Objective-Hyperuricemia is common in patients with metabolic syndrome. We investigated the role of xanthine oxidoreductase (XOR) in atherosclerosis development, and the effects of the XOR inhibitor allopurinol on this process. Methods and Results-Oral administration of allopurinol to ApoE knockout mice markedly ameliorated lipid accumulation and calcification in the aorta and aortic root. In addition, allopurinol treatment or siRNA-mediated gene knockdown of XOR suppressed transformation of J774.1 murine macrophage cells, treated with acetylated LDL or very low density lipoprotein (VLDL) into foam cells. This inhibitory effect of allopurinol was also observed in primary cultured human macrophages. In contrast, overexpression of XOR promoted transformation of J774.1 cells into foam cells. Interestingly, SR-A1, SR-B1, SR-B II, and VLDL receptors in J774.1 cells were reduced by XOR knockdown, and increased by XOR overexpression. Conversely, expressions of ABCA1 and ABCG1 were increased by XOR knockdown and suppressed by XOR overexpression. Finally, productions of inflammatory cytokines accompanied by foam cell formation were also reduced by allopurinol administration. Conclusion-These results strongly suggest XOR activity and/or its expression level to contribute to macrophage foam cell formation. Thus, XOR inhibitors may be useful for preventing atherosclerosis. Key Words: atherosclerosis Ⅲ cell physiology Ⅲ cytokines Ⅲ macrophages Ⅲ xanthine oxidoreductase A relationship between serum uric acid levels and atherosclerotic disease development has been suggested. [1][2][3] In addition, there is epidemiological evidence of an association between hyperuricemia and metabolic syndrome, 1 type 2 diabetes, 4 chronic kidney diseases, 5,6 heart failure incidence in older adults, 7 and with mortality in patients undergoing percutaneous coronary intervention or with acute myocardial infarction. 8 -10 Uric acid itself reportedly functions as an antioxidant, 11 though the process of uric acid synthesis is accompanied by the generation of reactive oxygen species.Xanthine oxidoreductase (XOR) is a key enzyme in the uric acid production pathway; XOR oxidizes hypoxanthine from nucleic acid metabolites into xanthine, and xanthine into uric acid. XOR basically oxidizes a variety of purines and pterins, classified as molybdenum iron-sulfur flavin hydroxylases. XOR tissue and cellular distributions are high in the mammalian liver and intestine due to XOR-rich parenchymal cells. 12 XOR activity is low in human serum, brain, heart, and skeletal muscle, though a recent study revealed microvascular endothelial cells to be rich in XOR activity. 13 It seems that XOR does not induce harmful reactive oxygen species production under normal conditions but in pathological states such as ischemic congestive heart failure, XOR activity increases drastically and XOR localizes within CD68 positive macrophages. 14 Allopurinol, a xanthine oxidase (XO) inhibitor, has been widely used for hyperuricemia treatment. Oxypurinol, a hydroxide and the main met...
Peptidyl-prolyl cis/trans isomerase NIMA-interacting 1 (Pin1) is a unique enzyme that associates with the pSer/Thr-Pro motif and catalyzes cis-trans isomerization. We identifiedIn good agreement with these in vitro data, Pin1 knock-out mice exhibited impaired insulin signaling with glucose intolerance, whereas adenoviral gene transfer of Pin1 into the ob/ob mouse liver mostly normalized insulin signaling and restored glucose tolerance. In addition, it was also demonstrated that Pin1 plays a critical role in adipose differentiation, making Pin1 knock-out mice resistant to diet-induced obesity. Importantly, Pin1 expression was shown to be up-regulated in accordance with nutrient conditions such as food intake or a high-fat diet. Taken together, these observations indicate that Pin1 binds to IRS-1 and thereby markedly enhances insulin action, essential for adipogenesis.
Sex hormone-binding globulin (SHBG) is a serum protein released mainly by the liver, and a low serum level correlates with a risk for metabolic syndrome including diabetes, obesity, and cardiovascular events. However, the underlying molecular mechanism(s) linking SHBG and metabolic syndrome remains unknown. In this study, using adipocytes and macrophages, we focused on the in vitro effects of SHBG on inflammation as well as lipid metabolism. Incubation with 20 nM SHBG markedly suppressed lipopolysaccharide- (LPS-) induced inflammatory cytokines, such as MCP-1, TNFα, and IL-6 in adipocytes and macrophages, along with phosphorylations of JNK and ERK. Anti-inflammatory effects were also observed in 3T3-L1 adipocytes cocultured with LPS-stimulated macrophages. In addition, SHBG treatment for 18 hrs or longer significantly induced the lipid degradation of differentiated 3T3-L1 cells, with alterations in its corresponding gene and protein levels. Notably, these effects of SHBG were not altered by coaddition of large amounts of testosterone or estradiol. In conclusion, SHBG suppresses inflammation and lipid accumulation in macrophages and adipocytes, which might be among the mechanisms underlying the protective effect of SHBG, that is, its actions which reduce the incidence of metabolic syndrome.
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