Superoxide Formation and Macrophage Resistance to Nitric Oxide-mediated Apoptosis

Brüne, Bernhard; Götz, Claudia; Meßmer, Udo K.; Sandau, Katrin; Hirvonen, Maija-Riitta; Lapetina, Eduardo G.

doi:10.1074/jbc.272.11.7253

Cited by 122 publications

(87 citation statements)

References 36 publications

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“…It has been demonstrated that, whereas murine-and bovine-stimulated macrophages can produce copious amounts of NO, human, caprine, lapine and porcine cells may not be able to do so. 19,20 Thus, although it is clear that stimulation of murine macrophages with LPS and IFN-g provokes NO production from iNOS, which is sufficient to induce apoptosis, [21][22][23][24] it is by no means certain that this is also the case in human cells. Nevertheless, despite the relative inability of human macrophages to produce endogenous NO upon external stimulation, they appear to respond to exogenous sources of NO in much the same way as those from other species.…”

Section: Regulation Of Inflammatory Cell Apoptosis By No Myelomonocytmentioning

confidence: 99%

“…25 Therefore, observations using NO donors in murine cells could still be extrapolated to human cells, and may provide useful guidance on the potential therapeutic benefits of using NO in inflammatory conditions. Several NO donors have been demonstrated to elicit apoptosis in RAW 264.7 cells, including sodium nitroprusside (SNP), 26 Snitroso-N-acetylpenicillamine (SNAP), [26][27][28] and the NONOates SPER/NO, 21,22,26,27,29 DEA/NO and DETA/NO. 26 In addition, Sandoval et al 30 demonstrated increased apoptosis in RAW 264.7 cells upon exposure to peroxynitrite (ONOO À ; 100-300 mM over 4 h and 10-100 mM over 14 h).…”

Section: Regulation Of Inflammatory Cell Apoptosis By No Myelomonocytmentioning

confidence: 99%

“…This discrepancy may well be the result of the different concentrations of ONOO À used in the above studies. In addition, Brune et al 22 reported that RAW 264.7 cells that have higher levels of O 2 À are resistant to iNOS-mediated apoptosis, suggesting that ONOO À plays no role in mediating NO-induced apoptosis in murine macrophages, and indeed may have a protective role. Although Brockhaus and Brune 31 showed that overexpression of superoxide dismutase (SOD) in RAW 264.7 macrophages inhibited NO-mediated apoptosis, which implies a role for ONOO À , on further investigation they found this not to be the case.…”

Section: Regulation Of Inflammatory Cell Apoptosis By No Myelomonocytmentioning

confidence: 99%

“…Contrasting studies in macrophage cell lines 22,29,32 suggest that the redox status of the cell may partially determine the effects of NO. An inhibitory effect of endogenous NO on J774 cell apoptosis can be unmasked when O 2 À is scavenged, 32 and over-expression of SOD also protects RAW 264.7 cells against apoptosis induced by endogenous or exogenously supplied NO.…”

Section: Antiapoptotic Mechanismsmentioning

confidence: 99%

“…31 These studies suggest a role for ONOO À in mediating NO-induced apoptosis. Conflicting evidence suggests that RAW 264.7 cells that overproduce O 2 À are resistant to NO-mediated apoptosis, 22 and von Knethen et al 98 observed that O 2 À activates NF-kB, thus mediating survival in these cells. Furthermore, Brockhaus and Brune 31 found that ONOO À had no role in NO-evoked apoptosis, despite the protective effect of SOD in RAW 264.7 cells.…”

Section: Antiapoptotic Mechanismsmentioning

confidence: 99%

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Nitric oxide: a key regulator of myeloid inflammatory cell apoptosis

et al. 2003

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Apoptosis of inflammatory cells is a critical event in the resolution of inflammation, as failure to undergo this form of cell death leads to increased tissue damage and exacerbation of the inflammatory response. Many factors are able to influence the rate of apoptosis in neutrophils, eosinophils, monocytes and macrophages. Among these is the signalling molecule nitric oxide (NO), which possesses both anti-and proapoptotic properties, depending on the concentration and flux of NO, and also the source from which NO is derived. This review summarises the differential effects of NO on inflammatory cell apoptosis and outlines potential mechanisms that have been proposed to explain such actions.

