Uncoupling protein 2 plays an important role in nitric oxide production of lipopolysaccharide-stimulated macrophages

Kizaki, Takako; Suzuki, Kenji; Hitomi, Yoshiaki; Taniguchi, Naoyuki; Saitoh, Daizoh; Watanabe, Kenji; Onoé, Kazunori; Day, Noorbibi K.; Good, Robert A.; Ohno, Hideki

doi:10.1073/pnas.142206299

Cited by 124 publications

(119 citation statements)

References 39 publications

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“…UCP2 has been implicated in reducing the size of atherosclerotic plaques (29) and in influencing the lipoperoxidation state of low density lipoproteins when co-incubated with endothelial cells in which UCP2-induced uncoupling has taken place (28). UCP2 has also been implicated in improving brain recovery after stroke and preventing neurodegeneration (30) and playing a role in ⅐ NO production by lipopolysaccharide-stimulated macrophages (27). These results support the importance of processes that regulate mitochondrial ROS production.…”

Section: Discussionmentioning

confidence: 73%

“…formation (7)(8)(9)(10)(11). These considerations led to the proposal that a physiological role of uncoupling protein-2 (UCP2), which is present in very low amounts in most tissues (22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32), is to down-regulate mitochondrial ROS production (25,26). The ability to reduce ROS and/or lipoperoxidation not only locally in the mitochondria but within the cell or even in the extracellular space has also been ascribed to these novel UCPs (28,29).…”

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confidence: 99%

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Hydroperoxy Fatty Acid Cycling Mediated by Mitochondrial Uncoupling Protein UCP2

Jabůrek

Miyamoto

Mascio

et al. 2004

Journal of Biological Chemistry

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Using Escherichia coli-expressed UCP2 reconstituted into liposomes we found that LAOOH induced purine nucleotide-sensitive H ؉ uniport in UCP2-proteoliposomes with higher affinity than LA (K m values 97 M for LAOOH and 275 M for LA). In UCP2-proteoliposomes LAOOH also induced purine nucleotide-sensitive K ؉ influx balanced by anionic charge transfer, indicating that LAOOH was also transported as an anion with higher affinity than linoleate anion, the K m values being 90 and 350 M, respectively. These data suggest that hydroperoxy fatty acids are transported via UCP2 by a fatty acid cycling mechanism. This may alternatively explain the observed activation of UCP2 by the externally generated superoxide. The ability of LAOOH to induce UCP2-mediated H ؉ uniport points to the essential role of superoxide reaction products, such as hydroperoxyl radical, hydroxyl radical, or peroxynitrite, initiating lipoperoxidation, the released products of which support the UCP2-mediated uncoupling and promote the feedback down-regulation of mitochondrial reactive oxygen species production.

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Section: Discussionmentioning

confidence: 73%

mentioning

confidence: 99%

Hydroperoxy Fatty Acid Cycling Mediated by Mitochondrial Uncoupling Protein UCP2

Jabůrek

Miyamoto

Mascio

et al. 2004

Journal of Biological Chemistry

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“…Therefore, the development of strategies to induce UCP2 or inhibit its down-regulation in immune cells would be promising in autoimmunity. First, data are encouraging because in vitro UCP2 overexpression in macrophages diminished their migration capacity and NO production (10,11). More important, UCP2 overexpression in mice decreases their responsiveness to LPS in terms of cytokine (46) and provides protection in acute brain injury (37).…”

Section: Discussionmentioning

confidence: 99%

“…MAPK activation in Ucp2-KO macrophages is quicker and stronger than in WT macrophages (8), leading to increased nitric oxide (NO), cytokine production, and migration ability (8,9). Consistent with these findings, overexpression of UCP2 in macrophages is associated with diminished NO production (10) and decreased migration capacity (11).…”

mentioning

confidence: 81%

Role of uncoupling protein UCP2 in cell-mediated immunity: How macrophage-mediated insulitis is accelerated in a model of autoimmune diabetes

