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1.
The detection of protein free radicals using the specific free radical reactivity of nitrone spin traps in conjunction with nitrone-antibody sensitivity and specificity greatly expands the utility of the spin trapping technique, which is no longer dependent on the quantum mechanical electron spin resonance (ESR). The specificity of the reactions of nitrone spin traps with free radicals has already made spin trapping with ESR detection the most universal, specific tool for the detection of free radicals in biological systems. Now the development of an immunoassay for the nitrone adducts of protein radicals brings the power of immunological techniques to bear on free radical biology. Polyclonal antibodies have now been developed that bind to protein adducts of the nitrone spin trap 5,5-dimethyl-1-pyrroline N-oxide (DMPO). In initial studies, anti-DMPO was used to detect DMPO protein adducts produced on myoglobin and hemoglobin resulting from self-peroxidation by H2O2. These investigations demonstrated that myoglobin forms the predominant detectable protein radical in rat heart supernatant, and hemoglobin radicals form inside red blood cells. In time, all of the immunological techniques based on antibody-nitrone binding should become available for free radical detection in a wide variety of biological systems.  相似文献   

2.
1-Methyl-4-phenyl-2,3-dihydropyridinium (MPDP+), a metabolic product of the nigrostriatal toxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), has been shown to generate superoxide radicals during its autoxidation process. The generation of superoxide radicals was detected as a 5,5-dimethyl-1-pyrroline-N-oxide (DMPO).O2- spin adduct by spin trapping in combination with EPR techniques. The rate of formation of spin adduct was dependent not only on the concentrations of MPDP+ and oxygen but also on the pH of the system. Superoxide dismutase inhibited the spin adduct formation in a dose-dependent manner. The ability of DMPO to trap superoxide radicals, generated during the autoxidation of MPDP+, and of superoxide dismutase to effectively compete with this reaction for the available O2-, has been used as a convenient competition reaction to quantitatively determine various kinetic parameters. Thus, using this technique the rate constant for scavenging of superoxide radical by superoxide dismutase was found to be 7.56 x 10(9) M-1 s-1. The maximum rate of superoxide generation at a fixed spin trap concentration using different amounts of MPDP+ was found to be 4.48 x 10(-10) M s-1. The rate constant (K1) for MPDP+ making superoxide radical was found to be 3.97 x 10(-6) s-1. The secondary order rate constant (KDMPO) for DMPO-trapping superoxide radicals was found to be 10.2 M-1 s-1. The lifetime of superoxide radical at pH 10.0 was calculated to be 1.25 s. These values are in close agreement to the published values obtained using different experimental techniques. These results indicate that superoxide radicals are produced during spontaneous oxidation of MPDP+ and that EPR spin trapping can be used to determine the rate constants and lifetime of free radicals generated in aqueous solutions. It appears likely that the nigrostriatal toxicity of MPTP/MPDP+ leading to Parkinson's disease may largely be due to the reactivity of these radicals.  相似文献   

3.
The cellular-induced decay of DMPO spin adducts of .OH and .O2   总被引:1,自引:0,他引:1  
In a recent report, it was concluded that DMPO, often considered the spin trap of choice for detection of superoxide and hydroxyl radical adducts in biological systems, may be unsuitable for many biological uses because of its instability in cellular systems. It was demonstrated in red blood cells and in hamster V79 cells that the DMPO spin adducts of .O2- and .OH are metabolized very rapidly so that even if formed, they may not be detected in many experiments with cells. Because of the potential importance of these findings to experiments already reported on the occurrence of oxygen radicals in cellular systems, and the implications of these findings for future experiments, we have extended the studies on DMPO to other cellular, systems. We have also investigated the role of oxygen in this system because it has been shown recently that very hypoxic cells reduce some nitroxides much more rapidly than oxic cells and therefore it seemed possible that the rapid loss of radical adducts of DMPO was due to the hypoxic conditions under which the previous experiments were carried out. The results of the present experiments indicate that the loss of the DMPO spin adducts occurs in other cell systems as well, that the decomposition rate is independent of the concentration of oxygen, and that the final products of cellular metabolism of DMPO adducts are different from those of most nitroxides. There is no evidence that intracellular DMPO-spin adducts of oxygen radicals can be observed under conditions similar to those used in this study. We conclude that DMPO is not likely to be a suitable agent for studying intracellular oxygen radicals.  相似文献   

