Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Leukocyte 12-lipoxygenase (12-LO) gene expression in pancreatic beta cells is upregulated by cytotoxic cytokines like IL-1beta. Recent studies have demonstrated that 12-LO inhibitors can prevent glutamate-induced neuronal cell death when intracellular glutathione stores are depleted. Therefore, 12-LO pathway inhibition may prevent beta-cell cytotoxicity. To evaluate the role of 12-LO gene expression in immune-mediated islet destruction, we used 12-LO knockout (12-LO KO) mice. Male homozygous 12-LO KO mice and control C57BL/6 mice received 5 consecutive daily injections of low-dose streptozotocin to induce immune-mediated diabetes. Fasting serum glucose and insulin levels were measured at 7-day intervals, and the mice were followed up for 28 days. 12-LO KO mice were highly resistant to diabetes development compared with control mice and had higher serum insulin levels on day 28. Isolated pancreatic islets were treated with IL-1beta, TNF-alpha, and IFN-gamma for 18 hours. Glucose-stimulated insulin secretion in cytokine-treated islets from C57/BL6 mice decreased 54% from that of untreated islets. In marked contrast, the same cytokine mix led to only a 26% decrease in islets from 12-LO KO mice. Furthermore, cytokine-induced 12-hydroxyeicosatetraenoic acid (12-HETE) production was absent in 12-LO KO islets but present in C57/BL6 islets. Isolated peritoneal macrophages were stimulated for 48 hours with IFN-gamma + LPS and compared for nitrate/nitrite generation. 12-LO KO macrophages generated 50% less nitrate/nitrite when compared with C57BL/6 macrophages. In summary, elimination of leukocyte 12-LO in mice ameliorates low dose streptozotocin-induced diabetes by increasing islet resistance to cytokines and decreasing macrophage production of nitric oxide.
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PMID:Resistance to type 1 diabetes induction in 12-lipoxygenase knockout mice. 1033 Apr 25

In summary, we suggest that hyperglycemia causes upregulation of 12-lipoxygenase activity. The increased production of 12-LO products, 12(S) and 15(S)-HETE, activates monocyte integrins which result in enhanced adhesion of monocytes to endothelium. The binding of monocytes to endothelium is a key early event in development of atherosclerosis. Upregulation of this process by vascular cells exposed to chronic elevations in glucose may be one explanation for the accelerated atherosclerosis observed in patients with Type 2 diabetes.
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PMID:12-Lipoxygenase products increase monocyte:endothelial interactions. 1066 68

In models of type 2 diabetes the expression of beta-cell genes is altered, but these changes have not fully explained the impairment in beta-cell function. We hypothesized that changes in beta-cell phenotype and global alterations in both carbohydrate and lipid pathways are likely to contribute to secretory abnormalities. Therefore, expression of genes involved in carbohydrate and lipid metabolism were analyzed in islets 4 weeks after 85-95% partial pancreatectomy (Px) when beta-cells have impaired glucose-induced insulin secretion and ATP synthesis. Px rats after 1 week developed mild to severe hyperglycemia that was stable for the next 3 weeks, whereas neither plasma triglyceride, non-esterified fatty acid, or islet triglyceride levels were altered. Expression of peroxisome proliferator-activated receptors (PPARs), with several target genes, were reciprocally regulated; PPARalpha was markedly reduced even at low level hyperglycemia, whereas PPARgamma was progressively increased with increasing hyperglycemia. Uncoupling protein 2 (UCP-2) was increased as were other genes barely expressed in sham islets including lactate dehydrogenase-A (LDH-A), lactate (monocarboxylate) transporters, glucose-6-phosphatase, fructose-1,6-bisphosphatase, 12-lipoxygenase, and cyclooxygenase 2. On the other hand, the expression of beta-cell-associated genes, insulin, and GLUT2 were decreased. Treating Px rats with phlorizin normalized hyperglycemia without effecting plasma fatty acids and reversed the changes in gene expression implicating the importance of hyperglycemia per se in the loss of beta-cell phenotype. In addition, parallel changes were observed in beta-cell-enriched tissue dissected by laser capture microdissection from the central core of islets. In conclusion, chronic hyperglycemia leads to a critical loss of beta-cell differentiation with altered expression of genes involved in multiple metabolic pathways diversionary to normal beta-cell glucose metabolism. This global maladaptation in gene expression at the time of increased secretory demand may contribute to the beta-cell dysfunction found in diabetes.
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PMID:Genetic regulation of metabolic pathways in beta-cells disrupted by hyperglycemia. 1178 87

