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Showing papers on "Xanthine published in 2017"


Journal ArticleDOI
TL;DR: The aim of this study was the electrochemical detection of the adenosine-3-phosphate degradation product, xanthine, using a newxanthine biosensor based on a hybrid bio-nanocomposite platform which has been successfully employed in the evaluation of meat freshness.

83 citations


Journal ArticleDOI
01 Feb 2017-Gut
TL;DR: Caffeine and its dimethylxanthine metabolites reduced pathological IP3R-mediated pancreatic acinar Ca2+ signals but only caffeine ameliorated experimental AP.
Abstract: Objective Caffeine reduces toxic Ca 2+ signals in pancreatic acinar cells via inhibition of inositol 1,4,5-trisphosphate receptor (IP 3 R)-mediated signalling, but effects of other xanthines have not been evaluated, nor effects of xanthines on experimental acute pancreatitis (AP). We have determined effects of caffeine and its xanthine metabolites on pancreatic acinar IP 3 R-mediated Ca 2+ signalling and experimental AP. Design Isolated pancreatic acinar cells were exposed to secretagogues, uncaged IP 3 or toxins that induce AP and effects of xanthines, non-xanthine phosphodiesterase (PDE) inhibitors and cyclic adenosine monophosphate and cyclic guanosine monophosphate (cAMP/cGMP) determined. The intracellular cytosolic calcium concentration ([Ca 2+ ] C ), mitochondrial depolarisation and necrosis were assessed by confocal microscopy. Effects of xanthines were evaluated in caerulein-induced AP (CER-AP), taurolithocholic acid 3-sulfate-induced AP (TLCS-AP) or palmitoleic acid plus ethanol-induced AP (fatty acid ethyl ester AP (FAEE-AP)). Serum xanthines were measured by liquid chromatography-mass spectrometry. Results Caffeine, dimethylxanthines and non-xanthine PDE inhibitors blocked IP 3 -mediated Ca 2+ oscillations, while monomethylxanthines had little effect. Caffeine and dimethylxanthines inhibited uncaged IP 3 -induced Ca 2+ rises, toxin-induced Ca 2+ release, mitochondrial depolarisation and necrotic cell death pathway activation; cAMP/cGMP did not inhibit toxin-induced Ca 2+ rises. Caffeine significantly ameliorated CER-AP with most effect at 25 mg/kg (seven injections hourly); paraxanthine or theophylline did not. Caffeine at 25 mg/kg significantly ameliorated TLCS-AP and FAEE-AP. Mean total serum levels of dimethylxanthines and trimethylxanthines peaked at >2 mM with 25 mg/kg caffeine but at Conclusions Caffeine and its dimethylxanthine metabolites reduced pathological IP 3 R-mediated pancreatic acinar Ca 2+ signals but only caffeine ameliorated experimental AP. Caffeine is a suitable starting point for medicinal chemistry.

79 citations


Journal ArticleDOI
TL;DR: In this paper, a review of the occurrence of uric acid in plants and other organisms specially microorganisms in addition to the mechanisms by which plant extracts, metabolites and enzymes could reduce uric acids in blood.

58 citations


Journal ArticleDOI
TL;DR: The present study has shown that XOR activity is correlated with serum UA levels in humans, and even in young subjects, XOR activities are correlated with insulin resistance, BMI, and subclinical inflammation.
Abstract: Background and Aims The enzyme xanthine oxidoreductase (XOR) catalyzes the formation of uric acid (UA) from hypoxanthine and xanthine, which in turn are products of purine metabolism starting from ribose-5-phosphate. Besides the synthesis of UA, basic research has suggested that XOR is involved in the regulation of reactive oxygen species, adipogenesis, and peroxisome proliferator-activated receptor-γ (PPAR-γ). XOR activity has shown to be much lower in humans than in rodents, which makes its accurate measurement difficult. Recently, a novel human plasma XOR activity assay has been established using a combination of liquid chromatography (LC) and triple quadrupole mass spectrometry (TQMS) to detect [ 13 C 2 , 15 N 2 ]UA using [ 13 C 2 , 15 N 2 ]xanthine as a substrate. Using this novel assay, we for the first time determine plasma XOR activity in humans, and evaluate its association with insulin resistance, high-sensitivity C-reactive protein (hsCRP) levels, and other parameters. Methods Of the 29 volunteers who wished to participate in the study, 3 were excluded; of the remaining, 11 were female and 15 were male with a mean age of 25.9 ± 3.3 years. Blood samples were collected under fasting conditions in the early morning to measure XOR activity and other parameters. Results The natural logarithmic value of XOR activity (ln-XOR) in plasma was 3.4 ± 0.8 pmol/h/mL. Ln-XOR had a positive correlation with UA and body mass index (BMI) and a negative correlation with quantitative insulin sensitivity check index (QUICKI) and adiponectin. In addition, ln-XOR had a positive correlation with hsCRP levels, which serves as a marker of chronic inflammation. Conclusions The present study has shown that XOR activity is correlated with serum UA levels in humans. Furthermore, even in young subjects, XOR activity is correlated with insulin resistance, BMI, and subclinical inflammation. Thus, XOR activity may be potentially involved in adiposity and subclinical inflammation in humans.