4.
《Free radical research》2013,47(3-6):187-195
Since 1971. when nitroxides were first reported to be bioreduced, several cellular enzymes, in addition to ascorbic acid. have been found to catalyze the reduction of nitroxides to their corresponding hydroxylami-nes. Numerous studies have demonstrated that cellular bioreduction of nitroxides are both dependent upon the structure of the nitroxide and cell type. For example, pyrrolidinyloxyls are considerably more resistant to bioreduction than their corresponding piperidinyloxyls. In addition, cellular levels of reductases present in freshly isolated rat hepatocytes are considerably greater than concentrations found in freshly isolated rat enterocytes. Thus, through the proper selection of a cell type and an appropriate nitroxide. one can study cellular-mediated free radical processes.

With the discovery that α-hydrogen-containing nitroxides, including 2, Z-dimethyl-S-hydroxy-l-pyrrolidinyloxyl (DMPO-OH) decompose rapidly in the presence of superoxide and thiols, the ability to determine if hydroxyl radical is generated during stimulation of human neutrophils, is in doubt. To explore the limits of spin trapping in this context. we have studied the effect of varying the rates of superoxide production. in the presence and absence of thiols, on the decomposition of DMPO-OH. In parallel studies, we have found that t-butyl α-methyl-4-pyridinyl-N-oxide nitroxide (4-POBN-CH3) will not degrade in the presence of superoxide and a thiol. From these studies. we have determined that if hydroxyl radicals were generated as an isolated event in the presence of a continual flow of superoxide. spin trapping might not be able to detect its formation. Otherwise. spin trapping should be able to measure hydroxyl radicals. if continually generated, during activation of human neutrophils.  相似文献   

5.
The generation of hydroxyl radicals by rat liver microsomes was monitored by spin trapping with 5, 5-dimethylpyrroline N-oxide (DMPO). The results confirm and extend previous data which demonstrated that hydroxyl radicals are produced by microsomes in the presence of NADPH and O2, and without the exogenous addition of iron. No EPR signals could be detected unless catalase activity which was associated with the microsomes could be substantially diminished. Addition of azide was the most effective means of eliminating catalase activity, but azide also reacted rapidly with hydroxyl radicals, forming azidyl radicals which were in turn trapped by DMPO. Extensive washing and preincubation of microsomes with 3-amino-1, 2,4-triazole in the presence of H2O2 were evaluated as alternative methods of decreasing the catalase contamination of microsomes. Although neither method completely eliminated microsomal catalase activity, addition of azide was no longer necessary for hydroxyl radical detection with DMPO. When highly washed microsomal preparations were tested, weak signals of the superoxide radical adduct of DMPO could also be detected. These data indicate that the sensitivity of spin trapping in microsomal systems can be improved substantially when care is taken to eliminate cytosolic contaminants such as catalase.  相似文献   

6.
The effect of hydralazine on the oxygen free radical production was studied in whole cultured murine liver fibroblasts and mitochondrial and microsomal fractions of the cells by ESR spin trapping with DMPO and measurement of Tiron semiquinone formation. Hydralazine itself was found to generate free radicals in phosphate buffer and especially in Eagle's Minimal Essential Medium. Most of the adduct of the spin trap DMPO was due to its reaction with hydralazine-induced hydroxyl radical. Moreover, this compound stimulated free radical formation in fibroblasts. These data suggest that hydralazine alters the cellular free radical metabolism which may have implications for the biological activity of this drug.  相似文献   