Leukocyte type 12-lipoxygenase (12-LO) is an enzyme specifically expressed in the beta cells of the pancreas. 12-LO oxidizes fatty acids such as arachidonic acid and linoleic acids to their respective hydroperoxides. Increased concentration of lipid hydroperoxides causes oxidative stress and this could lead to cellular dysfunction. Increased expression of 12-LO in beta cells has been observed with use of inflammatory cytokines and during the prediabetic phase of beta cell dysfunction in the Zucker diabetic fatty rat model. Also mice deficient in 12-LO expression show a decreased incidence of immune-mediated diabetes. To further understand the role of 12-LO in beta cell metabolism, we over-expressed mouse leukocyte type 12-LO in INS-1 cells (transformed rat beta cell line) using an adeno-associated virus (AAV) vector system. In 12-LO over-expressing cells, cell-associated 12-HETE levels increased approximately 5- and approximately 3-fold in the culture supernatant. In the cells over-expressing 12-LO, glucose-stimulated insulin secretion (GSIS) decreased by 25-30% one hour after exposure to high glucose (15mM). By 2h, GSIS decreased by 50-54% at high glucose levels. These data suggest that increased 12-LO products can reduce the synthesis, processing or secretion of insulin in beta cells. We next examined the effect of 12-LO over-expression on mitogen-activated protein kinases (MAPK) by Western blot analyses using antibodies specific for different phospho-MAP kinases. Over-expression of 12-LO led to an activation of c-Jun N-terminal kinase while it markedly reduced Erk1 and 2 phosphorylation (4-fold). Further, over-expression of 12-LO led to induction of apoptosis in beta cells as determined by DNA ladder assay. These results suggest that increased 12-LO plays a key role in altering beta cell metabolism. Thus, increased 12-LO expression can have a detrimental effect on pancreatic beta cell function and viability, suggesting that blockade of 12-LO activity or expression could provide a novel way to protect beta cells from inflammatory injury.
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PMID:Evidence that increased 12-lipoxygenase expression impairs pancreatic beta cell function and viability. 1291 66

12-Hydroperoxy-eicosatetraenoic acid (12-HpETE), the main hydroperoxide formed in platelets from arachidonic acid (AA) by 12-lipoxygenase, has been shown to increase the sensitivity of platelets to agonists resulting in increased aggregation. The aim of the present study was to determine the direct effect of low concentrations of 12-HpETE on the signaling pathways leading to AA release from membrane phospholipids and thromboxane A2 (TxA2) formation. Exogenous 12-HpETE activated platelet p38 mitogen-activated protein kinase (p38 MAPK), as assessed by its phosphorylation, at a concentration as low as 100 nM and was much more potent than hydrogen peroxide. Moreover, the incubation of platelets with 100 nM 12-HpETE for 2 min led to the phosphorylation of cytosolic phospholipase A2 (cPLA2). It was associated with a significant decrease in the concentration of AA esterified in phospholipids and an increased concentration of thromboxane B2, the stable catabolite of TxA2. Additionally, decreasing glutathione peroxidase activity pharmacologically favored endogenous 12-HpETE formation and led to an increase in phosphorylated p38 MAPK, while a thiol-reducing agent such as N-acetyl-cysteine fully prevented it. Finally, significant activation of p38 MAPK was also observed in platelets from type 2 diabetic patients with mild hyperglycemia. In conclusion, our data provide a new insight into the mechanism of 12-HpETE-induced platelet priming, suggesting that hydroperoxide-induced p38 MAPK activation could play a relevant role in the exacerbated platelet activation associated with oxidative stress as found in diabetes.
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PMID:Activation of p38 mitogen-activated protein kinase/cytosolic phospholipase A2 cascade in hydroperoxide-stressed platelets. 1295 54