55 citations


Book ChapterDOI
01 Jan 2017
TL;DR: The in planta role of caffeine in chemical defense that has been demonstrated using transgenic caffeine-forming tobacco and chrysanthemum plants, which are resistant to attack by pathogens and herbivores are considered.
Abstract: Caffeine is a xanthine alkaloid found in non-alcoholic beverages such as tea, coffee, and cocoa. It was discovered in tea and coffee in the 1820s, but it was not until 2000 that details of molecular events associated with caffeine biosynthesis began to be unraveled. Reviewed are the occurrence of xanthine alkaloids in the plant kingdom and the elucidation of the caffeine biosynthesis pathway, providing details of the N-methyltransferases, belonging to the motif B′ methyltransferase family, which catalyze three steps in the four-step pathway leading from xanthosine to caffeine. Pathways for the metabolism and degradation of xanthine alkaloids are discussed, although as yet the genes and enzymes involved have not been isolated. This chapter also considers the in planta role of caffeine in chemical defense that has been demonstrated using transgenic caffeine-forming tobacco and chrysanthemum plants, which are resistant to attack by pathogens and herbivores. Finally, future research is considered that might lead to the production of naturally decaffeinated beverages and agricultural crops that contain elevated levels of “natural” pesticides.

43 citations


Journal ArticleDOI
TL;DR: In this paper, a glassy carbon electrode modified with an electropolymerised film of para amino benzene sulfonic acid was used for the determination of xanthine, theophylline and caffeine.
Abstract: Xanthine and its methyl derivatives, theophylline and caffeine are purines which find important roles in biological systems. The simultaneous voltammetric behaviour of these purines has been studied on a glassy carbon electrode modified with an electropolymerised film of para amino benzene sulfonic acid. Well defined and well separated peaks were obtained for the oxidation of xanthine, theophylline and caffeine on the polymer modified electrode in the square wave mode. The experimental requirements to obtain the best results for individual as well as simultaneous determination were optimised. The signal for the electro-oxidation was found to be free of interferences from each other in the range 0.9 – 100 μM in the case of xanthine and from 10–100 μM in the case of theophylline and caffeine with detection limits 0.35 μM, 7.02 μM and 11.95 μM respectively. The simultaneous determination of uric acid, the final metabolic product of xanthine oxidation in biological systems could also be accomplished along with xanthine, theophylline and caffeine atphysiological pH. The mechanistic aspects of the electro-oxidation on the polymer modified electrode was also studied using linear sweep voltammetry. Chronoamperometry was employed to determine the diffusion coefficient of these xanthines. The developed sensor has been successfully demonstrated to be suitable for the determination of these compounds in real samples without much pre-treatment.

39 citations


Journal ArticleDOI
TL;DR: The results suggest that J99745 exerts urate-lowering effect by inhibiting XOD activity and URAT1 expression, thus representing a promising candidate as an anti-hyperuricemia agent.

