Reactive oxygen species (ROS), important mediators of cell and tissue injury during inflammation, are produced by several types of inflammatory cells. The formation of ROS can be monitored by detection of lipid peroxidation products. The extremely broad spectrum of biological effects of aldehydic lipid peroxidation products has necessitated the development of a technique that enables the sensitive routine quantitation of aldehydes formed in biological materials. MalondiaJdehyde (MDA) is a by-product of enzymatic eicosanoid formation and an endproduct of nonenzymatic peroxidation of polyunsaturated fatty acids with three or more bisallylic double bonds, The determination of the thiobarbituric acid derivative of MDA (TBA-MDA) is a widely used method for estimating overall lipid peroxidation. We describe a rapid, isocratic, simple, and sensitive high-performance liquid chromatographic (HPLC) method with spectrafluorimetric detection for measurement oF MDA-TBA in human biological samples such as plasma, urine, wound secretions, amniotic fluid, sputum and tissue samples. By use of this method, picomole quantities of MDA can be readily and specifically detected in different biological materials. Coefficients of variation of repeated MDA-TBA assays were 4.4% within run and 6.9% from run to run. Reference values are given for a variety of human body fluids and for rat tissues.
Neutrophil granulocyte leukocytes (neutrophils) play fundamental role in the innate immune response. In the presence of adequate stimuli, neutrophils release excessive amount of reactive oxygen species (ROS) that may induce cell and tissue injury. Oxidative burst of neutrophils acts as a double-edged sword. It may contribute to the pathology of atherosclerosis and brain injury but is also necessary in resolving infections. Moreover, neutrophil-derived ROS may also have both a tumor promoting and tumor suppressing role. ROS have a specific activities and diffusion distance, which is related to their short lifetime. Therefore, the manner in which ROS will act depends on the cells targeted and the intra- and extracellular levels of individual ROS, which can further cause production of reactive aldehydes like 4-hydroxynonenal (HNE) that act as a second messengers of ROS. In this review we discuss the influence of neutrophil mediated extracellular redox reactions in ischemia reperfusion injury, transplant rejection and chronic diseases (atherosclerosis, inflammatory bowel diseases and cancer). At the end a brief overview of cellular mechanisms to maintain ROS homeostasis is given.
Measurement of lipid peroxidation is a commonly used method of detecting oxidative damage to biological tissues, but the most frequently used methods, including MS, measure breakdown products and are therefore indirect. We have coupled reversed-phase HPLC with positive-ionization electrospray MS (LC-MS) to provide a method for separating and detecting intact oxidized phospholipids in oxidatively stressed mammalian cells without extensive sample preparation. The elution profile of phospholipid hydroperoxides and chlorohydrins was first characterized using individual phospholipids or a defined phospholipid mixture as a model system. The facility of detection of the oxidized species in complex mixtures was greatly improved compared with direct-injection MS analysis, as they eluted earlier than the native lipids, owing to the decrease in hydrophobicity. In U937 and HL60 cells treated in vitro with t-butylhydroperoxide plus Fe(2+), lipid oxidation could not be observed by direct injection, but LC-MS allowed the detection of monohydroperoxides of palmitoyl-linoleoyl and stearoyl-linoleoyl phosphatidylcholines. The levels of hydroperoxides observed in U937 cells were found to depend on the duration and severity of the oxidative stress. In cells treated with HOCl, chlorohydrins of palmitoyloleoyl phosphatidylcholine were observed by LC-MS. The method was able to detect very small amounts of oxidized lipids compared with the levels of native lipids present. The membrane-lipid profiles of these cells were found to be quite resistant to damage until high concentrations of oxidants were used. This is the first report of direct detection by LC-MS of intact oxidized phospholipids induced in cultured cells subjected to oxidative stress.
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