7.
Experiments were conducted to determine which free radicals are generated during the metabolism of adriamycin (ADM) by canine tracheal epithelial (CTE) cells, guinea pig enterocytes, and rat hepatocytes. The technique employed in this study was spin trapping; the spin trap utilized was 5,5-dimethyl-1-pyrroline-1-oxide (DMPO). The spin adduct 2-hydroxy-5,5-dimethyl-1-pyrrolidinyloxyl (DMPO-OH) was observed during the metabolism of ADM by CTE cells. However, the addition of dimethyl sulfoxide to the in vitro system suggested that superoxide is initially spin trapped by the nitrone, and that the adduct 2-hydroperoxy-5,5-dimethyl-1-pyrrolidinyloxyl (DMPO-OOH) is rapidly bioreduced to afford DMPO-OH. The addition of superoxide dismutase to the system indicated that superoxide generation was primarily intracellular. The adriamycin semiquinone free radical (ADM-SQ) was produced during the metabolism by enterocytes and hepatocytes. The rate of the production of ADM-SQ was enhanced under anaerobic conditions, suggesting that molecular oxygen was responsible for the degradation of this carbon-centered free radical. However, spin trapping of oxygen radicals was not observed; this observation suggests that these reactive intermediates are not produced at concentrations sufficient for detection by spin-trapping experiments.  相似文献   

8.
Polyunsaturated fatty acid (PUFA) peroxyl radicals play a crucial role in lipid oxidation. ESR spectroscopy with the spin-trapping technique is one of the most direct methods for radical detection. There are many reports of the detection of PUFA peroxyl radical adducts; however, it has recently been reported that attempted spin trapping of organic peroxyl radicals at room temperature formed only alkoxyl radical adducts in detectable amounts. Therefore, we have reinvestigated spin trapping of the linoleic, arachidonic, and linolenic acid-derived PUFA peroxyl radicals. The slow-flow technique allowed us to obtain well-resolved ESR spectra of PUFA-derived radical adducts in a mixture of soybean lipoxygenase, PUFA, and the spin trap 5,5-dimethyl-1-pyrroline N-oxide (DMPO). However, interpretation of the ESR spectra was complicated by the overlapping of the PUFA-derived alkoxyl radical adduct spectra. In order to understand these spectra, PUFA-derived alkoxyl radical adducts were modeled by various alkoxyl radical adducts. For the first time, we synthesized a wide range of DMPO adducts with primary and secondary alkoxyl radicals. It was found that many ESR spectra previously assigned as DMPO/peroxyl radical adducts based on their close similarity to the ESR spectrum of the DMPO/superoxide radical adduct, in conjunction with their insensitivity to superoxide dismutase, are indeed alkoxyl radical adducts. We have reassigned the PUFA alkylperoxyl radical adducts to their corresponding alkoxyl radical adducts. Using hyperfine coupling constants of model DMPO/alkoxyl radical adducts, the computer simulation of DMPO/PUFA alkoxyl radical adducts was performed. It was found that the trapped, oxygen-centered PUFA-derived radical is a secondary, chiral alkoxyl radical. The presence of a chiral carbon atom leads to the formation of two diastereomers of the DMPO/PUFA alkoxyl radical adduct. Therefore, attempted spin trapping of the PUFA peroxyl radical by DMPO at room temperature leads to the formation of the PUFA alkoxyl radical adduct.  相似文献   

9.
In this study, the hypothesis that oxygen free radicals act as intracellular messengers is examined. Treatment of human oral carcinoma SCC-25 cells with 200 ng/ml human TNF-alpha for 6 h greatly increased manganese superoxide dismutase (MnSOD) gene expression as detected by western blotting, RT-PCR, and nuclear run-on experiments. In the presence of the oxygen free radical spin trapping reagent, 5,5-dimethyl pyrroline-N-oxide (DMPO), the induction of MnSOD gene expression by TNF-alpha was significantly reduced. Electron paramagnetic resonance experiments showed that the production of oxygen free radicals was enhanced in TNF-alpha treated cells. Taken together, these observations suggest that the induction of MnSOD expression by TNF-alpha is at least partially mediated by intracellular formation of oxygen free radicals, and that superoxide is most likely the initiating species involved in the mediation of MnSOD gene expression by TNF-alpha.  相似文献   