34 citations


Journal ArticleDOI
TL;DR: In this paper, a facile strategy for detecting xanthine in serum samples by copper nanocluster (CuNCs) with high intrinsic peroxidase-like activity was reported.
Abstract: A facile strategy for detecting xanthine in serum samples by copper nanocluster (CuNCs) with high intrinsic peroxidase-like activity was reported. Firstly, a simple, mild and time-saving method for preparing CuNCs was developed, in which dithiothreitol (DTT) and bovine serum albumin (BSA) were used as reductant and stabilizer, respectively. The as-prepared CuNCs exhibited a fluorescence emission at 590 nm with a quantum yield (QY) of approximately 5.29%, the fluorescence intensity of the as-prepared CuNCs exhibited no considerable change when stored under ambient condition with the lifetime is 1.75 μs. Moreover, the as-prepared CuNCs exhibited high intrinsic peroxidase-like activity with lower K m (K m = 8.90 × 10−6 mol L−1) for H2O2, which indicated that CuNCs have a higher affinity for H2O2. Compared with natural enzyme, the as-synthesized CuNCs are more catalytic stable over a wide range of pH (4.0~13.0) and temperature (4~80 °C). Finally, an indirect method for sensing xanthine was established because xanthine oxidase can catalyse the oxidation of xanthine to produce H2O2. Xanthine could be detected as low as 3.8 × 10−7 mol L−1 with a linear range from 5.0 × 10−7 to 1.0 × 10−4 mol L−1. These results proved that the proposed method is sensitive and accurate and could be successfully applied to the determination of xanthine in the serum sample with satisfaction.

32 citations


Journal ArticleDOI
TL;DR: Metal oxide nanomaterial exposure may compromise the methylation, glucuronidation and reduced glutathione conjugation systems; thus Phase II conjugational capacity of hepatocytes may be decreased.
Abstract: To better assess potential hepatotoxicity of nanomaterials, human liver HepG2 cells were exposed for 3 days to five different CeO2 (either 30 or 100 μg/ml), 3 SiO2 based (30 μg/ml) or 1 CuO (3 μg/ml) nanomaterials with dry primary particle sizes ranging from 15 to 213 nm. Metabolomic assessment of exposed cells was then performed using four mass spectroscopy dependent platforms (LC and GC), finding 344 biochemicals. Four CeO2, 1 SiO2 and 1 CuO nanomaterials increased hepatocyte concentrations of many lipids, particularly free fatty acids and monoacylglycerols but only CuO elevated lysolipids and sphingolipids. In respect to structure-activity, we now know that five out of six tested CeO2, and both SiO2 and CuO, but zero out of four TiO2 nanomaterials have caused this elevated lipids effect in HepG2 cells. Observed decreases in UDP-glucuronate (by CeO2) and S-adenosylmethionine (by CeO2 and CuO) and increased S-adenosylhomocysteine (by CuO and some CeO2) suggest that a nanomaterial exposure increases transmethylation reactions and depletes hepatic methylation and glucuronidation capacity. Our metabolomics data suggests increased free radical attack on nucleotides. There was a clear pattern of nanomaterial-induced decreased nucleotide concentrations coupled with increased concentrations of nucleic acid degradation products. Purine and pyrimidine alterations included concentration increases for hypoxanthine, xanthine, allantoin, urate, inosine, adenosine 3′,5′-diphosphate, cytidine and thymidine while decreases were seen for uridine 5′-diphosphate, UDP-glucuronate, uridine 5′-monophosphate, adenosine 5′-diphosphate, adenosine 5′-monophophate, cytidine 5′-monophosphate and cytidine 3′-monophosphate. Observed depletions of both 6-phosphogluconate, NADPH and NADH (all by CeO2) suggest that the HepG2 cells may be deficient in reducing equivalents and thus in a state of oxidative stress. Metal oxide nanomaterial exposure may compromise the methylation, glucuronidation and reduced glutathione conjugation systems; thus Phase II conjugational capacity of hepatocytes may be decreased. This metabolomics study of the effects of nine different nanomaterials has not only confirmed some observations of the prior 2014 study (lipid elevations caused by one CeO2 nanomaterial) but also found some entirely new effects (both SiO2 and CuO nanomaterials also increased the concentrations of several lipid classes, nanomaterial induced decreases in S-adenosylmethionine, UDP-glucuronate, dipeptides, 6-phosphogluconate, NADPH and NADH).