The 12-lipoxygenase (12-LO) pathway of arachidonic acid metabolism is implicated in extracellular matrix (ECM) synthesis, but its role in podocytes has not been studied. This study tested whether 12-LO induction by diabetes or by high glucose (HG) in cultured podocytes alters glomerular basement membrane by activating signal transduction pathways culminating in ECM synthesis. Sprague-Dawley rats received an injection of diluent (control [C]) or streptozotocin 65 mg/kg (DM) and were killed at 1 or 4 mo. Glomerular 12-LO mRNA and protein levels were higher in DM than in C glomeruli at 1 and 4 mo, and 12-LO localized predominantly in podocytes. Glomerular p38 mRNA and protein were higher in DM at months 1 and 4, but phospho-p38 mitogen-activated protein (MAPK) was increased only at month 1. Glomerular collagen alpha5(IV)/glutaraldehyde-3-phosphate dehydrogenase (GAPDH) mRNA ratio was increased in DM at month 1 but not at month 4, whereas collagen alpha5(IV) protein was higher at both 1 and 4 mo. Mouse podocytes were cultured in media with 25 mM glucose (HG) with or without the 12-LO inhibitor cinnamyl-3,4-dihydroxy-cyanocinnamate (CDC) or with 5.5 mM glucose + 19.5 mM mannitol (low glucose [LG+M]) for 10 d at 37 degrees C. 12-LO mRNA and protein levels were higher in HG than in LG+M as was the p38 MAPK/GAPDH mRNA ratio. Phospho-p38 MAPK protein but not total p38 MAPK was higher in HG compared with LG+M. Collagen alpha5(IV)/GAPDH mRNA ratio and protein were higher in HG than in LG+M. 12-LO inhibition by CDC decreased HG-induced phospho-p38 MAPK and the phospho-p38/total p38 MAPK ratio, collagen alpha5(IV)/GAPDH mRNA ratio, and collagen alpha5(IV) protein expression. In summary, diabetes in vivo and exposure of podocytes to HG in vitro stimulated 12-LO, p38 MAPK, and collagen alpha5(IV) mRNA and (activated) protein. 12-LO inhibition by CDC diminished the expression of podocyte phospho-p38 MAPK and collagen alpha5(IV) mRNA and protein. These findings implicate 12-LO and the p38 MAPK signaling pathway in the mediation of ECM synthesis by podocytes in diabetes.
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PMID:Role of 12-lipoxygenase in the stimulation of p38 mitogen-activated protein kinase and collagen alpha5(IV) in experimental diabetic nephropathy and in glucose-stimulated podocytes. 1463 16

Arachidonic acid (AA) is a precursor of important vasoactive metabolites, but the role of AA-mediated vasodilation in Type 2 diabetes is not known. Using Zucker diabetic fatty (ZDF) rats, we examined the effects of AA in small mesenteric arteries preconstricted with endothelin. In ZDF rat mesenteric arteries, 1 microM AA produced only one-third the amount of dilation as in vessels from lean control animals. In lean control rats, the effect of AA was significantly and predominantly inhibited by the lipoxygenase inhibitors baicalein and cinnamyl-3,4-dihydroxy-cyanocinnamate (CDC). However, baicalein and CDC had no effect on AA-mediated dilation in ZDF rat mesenteric arteries. The major [3H]AA metabolite produced by isolated mesenteric arteries in both lean and ZDF rats was 12-hydroxyeicosatetraenoic acid (12-HETE), but the amount of [3H]12-HETE produced by ZDF rat vessels was only 36% of that of control vessels. In addition, 12-HETE produced similar amounts of dilation in lean and ZDF rat mesenteric arteries. Immunoblot analysis showed an 81% reduction in 12-lipoxygenase protein in ZDF rat mesenteric arteries. Immunofluorescence labeling showed strong nitrotyrosine signals in ZDF rat mesenteric arteries that colocalized with 12-lipoxygenase in endothelium, and 12-lipoxygenase coprecipitation with anti-nitrotyrosine antibodies was enhanced in ZDF rat vessels. We conclude that AA-mediated relaxation in ZDF rat small mesenteric arteries is impaired due to reduced 12-lipoxygenase protein and activity. Increased oxidative stress and nitration of 12-lipoxygenase may underlie the impairment of AA-mediated relaxation in small mesenteric arteries of diabetic rats.
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PMID:Impaired arachidonic acid-mediated dilation of small mesenteric arteries in Zucker diabetic fatty rats. 1562 91

Arachidonic acid metabolites, some of which may activate thromboxane A(2) receptors (TPr) and contribute to the development of diabetes complications, including nephropathy, are elevated in diabetes. This study determined the effect of blocking TPr with S18886 or inhibiting cyclooxygenase with aspirin on oxidative stress and the early stages of nephropathy in streptozotocin-induced diabetic apolipoprotein E(-/-) mice. Diabetic mice were treated with S18886 (5 mg . kg(-1) . day(-1)) or aspirin (30 mg . kg(-1) . day(-1)) for 6 weeks. Neither S18886 nor aspirin affected hyperglycemia or hypercholesterolemia. There was intense immunohistochemical staining for nitrotyrosine in diabetic mouse kidney. In addition, a decrease in manganese superoxide dismutase (MnSOD) activity was associated with an increase in MnSOD tyrosine-34 nitration. Tyrosine nitration was significantly reduced by S18886 but not by aspirin. Staining for the NADPH oxidase subunit p47(phox), inducible nitric oxide synthase, and 12-lipoxygenase was increased in diabetic mouse kidney, as were urine levels of 12-hydroxyeicosatetraenoic acid and 8-iso-prostaglandin F(2alpha). S18886 attenuated all of these markers of oxidant stress and inflammation. Furthermore, S18886 significantly attenuated microalbuminuria in diabetic mice and ameliorated histological evidence of diabetic nephropathy, including transforming growth factor-beta and extracellular matrix expression. Thus, in contrast to inhibiting cyclooxygenase, blockade of TPr may have therapeutic potential in diabetic nephropathy, in part by attenuating oxidative stress.
Diabetes 2006 Jan
PMID:The thromboxane receptor antagonist S18886 attenuates renal oxidant stress and proteinuria in diabetic apolipoprotein E-deficient mice. 1638 Apr 83