10.
A study of the involvement of free oxygen radicals in trapping and digestion of insects by carnivorous plants was the main goal of the present investigation. We showed that the generation of oxygen free radicals by pitcher fluid of Nepenthes is the first step of the digestion process, as seen by EPR spin trapping assay and gel-electrophoresis. The EPR spectrum of N. gracilis fluid in the presence of DMPO spin trap showed the superposition of the hydroxyl radical spin adduct signal and of the ascorbyl radical signal. Catalase addition decreased the generation of hydroxyl radicals showing that hydroxyl radicals are generated from hydrogen peroxide, which can be derived from superoxide radicals. Gel-electrophoresis data showed that myosin, an abundant protein component of insects, can be rapidly broken down by free radicals and protease inhibitors do not inhibit this process. Addition of myoglobin to the pitcher plant fluid decreased the concentration of detectable radicals. Based on these observations, we conclude that oxygen free radicals produced by the pitcher plant aid in the digestion of the insect prey.  相似文献   

11.
The respiratory burst and production of oxygen radicals by lymphocytes stimulated with phorbol myristate acetate (PMA) was studied and compared with that of polymorphonuclear leukocytes (PMN) by electron paramagnetic resonance (EPR) and spin trapping technique. Superoxide anion and hydroxyl radicals spin adducts of DMPO were detected in the stimulated PMN system, but only hydroxyl radical spin adducts of DMPO were detected in the stimulated lymphocyte system. It was proved by superoxide dismutase (SOD) and catalase that the hydroxyl radicals produced in the stimulated lymphocyte system came from superoxide anions, just like the hydroxyl radicals produced in the stimulated PMN.  相似文献   

12.
In recent years spin trapping techniques have been used extensively to better understand the free radical biology of phagocytic cells. These results demonstrate that spin trapping is of adequate sensitivity to detect superoxide and/or hydroxyl radical generated by these cells, and that spin trapping is capable of measuring phagosomal radicals as well. However. neither neutrophils. monocytes. nor monocyte derived macro-phages generate hydroxyl radical in the absence of exogenous iron. Furthermore. neutrophil lactoferrin and myeloperoxidase limit the magnitude (and in the case of lactoferrin the duration) of hydroxyl radical formed by neutrophils in an iron catalyzed system. Since monocytic phagocytes posxss no lactoferrin, and limited myeloperoxidase, hydroxyl radical may play an important role in the inflammatory behavior of mononuclear phagocytes.  相似文献   

13.
Metabolism of ethanol to 1-hydroxyethyl radicals by rat liver microsomes was studied with three nitrone spin trapping agents (POBN, PBN, and DMPO) under essentially comparable conditions. The data indicate that POBN was the superior spin trapping agent for 1-hydroxyethyl radicals, and that DMPO was least efficient. Addition of deferoxamine completely prevented detection of 1-hydroxyethyl radicals with PBN or DMPO, but caused only 50% decrease in EPR signals when POBN was the spin trap. However, superoxide dismutase only decreased 1-hydroxyethyl radical formation when POBN was the spin trap. Other experiments demonstrated that POBN was the most effective of these nitrones for reduction of Fe(III) in aqueous solutions. Furthermore, 1-hydroxyethyl radical adducts were formed when POBN was added to mixtures of ethanol, phosphate buffer, POBN and FeCl3, but this effect did not occur with either PBN or DMPO. Thus, these data indicate that undesirable effects of POBN on iron chemistry may influence results of spin trapping experiments, and complicate interpretation of the resulting data.  相似文献   