30 citations


Journal ArticleDOI
TL;DR: Xanthine oxidase induces foam cell formation in large part through activation of LOX-1 - NLRP3 pathway in both VSMCs and THP-1 cells, but uric acid-induced foam cells formation is exclusively through CD36 pathway.
Abstract: Xanthine oxidase catalyzes the oxidation of xanthine to uric acid. This process generates excessive reactive oxygen species (ROS) that play an important role in atherogenesis. Recent studies show that LRR and PYD domains-containing protein 3 (NLRP3), a component of the inflammasome, may be involved in the formation of foam cells, a hallmark of atherosclerosis. This study was designed to study the role of various scavenger receptors and NLRP3 inflammasome in xanthine oxidase and uric acid-induced foam cell formation. Human vascular smooth muscle cells (VSMCs) and THP-1 macrophages were treated with xanthine oxidase or uric acid. Xanthine oxidase treatment (of both VSMCs and THP-1 cells) resulted in foam cell formation in concert with generation of ROS and expression of cluster of differentiation 36 (CD36) and oxidized low density lipoprotein (lectin-like) receptor 1 (LOX-1), but not of scavenger receptor A (SRA). Uric acid treatment resulted in foam cell formation, ROS generation and expression of CD36, but not of LOX-1 or SRA. Further, treatment of cells with xanthine oxidase, but not uric acid, activated NLRP3 and its downstream pro-inflammatory signals- caspase-1, interleukin (IL)-1β and IL-18. Blockade of LOX-1 or NLRP3 inflammasome with specific siRNAs reduced xanthine oxidase-induced foam cell formation, ROS generation and activation of NLRP3 and downstream signals. Xanthine oxidase induces foam cell formation in large part through activation of LOX-1 - NLRP3 pathway in both VSMCs and THP-1 cells, but uric acid-induced foam cell formation is exclusively through CD36 pathway. Further, LOX-1 activation is upstream of NLRP3 activation.

29 citations


Journal ArticleDOI
TL;DR: Several prop-2-ynylated C8-aryl or heteroaryl substitutions on xanthine chemotype were explored and found that 1-prop-2 -ynyl-1H-pyrazol-4-yl moiety was better tolerated at the C8 position and provided better selectivity for A2BAdoR compared to that of para-substituted analogs.

Journal ArticleDOI
TL;DR: Findings demonstrate BPA promotes hyperuricemia by increasing hepatic uric acid synthesis via the activation of XO, probably through direct binding.
Abstract: The prevalence of hyperuricemia has increased rapidly over the past decades. Bisphenol A (BPA) is an environmental endocrine disruptor. We investigated the effects of BPA on uric acid metabolism and its potential mechanisms. Experiments were performed in different animal models, cell cultures, and humans. In 3 different animal models, BPA exposure increased serum and hepatic uric acid with enhanced activity of xanthine oxidase (XO) in liver, whereas the excretion of uric acid was unchanged. Both in vivo and in vitro, BPA-induced uric acid production was decreased after treatment with allopurinol, which is a XO inhibitor. XO led to the accumulation of uric acid after xanthine was added, with the enzyme-catalyzed reaction, which was enhanced by BPA. Altered secondary structures of XO were found by circular dichroism analysis in the conditions of different BPA concentrations. Molecular docking portrayed Asp360 and Lys422 of XO to be the preferred binding sites for BPA. Mutation of both sites significantly blocked the effect of BPA on XO activity. In humans, patients with hyperuricemia exhibited higher levels of serum BPA than subjects without hyperuricemia. These findings demonstrate BPA promotes hyperuricemia by increasing hepatic uric acid synthesis via the activation of XO, probably through direct binding.-Ma, L., Hu, J., Li, J., Yang, Y., Zhang, L., Zou, L., Gao, R., Peng, C., Wang, Y., Luo, T., Xiang, X., Qing, H., Xiao, X., Wu, C., Wang, Z., He, J. C., Li, Q., Yang, S. Bisphenol A promotes hyperuricemia via activating xanthine oxidase.

Journal ArticleDOI
TL;DR: This study may provide new insights into the inhibition mechanism of the Cu(II)-chrysin complex as a promising XO inhibitor and its potential application for the treatment of hyperuricemia.