4-Hydroxy-2E-hexenal (4-HHE) and 4-hydroxy-2E-nonenal (4-HNE) have been characterized as prominent by-products of n-3 and n-6 hydroperoxy derivatives of n-3 and n-6 fatty acids, respectively. We also have characterized the homolog 4-hydroxy-2E,6Z-dodecadienal (4-HDDE) as a specific by-product of the 12-lipoxygenase product of arachidonic acid 12-hydroperoxy-eicosatetraenoate (12-HpETE). The three hydroxy-alkenals have been found in human plasma with 4-HHE being the most prominent followed by 4-HNE. They were found increased in tissues submitted to oxidative stress, according to the fatty acid characteristic of those tissues, e.g., 4-HNE and 4-HDDE in blood platelets and 4-HHE in the retina. We have shown they covalently bind to the primary amine moiety of ethanolamine phospholipids (PE), especially the plasmalogen subclass, with the highest hydrophobic alkenal (4-HDDE) being the most reactive. Their carboxylic acid metabolites, 4-hydroxy-2E-hexenoic acid (4-HHA), 4-hydroxy-2E-nonenoic acid (4-HNA) and 4-hydroxy-2E,6Z-dodecadienoic acid (4-HDDA), respectively, were found in human urine and measured in higher amounts in situations in which oxidative stress has been reported such as aging and diabetes. As reported above with their hydroxy-alkenals precursors, 4-HHA proved to be the most prominent followed by 4-HNA. Altogether, the three hydroxy-alkenals, either in their free form or bound to membrane PE, may be considered as specific markers of lipid peroxidation able to discriminate between n-3 and n-6 fatty acids. This is corroborated by the measurement of their urinary carboxylic acid metabolites.
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PMID:Hydroxy-alkenals from the peroxidation of n-3 and n-6 fatty acids and urinary metabolites. 1682 71

Chronic wounds remain a medical challenge, where well-coordinated cellular and molecular processes required by optimal healing are impaired by diabetes, aging, or other diseases. In determining mechanisms that regulate wound healing, we found that wounding induced formation of novel endogenous 14S,21S-dihydroxy-docosa-4Z,7Z,10Z,12E,16Z,19Z-hexaenoic acids (14S,21S-diHDHA);14R,21R-diHDHA; 14S,21R-diHDHA; and/or 14R,21S-diHDHA. 12-lipoxygenase and cytochrome P450 catalysis in tandem converted docosahexaenoic acid to 14S,21R-diHDHA and 14S,21S-diHDHA through the intermediacy of 14S-HDHA; P450 also converted 14R-HDHA to novel 14R,21R-diHDHA and 14R,21S-diHDHA. Macrophages function as the combination of 12-lipoxgenase and P450 to generate these 14,21-diHDHA stereoisomers, as well as their intermediates 14S-HDHA, 14R-HDHA, and 21-HDHA. The structure and formation pathways of 14,21-diHDHA stereoisomers were further confirmed by macrophage biosynthesis of 14,21-diHDHA-21,22,22,22-d(4) stereoisomers, 14S-HDHA-d(5), 14R-HDHA-d(5), and 21-HDHA-d(4) from DHA-21,21,22,22,22-d(5). We found that 14S,21-diHDHA and 14R,21-diHDHA enhanced wound closure, reepithelialization, granulation tissue growth, and capillary vasculature formation of murine wounds. 14S,21-diHDHA and 14R,21-diHDHA produced by macrophages may partially represent the molecular mechanisms for macrophage pro-healing function. Taken together, 14,21-dihydroxy-DHA stereoisomers and their formation pathways may represent a novel mechanism in the orchestration of wound healing processes, which may provide new insight for developing novel therapeutic modalities that counteract impairments to wound healing.
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PMID:Novel 14,21-dihydroxy-docosahexaenoic acids: structures, formation pathways, and enhancement of wound healing. 1996 12


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