of Leishmania mexicana.

Two previously isolated DNA polymerases from the parasitic protozoan Leishmania mexicana were further characterized by exposure to inhibitors of mammalian DNA polymerases. DNA polymerase A, a high molecular mass enzyme, and DNA polymerase B, a beta-like DNA polymerase were compared to each other and to their mammalian counterparts regarding pH optimum, utilization of templates, and response to various inhibitors and ionic strengths. The results suggest that the DNA polymerases from L. mexicana differ from the host enzymes and may offer a target for chemotherapeutic intervention.

Isolation and partial characterization of a high-molecular-weight DNA polymerase from Leishmania mexicana.

This paper describes for the first time the isolation and characterization of a high-molecular-weight predominant DNA polymerase from the genus Leishmania, which are parasitic flagellated protozoa. Like mammalian DNA polymerase alpha, the leishmanial DNA polymerase, designated DNA polymerase A, is of high-molecular-weight, is sensitive to N-ethylmaleimide and is inhibited by high ionic strength. Unlike mammalian DNA polymerase alpha, but similar to the predominant DNA polymerase isolated from the related lower eukaryotic organisms, Trypanosoma cruzi and Crithidia fasciculata, the leishmanial DNA polymerase A is resistant to inhibition by aphidicolin, a potent inhibitor of DNA replication in mammalian cells and of DNA polymerase alpha. The DNA polymerase A was purified 28,000-fold and properties such as pH optimum, salt sensitivity, template requirements and response to DNA polymerase inhibitors were determined. A low-molecular-weight DNA polymerase was detected during the isolation procedures, but was separated from the polymerase A activity. Differences in responses to specific antisera and specific mammalian DNA polymerase alpha inhibitors suggest that the leishmanial high-molecular-weight A enzyme is sufficiently different to suggest this enzyme as a chemotherapeutic target.

Partial purification and characterization of a beta-like DNA polymerase from Leishmania mexicana.

Deoxyribonucleic acid polymerase beta (EC 2.7.7.7) from the lower eukaryotic parasitic protozoan Leishmania mexicana has been partially purified over 9,000 fold and characterized for the very first time. Like mammalian DNA polymerase beta the protozoan enzyme is of low molecular weight (40,000), has a broad pH range, and is resistant to inhibition by N-ethylmaleimide and aphidicolin. It is unlike mammalian DNA polymerase beta in utilization of various templates and response to various inhibitors and sensitivity to high ionic strength, but similar to a beta-like enzyme from a related organism Crithidia fasciculata. It is estimated that this enzyme constitutes 20% of the polymerase activity of the crude cell extract.