Journal ArticleDOI
01 Sep 2017-PLOS ONE
TL;DR: The results suggest that the active production of uric acid from human airway epithelial cells may be intrinsically altered in asthma and be further induced by pro-inflammatory cytokines.
Abstract: Introduction The airway epithelium is a physical and immunological barrier that protects the pulmonary system from inhaled environmental insults. Uric acid has been detected in the respiratory tract and can function as an antioxidant or damage associated molecular pattern. We have demonstrated that human airway epithelial cells are a source of uric acid. Our hypothesis is that uric acid production by airway epithelial cells is induced by environmental stimuli associated with chronic respiratory diseases. We therefore examined how airway epithelial cells regulate uric acid production. Materials and methods Allergen and cigarette smoke mouse models were performed using house dust mite (HDM) and cigarette smoke exposure, respectively, with outcome measurements of lung uric acid levels. Primary human airway epithelial cells isolated from clinically diagnosed patients with asthma and chronic obstructive pulmonary disease (COPD) were grown in submerged cultures and compared to age-matched healthy controls for uric acid release. HBEC-6KT cells, a human airway epithelial cell line, were grown under submerged monolayer conditions for mechanistic and gene expression studies. Results HDM, but not cigarette smoke exposure, stimulated uric acid production in vivo and in vitro. Primary human airway epithelial cells from asthma, but not COPD patients, displayed elevated levels of extracellular uric acid in culture. In HBEC-6KT, production of uric acid was sensitive to the xanthine dehydrogenase (XDH) inhibitor, allopurinol, and the ATP Binding Cassette C4 (ABCC4) inhibitor, MK-571. Lastly, the pro-inflammatory cytokine combination of TNF-α and IFN-γ elevated extracellular uric acid levels and XDH gene expression in HBEC-6KT cells. Conclusions Our results suggest that the active production of uric acid from human airway epithelial cells may be intrinsically altered in asthma and be further induced by pro-inflammatory cytokines.

Journal ArticleDOI
TL;DR: An interesting shift towards pro-inflammatory molecules (uric acid) in the purinergic pathway associated with a decrease in anti-oxidant level (ascorbic acid), which fit well with the increased oxidative stress and neuroinflammation commonly observed in AD.

Journal ArticleDOI
TL;DR: The authors' quantum chemical investigations suggest that a multistep reaction mechanism involving purine cation, hydroxyl and amino radicals, together with water and ammonia, explains the experimentally obtained products in an independent study.
Abstract: We investigated the formation mechanisms of the nucleobases adenine and guanine and the nucleobase analogues hypoxanthine, xanthine, isoguanine, and 2,6-diaminopurine in a UV-irradiated mixed 10:1 H2O:NH3 ice seeded with precursor purine by using ab initio and density functional theory computations. Our quantum chemical investigations suggest that a multistep reaction mechanism involving purine cation, hydroxyl and amino radicals, together with water and ammonia, explains the experimentally obtained products in an independent study. The relative abundances of these products appear to largely follow from relative thermodynamic stabilities. The key role of the purine cation is likely to be the reason why purine is not functionalized in pure ammonia ice, where cations are promptly neutralized by free electrons from NH3 ionization. Amine group addition to purine is slightly favored over hydroxyl group attachment based on energetics, but hydroxyl is much more abundant due to higher abundance of H2O. The amino group is preferentially attached to the 6 position, giving 6-aminopurine, that is, adenine, while the hydroxyl group is preferentially attached to the 2 position, leading to 2-hydroxypurine. A second substitution by hydroxyl or amino group occurs at either the 6 or the 2 position depending on the first substitution. Given that H2O is far more abundant than NH3 in the experimentally studied ices (as well as based on interstellar abundances), xanthine and isoguanine are expected to be the most abundant bi-substituted photoproducts. Key Words: Astrophysical ice-Abiotic organic synthesis-Nucleic acids-Origin of life-RNA world. Astrobiology 17, 771-785.

Journal ArticleDOI
TL;DR: The total alkaloids of Nelumbinis folium could inhibit XOD activity significantly and roemerine was a potential active ligand, which could be considered as a meaningful research for the development of XOD inhibitor rapidly and sensitively.