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Section: Regulation Of Inflammatory Cell Apoptosis By No Myelomonocytmentioning

confidence: 99%

Section: Regulation Of Inflammatory Cell Apoptosis By No Myelomonocytmentioning

confidence: 99%

Section: Regulation Of Inflammatory Cell Apoptosis By No Myelomonocytmentioning

confidence: 99%

Section: Antiapoptotic Mechanismsmentioning

confidence: 99%

Section: Antiapoptotic Mechanismsmentioning

confidence: 99%

See 3 more Smart Citations

Nitric oxide: a key regulator of myeloid inflammatory cell apoptosis

et al. 2003

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Self-protection of PC12 cells by 6R-tetrahydrobiopterin from nitric oxide toxicity

et al. 1998

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Nitric oxide (NO) has cytotoxic effects but NO producing neurons are resistant to NO toxicity. These results suggest the presence of self-protecting factors for NO toxicity. Recently, 6R-tetrahydrobiopterin (6R-BH4), a cofactor for NO synthase (NOS), has been reported to degrade NO raising the possibility that 6R-BH4 acts as a self-protecting factor for NO toxicity. In PC12 cells which have NOS, three-day culture with sodium nitroprusside (SNP) or NOC-12, NO generators, at 10-100 microM increased nitrite and nitrate concentrations in the culture medium and induced death of PC12 cells. Coadministration of 6R-BH4 (10 or 30 microM) with SNP or NOC-12 prevented cell death with reduction of nitrite and nitrate in the medium. Inhibition of 6R-BH4 synthesis by 2,4-diamino-6-hydroxypyrimidine (DAHP), an inhibitor for GTP cyclohydrolase I, decreased cellular 6R-BH4 content and viable cell number. The inhibiting effects of DAHP were restored by exogenous 6R-BH4. NOS activity, as estimated by nitrite concentrations in the medium, was unchanged by DAHP. Hypoxanthine and xanthine oxidase, which produce superoxide, mimicked the cell-protecting effect of 6R-BH4 which is reported to generate superoxide during its autoxidation. These results suggest that 6R-BH4 acts as a self-protecting factor for NO toxicity with generation of superoxide in NO-producing neurons.

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Ultra‐wideband pulses increase nitric oxide production by RAW 264.7 macrophages incubated in nitrate*†

Seaman

Parker

Kiel

et al. 2001

Bioelectromagnetics

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The possible effects of ultra-wideband (UWB) pulses on cellular nitric oxide production were tested by measuring nitrite in the medium bathing UWB exposed RAW 264.7 macrophages. A 30 min exposure to 1 ns UWB pulses, repeated at 600 Hz with an estimated SAR of 0.106 W/kg, did not change nitric oxide production by RAW 264.7 cells, with or without stimulation by gamma interferon and lipopolysaccharide. However, when nitrate was added to the medium of stimulated cells, nitric oxide production increased after UWB exposure, indicating a possible action of UWB pulses on induced nitric oxide synthase under certain conditions.

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Superoxide Formation and Macrophage Resistance to Nitric Oxide-mediated Apoptosis

Cited by 122 publications

References 36 publications

Nitric oxide: a key regulator of myeloid inflammatory cell apoptosis

Nitric oxide: a key regulator of myeloid inflammatory cell apoptosis

Self-protection of PC12 cells by 6R-tetrahydrobiopterin from nitric oxide toxicity

Ultra‐wideband pulses increase nitric oxide production by RAW 264.7 macrophages incubated in nitrate*†

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