Emre

Hurtaud

Karaca

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

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Infiltration of inflammatory cells into pancreatic islets of Langerhans and selective destruction of insulin-secreting ␤-cells are characteristics of type 1 diabetes. Uncoupling protein 2 (UCP2) is a mitochondrial protein expressed in immune cells. UCP2 controls macrophage activation by modulating the production of mitochondrial reactive oxygen species (ROS) and MAPK signaling. We investigated the role of UCP2 on immune cell activity in type 1 diabetes in Ucp2-deficient mice. Using the model of multiple low-dose streptozotocin (STZ)-induced diabetes, we found that autoimmune diabetes was strongly accelerated in Ucp2-KO mice, compared with Ucp2-WT mice with increased intraislet lymphocytic infiltration. Macrophages from STZ-treated Ucp2-KO mice had increased IL-1␤ and nitric oxide (NO) production, compared with WT macrophages. Moreover, more macrophages were recruited in islets of STZ-treated Ucp2-KO mice, compared with Ucp2-WT mice. This finding also was accompanied by increased NO/ROS-induced damage. Altogether, our data show that inflammation is stronger in Ucp2-KO mice and islets, leading to the exacerbated disease in these mice. Our results highlight the mitochondrial protein UCP2 as a new player in autoimmune diabetes.inflammation ͉ nitric oxide M itochondria are important organelles for cellular functions, including ATP synthesis. Oxidative glucose metabolism in pancreatic ␤-cells increases the ATP/ADP ratio, leading to insulin release. Uncoupling protein 2 (UCP2) is a mitochondrial carrier protein expressed in pancreatic ␤-cells (1, 2) and immune cells (3,4).In pancreatic ␤-cells, UCP2 was reported to alter the yield of ATP synthesis from glucose, and it has been proposed as a negative regulator of glucose-stimulated insulin secretion (2). In other respects, there is much evidence for the influence of UCP2 on immune responses. First, Ucp2-KO mice exhibit increased resistance to a Toxoplasma gondii or Listeria monocytogenes infection (4, 5). Second, in an LDL receptor-null background, Ucp2-KO mice develop greater and more unstable atherosclerotic plaques than WT mice (6). Third, in experimental autoimmune encephalomyelitis, a murine model of multiple sclerosis, Ucp2-KO mice develop higher disease scores than Ucp2-WT mice (7). We showed that UCP2 regulates LPS-induced reactive oxygen species (ROS) signaling in macrophages (8). MAPK activation in Ucp2-KO macrophages is quicker and stronger than in WT macrophages (8), leading to increased nitric oxide (NO), cytokine production, and migration ability (8, 9). Consistent with these findings, overexpression of UCP2 in macrophages is associated with diminished NO production (10) and decreased migration capacity (11).Given the evidence for a role of UCP2 in the immune system, in macrophages, and in ␤-cell function, we investigated whether UCP2 affects the development of autoimmune diabetes by using the model of multiple low-dose of streptozotocin (STZ). In this report, we show that the absence of UCP2 renders animals more sensitive to the onset of diabetes in mice....

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“…Metabolically the cellular use of glucose is increased, whereas glutamine oxidation is unchanged, and fatty acid utilisation is directed away from mitochondrial oxidation (Emre et al, 2007) (Figure 2). Decrease of UCP2 levels promotes not only the mitochondrial ROSdependent MAPK signalling, but also expression of inducible form of the NO synthase, NO production, and release of pro-inflammatory cytokines in macrophage (Arsenijevic et al, 2000;Kizaki et al, 2002;Lee et al, 2005;Rousset et al 2006;Emre et al, 2007).…”

Section: The Uncoupling Proteins Ucps (Slc25a7 Slc25a8 Slc25a9)mentioning

confidence: 99%

Mitochondrial carriers in inflammation induced by bacterial endotoxin and cytokines

Iacobazzi

Infantino

Castegna

et al. 2016

Biological Chemistry

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Significant metabolic changes occur in the shift from resting to activated cellular status in inflammation. Thus, changes in expression of a large number of genes and extensive metabolic reprogramming gives rise to acquisition of new functions (e.g. production of cytokines, intermediates for biosynthesis, lipid mediators, PGE, ROS and NO). In this context, mitochondrial carriers, which catalyse the transport of solute across mitochondrial membrane, change their expression to transport mitochondrially produced molecules, among which citrate and succinate, to be used as intracellular signalling molecules in inflammation. This review summarises the mitochondrial carriers studied so far that are, directly or indirectly, involved in inflammation.

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Uncoupling protein 2 plays an important role in nitric oxide production of lipopolysaccharide-stimulated macrophages

Cited by 124 publications

References 39 publications

Hydroperoxy Fatty Acid Cycling Mediated by Mitochondrial Uncoupling Protein UCP2

Hydroperoxy Fatty Acid Cycling Mediated by Mitochondrial Uncoupling Protein UCP2

Role of uncoupling protein UCP2 in cell-mediated immunity: How macrophage-mediated insulitis is accelerated in a model of autoimmune diabetes

Mitochondrial carriers in inflammation induced by bacterial endotoxin and cytokines

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