Journal ArticleDOI
TL;DR: It is suggested that glycemic control in hemodialysis patients may be important in regard to a decrease in ROS induced by XOR, as well as factors associated with plasma XOR-a, in those without type 2 diabetes mellitus.
Abstract: Xanthine oxidoreductase activity (XOR-a) plays an important role as a pivotal source of reactive oxygen species. In the present study, we investigated factors associated with plasma XOR-a in 163 hemodialysis patients (age 67.3 ± 10.9 years; 89 males and 74 females), using a newly established, highly-sensitive assay based on [13C2,15N2] xanthine and liquid chromatography/triple quadrupole mass spectrometry. Plasma glucose and serum uric acid levels correlated significantly and positively with plasma XOR-a. In multiple regression analyses, the presence of type 2 diabetes mellitus (T2DM) and plasma glucose were associated significantly, independently, and positively with plasma XOR-a. While serum uric acid correlated significantly and positively with plasma XOR-a in hemodialysis patients without T2DM, plasma glucose and serum glycated albumin, a new marker of glycemic control in diabetic hemodialysis patients, correlated significantly and positively with plasma XOR-a in those with T2DM. Multivariate analyses in those with T2DM revealed that plasma glucose and serum glycated albumin were associated significantly and independently with plasma XOR-a, and that serum uric acid was associated significantly and independently with XOR-a in those without T2DM. Our results suggested that glycemic control in hemodialysis patients may be important in regard to a decrease in ROS induced by XOR.

Journal ArticleDOI
TL;DR: A simple reversed phase HPLC method with UV detection in isocratic conditions was developed and validated for the simultaneous determination of hypoxanthine, xanthine and uric acid levels in human plasma and serum.
Abstract: A simple reversed phase HPLC method with UV detection in isocratic conditions was developed and validated for the simultaneous determination of hypoxanthine, xanthine and uric acid levels in human plasma and serum. One analysis run takes 6.5 min including a short organic mobile phase gradient for column regeneration. Concentrations of uric acid, xanthine and hypoxanthine in plasma and serum samples were highly comparable. However, hypoxanthine levels were increased in serum compared to plasma samples due to a prolonged time between serum and blood elements separation. The method was validated for linearity, precision, accuracy, sensitivity and robustness in a similar manner to that for pharmacokinetic data and it is appropriate for physiological and pathophysiological levels of all analytes. The stability of stock standard solutions was verified using spectrophotometric analysis in different conditions. The method is simple and robust with a good precision for the measurement of hypoxanthine, xanthine and uric acid in human plasma and serum.


Journal ArticleDOI
TL;DR: An assay system for UA production in vitro employing cultured AML12 hepatocytes is considered to be useful to search for novel anti-hyperuricemic compounds in foods and natural resources with possibility to have human health benefits.
Abstract: Hyperuricemia is characterized by the high uric acid (UA) level in serum (or plasma) and has been considered to be an important risk factor for gout. In the present study, we have attempted to construct an assay system for UA production in vitro employing cultured AML12 hepatocytes. UA levels in balanced salt solution (BSS) in the presence of UA precursor nucleosides, adenosine, inosine, guanosine and xanthine, at 12.5, 25, and 100 µM were significantly higher than BSS alone and their effects were dose-dependent, while all the UA precursors did not significantly increase intracellular UA levels. Hence, UA levels in BSS were thereafter adopted as an index of UA production. UA production from nucleosides was significantly higher than that from nucleotides (GMP, IMP and AMP). UA production from guanosine and inosine in combination (GI mixture) as well as nucleosides increased time-dependently and almost linearly up to 2 h. Selecting GI mixture, effects of allopurinol, a widely used anti-hyperuricemic agent, and quercetin, a well-known polyphenol in onion and strawberry, on UA production were examined. Both allopurinol and quercetin dose-dependently (0.1, 0.3 and 1 μM for allopurinol and 10, 30, and 100 μM for quercetin) and significantly reduced UA production in the hepatocytes. They also significantly reduced hyperuricemia induced by intraperitoneal injection of UA precursor purine bodies to mice at a single oral dose of 10 (allopurinol) or 200 (quercetin) mg/kg body weight. This assay system for UA production in cultured hepatocytes is considered to be useful to search for novel anti-hyperuricemic compounds in foods and natural resources with possibility to have human health benefits.