14.
We have studied the effects of oxygen radical scavengers on the inactivation of ss ΦX174 DNA by the semi-quinone free radical of the antitumor agent etoposide (VP 16-213), which was generated from the ortho-quinone of etoposide at pH ≥ 7.4. A semi-quinone free radical of etoposide is thought to play a role in the inactivation of ss ΦDX174 DNA by its precursors 3',4'-ortho-quinone and 3',4'-ortho-dihydroxy-derivative. The possible role of oxygen radicals formed secondary to semi-quinone formation in the inactivation of DNA by the semi-quinone free radical was investigated using the hydroxyl radical scavengers t-butanol and DMSO. the spin trap DMPO, the enzymes catalase and superoxide dismutase, the iron chelator EDTA and potassium superoxide. Hydroxyl radicals seem not important in the process of inactivation of DNA by the semi-quinone free radical, since t-butanol, DMSO, catalase and EDTA had no inhibitory effect on DNA inactivation. The spin trapping agent DMPO strongly inhibited DNA inactivation and semi-quinone formation from the ortho-quinone of etoposide at pH ≥ 7.4 with the concomitant formation of a DMPO-OH adduct. This adduct probably did not arise from OH· trapping but from trapping of O2-. DMSO increased both the semi-quinone formation from and the DNA inactivation by the ortho-quinone of etoposide at pH ≥ 7.4. Potassium superoxide also stimulated ΦDX174 DNA inactivation by the ortho-quinone at pH ≤ 7. From the present study, it is also concluded that superoxide anion radicals probably play an important role in the formation of the semi-quinone free radical from the orthoquinone of etoposide, thus indirectly influencing DNA inactivation.  相似文献   

15.
Abstract

A study of the involvement of free oxygen radicals in trapping and digestion of insects by carnivorous plants was the main goal of the present investigation. We showed that the generation of oxygen free radicals by pitcher fluid of Nepenthes is the first step of the digestion process, as seen by EPR spin trapping assay and gel-electrophoresis. The EPR spectrum of N. gracilis fluid in the presence of DMPO spin trap showed the superposition of the hydroxyl radical spin adduct signal and of the ascorbyl radical signal. Catalase addition decreased the generation of hydroxyl radicals showing that hydroxyl radicals are generated from hydrogen peroxide, which can be derived from superoxide radicals. Gel-electrophoresis data showed that myosin, an abundant protein component of insects, can be rapidly broken down by free radicals and protease inhibitors do not inhibit this process. Addition of myoglobin to the pitcher plant fluid decreased the concentration of detectable radicals. Based on these observations, we conclude that oxygen free radicals produced by the pitcher plant aid in the digestion of the insect prey.  相似文献   

16.
Immuno-spin trapping is a highly sensitive method for detecting DNA radicals in biological systems. This technique involves three main steps: (i) in situ and real-time trapping of DNA radicals with the nitrone spin trap 5,5-dimethyl-1-pyrroline-N-oxide (DMPO), thus forming DMPO-DNA nitrone adducts (referred to here as nitrone adducts); (ii) purification of nitrone adducts; and (iii) analysis of nitrone adducts by heterogeneous immunoassays using Abs against DMPO. In experiments, DMPO is added prior to the formation of free radicals. It diffuses easily through all cell compartments and is present when DNA free radicals are formed as a result of oxidative damage. Due to its low toxicity, DMPO can be used in cells at high enough concentrations to out-compete the normal reactions of DNA radicals, thus ensuring a high yield of DNA nitrone adducts. Because both protein and DNA nitrone adducts are formed, it is important that the DNA be pure in order to avoid misinterpretations. Depending on the model under study, this protocol can be completed in as few as 6 h.  相似文献   

17.
《Free radical research》2013,47(4):213-222
Metabolism of ethanol to 1-hydroxyethyl radicals by rat liver microsomes was studied with three nitrone spin trapping agents (POBN, PBN, and DMPO) under essentially comparable conditions. The data indicate that POBN was the superior spin trapping agent for 1-hydroxyethyl radicals, and that DMPO was least efficient. Addition of deferoxamine completely prevented detection of 1-hydroxyethyl radicals with PBN or DMPO, but caused only 50% decrease in EPR signals when POBN was the spin trap. However, superoxide dismutase only decreased 1-hydroxyethyl radical formation when POBN was the spin trap. Other experiments demonstrated that POBN was the most effective of these nitrones for reduction of Fe(III) in aqueous solutions. Furthermore, 1-hydroxyethyl radical adducts were formed when POBN was added to mixtures of ethanol, phosphate buffer, POBN and FeCl3, but this effect did not occur with either PBN or DMPO. Thus, these data indicate that undesirable effects of POBN on iron chemistry may influence results of spin trapping experiments, and complicate interpretation of the resulting data.  相似文献   