Journal ArticleDOI
TL;DR: In school-age children, uric acids and the ratios of uric acid/xanthine and xanthine/hypoxanthine were significantly associated with DBP z-scores, suggesting that, both uric Acid concentration and increased XO activity are associated with BP.
Abstract: Objective:Elevated serum uric acid concentration has been associated with high blood pressure (BP) and hypertension. A putative underlying mechanism is the accumulation of reactive oxygen species when uric acid is generated by an increased enzyme activity of xanthine oxidase (XO). The aims of the pr

Journal ArticleDOI
TL;DR: A novel method by assembling a multi-hyphenated high performance liquid chromatography (HPLC) system that combines a photo-diode array, chemiluminescence detector and a HPLC system with a variable wavelength detector to simultaneously detect components that act as both XOIs and superoxide anion scavengers in natural products is developed.

Journal ArticleDOI
TL;DR: The results show that ABCG2 transports oxypur inol, an active metabolite of allopurinol, whereas allopURinol and febuxostat, a new xanthine dehydrogenase inhibitor, are not substrates ofABCG2.

Journal ArticleDOI
TL;DR: The present and previous data led us to propose that adenosine might be able to stimulate the metabolism of ethanol through different pathways, and it was concluded that the H2O2 needed for catalase activity is derived from the oxidation of (hypo)xanthine by xanthine oxidase and the oxide of urate by uricase.

Journal ArticleDOI
TL;DR: A successful hunting process of compounds/drugs for hyperuricemia through virtual screening is demonstrated, supporting a potential usage of olsalazine sodium in the treatment of hyperURicemia.

Journal ArticleDOI
TL;DR: The data demonstrate that X DH1 plays an essential role and that XDH1 has the potential to be used as a metabolic target for Ae.
Abstract: Aedesaegypti has 2 genes encoding xanthine dehydrogenase (XDH). We analyzed XDH1 and XDH2 gene expression by real-time quantitative PCR in tissues from sugar- and blood-fed females. Differential XDH1 and XDH2 gene expression was observed in tissues dissected throughout a time course. We next exposed females to blood meals supplemented with allopurinol, a well-characterized XDH inhibitor. We also tested the effects of injecting double-stranded RNA (dsRNA) against XDH1, XDH2, or both. Disruption of XDH by allopurinol or XDH1 by RNA interference significantly affected mosquito survival, causing a disruption in blood digestion, excretion, oviposition, and reproduction. XDH1-deficient mosquitoes showed a persistence of serine proteases in the midgut at 48 h after blood feeding and a reduction in the uptake of vitellogenin by the ovaries. Surprisingly, analysis of the fat body from dsRNA-XDH1-injected mosquitoes fell into 2 groups: one group was characterized by a reduction of the XDH1 transcript, whereas the other group was characterized by an up-regulation of several transcripts, including XDH1, glutamine synthetase, alanine aminotransferase, catalase, superoxide dismutase, ornithine decarboxylase, glutamate receptor, and ammonia transporter. Our data demonstrate that XDH1 plays an essential role and that XDH1 has the potential to be used as a metabolic target for Ae.aegypti vector control.-Isoe, J., Petchampai, N., Isoe, Y. E., Co, K., Mazzalupo, S., Scaraffia, P. Y. Xanthine dehydrogenase-1 silencing in Aedes aegypti mosquitoes promotes a blood feeding-induced adulticidal activity.

Journal ArticleDOI
TL;DR: A rapid and highly sensitive "dilute-and-shoot" method combining ultra-high-performance liquid chromatography and high-resolution mass spectrometry (UHPLC/HRMS) was validated for urinary determination of twelve analytes, which are the major physiological metabolites of caffeine, theobromine or theophylline, or final products of purine catabolism.

Journal ArticleDOI
TL;DR: The results show that the drug carrying capacity of the albumins can be significantly modulated with metal NPs towards desired pharmacokinetic and therapeutic applications without compromising the basic structure; and therefore, the function of the proteins.