18.
《Free radical research》2013,47(3-6):287-296
Endothelial cells were subjected to anoxia/reoxygenation in order to simulate some of the free radical mechanisms occurring in ischaemialreperfusion. With ESR and spin trapping using the spin traps 5.5-dimethyl-l-pyrroline-l-oxide (DMPO) and 3,3,5,5-dimethyl-l-pyrroline-l-oxide (M4PO), the results show that upon reoxygenation of endothelial cells, following a period of anoxia, these cells generate superoxide (02). Cytotoxicity of the spin traps was measured by standard trypan blue exclusion methods. Cell injury or death was measured at various times during reoxygenation by lactate dehydrogenase (LDH) release. Experiments using oxypurinol, SOD, CAT and a combination of SOD and CAT show that while oxypurinol partially prevents spin adduct formation. the combination of SOD and CAT is more effective in doing so. These results suggest that the majority of the oxygen radicals produced by endothelial cells are done so exogenously. The results also suggest that endothelial cells are not only a source of oxygen radicals but also a target.  相似文献   

19.
Endothelial cells were subjected to anoxia/reoxygenation in order to simulate some of the free radical mechanisms occurring in ischaemialreperfusion. With ESR and spin trapping using the spin traps 5.5-dimethyl-l-pyrroline-l-oxide (DMPO) and 3,3,5,5-dimethyl-l-pyrroline-l-oxide (M4PO), the results show that upon reoxygenation of endothelial cells, following a period of anoxia, these cells generate superoxide (02). Cytotoxicity of the spin traps was measured by standard trypan blue exclusion methods. Cell injury or death was measured at various times during reoxygenation by lactate dehydrogenase (LDH) release. Experiments using oxypurinol, SOD, CAT and a combination of SOD and CAT show that while oxypurinol partially prevents spin adduct formation. the combination of SOD and CAT is more effective in doing so. These results suggest that the majority of the oxygen radicals produced by endothelial cells are done so exogenously. The results also suggest that endothelial cells are not only a source of oxygen radicals but also a target.  相似文献   

20.
Activation of human neutrophils leads to secretion of myeloperoxidase (MPO) with resulting generation of several oxidant species including OCl-. Spin trapping techniques employing 5,5-dimethyl-1-pyrroline-N-oxide (DMPO) are being applied increasingly to the investigation of free radical production by in vitro and in vivo experimental systems which contain neutrophils. Because such knowledge is critical to the interpretation of these data, we examined the impact of MPO and MPO-derived oxidants on DMPO spin adduct formation and stability. Addition of increasing concentrations of OCl- to DMPO yielded a number of EPR-detectable products including DMPO-OH. However, the concentration of OCl- required was in excess of that expected under physiologic conditions. Addition of purified human MPO and H2O2 to DMPO yielded EPR spectra consisting of small DMPO-OH peaks. The addition of MPO and H2O2 to preformed DMPO-OH and DMPO-CH3 resulted in rapid destruction of these spin adducts. Thus MPO/H2O2 appeared to both generate and destroy DMPO spin adducts. Neutrophils stimulated with phorbol myristate acetate or opsonized zymosan generated large DMPO-OOH and DMPO-OH peaks as well as small DMPO-CH3 peaks. Addition of the MPO inhibitor azide to the reaction mixture had no effecting on resulting DMPO-OH or DMPO-CH3 peak amplitudes but increased that of DMPO-OOH. These data suggest that MPO-derived oxidants likely have little impact on the nature of EPR spectra resulting from DMPO spin trapping of free radical species following neutrophil stimulation. Because MPO oxidants did appear to react with DMPO the ability of DMPO to protect a biologic target from in vitro MPO injury was examined. DMPO (greater than 10 mM) significantly decreased MPO/H2O2/Cl- -mediated erythrocyte hemolysis as assessed by 51Cr release. The experimental and/or pharmacologic implications of this observation require further study.  相似文献   

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