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Inhibition of xanthine oxidase by the aldehyde oxidase inhibitor raloxifene: Implications for identifying molybdopterin nitrite reductases

机译：醛氧化酶抑制剂雷洛昔芬对黄嘌呤氧化酶的抑制作用：鉴定钼蝶呤亚硝酸盐还原酶的意义

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Sources of nitric oxide alternative to nitric oxide synthases are gaining significant traction as crucial mediators of vessel function under hypoxic inflammatory conditions. For example, capacity to catalyze the one electron reduction of nitrite (

{NO}_{2}^{-}

) to ^•NO has been reported for hemoglobin, myoglobin and molybdopterin-containing enzymes including xanthine oxidoreductase (XOR) and aldehyde oxidase (AO). For XOR and AO, use of selective inhibition strategies is therefore crucial when attempting to assign relative contributions to nitrite-mediated ^•NO formation in cells and tissue. To this end, XOR inhibition has been accomplished with application of classic pyrazolopyrimidine-based inhibitors allo/oxypurinol or the newly FDA-approved XOR-specific inhibitor, Uloric^® (febuxostat). Likewise, raloxifene, an estrogen receptor antagonist, has been identified as a potent (Ki = 1.0 nM) inhibitor of AO. Herein, we characterize the inhibition kinetics of raloxifene for XOR and describe the resultant effects on inhibiting XO-catalyzed ^•NO formation. Exposure of purified XO to raloxifene (PBS, pH 7.4) resulted in a dose-dependent (12.5–100 μM) inhibition of xanthine oxidation to uric acid. Dixon plot analysis revealed a competitive inhibition process with a Ki = 13 μM. This inhibitory process was more effective under acidic pH; similar to values encountered under hypoxic/inflammatory conditions. In addition, raloxifene also inhibited anoxic XO-catalyzed reduction of

{NO}_{2}^{-}

to ^•NO (EC50 = 64 μM). In contrast to having no effect on XO-catalyzed uric acid production, the AO inhibitor menadione demonstrated potent inhibition of XO-catalyzed

{NO}_{2}^{-}

reduction (EC50 = 60 nM); somewhat similar to the XO-specific inhibitor, febuxostat (EC50 = 4 nM). Importantly, febuxostat was found to be a very poor inhibitor of human AO (EC50 = 613 μM) suggesting its usefulness for validating XO-dependent contributions to

{NO}_{2}^{-}

reduction in biological systems. Combined, these data indicate care should be taken when choosing inhibition strategies as well as inhibitor concentrations when assigning relative

{NO}_{2}^{-}

reductase activity of AO and XOR.

机译：作为缺氧性炎症条件下血管功能的关键介质，一氧化氮替代一氧化氮合酶的来源正获得广泛的关注。例如，催化亚硝酸盐的一次电子还原的能力（

{已有报道称}_{NO2-为• NO含有钼蝶呤的酶，包括黄嘌呤氧化还原酶（XOR）和醛氧化酶（AO）。因此，对于XOR和AO，在试图为细胞和组织中亚硝酸盐介导的 • NO形成分配相对贡献时，使用选择性抑制策略至关重要。为此，可以通过使用经典的基于吡唑并嘧啶的抑制剂异源/氧嘌呤醇或新的FDA批准的XOR特异性抑制剂Uloric ® （非布索坦）来实现XOR抑制。同样，雷洛昔芬（一种雌激素受体拮抗剂）已被确定为一种有效的AO抑制剂（Ki = 1.0 nM）。在本文中，我们表征了雷洛昔芬对XOR的抑制动力学，并描述了由此产生的抑制XO催化的 • NO形成的作用。将纯化的XO暴露于雷洛昔芬（PBS，pH 7.4）会导致剂量依赖性（12.5- 100μM）抑制黄嘌呤氧化成尿酸。 Dixon图分析显示Ki = 13μM的竞争性抑制过程。这种抑制过程在酸性pH下更有效。类似于在低氧/炎症条件下遇到的值。此外，雷洛昔芬还抑制XO催化的缺氧还原 {< mtext> NO}_{2-变为• NO（EC50 = 64μM）。与对XO催化的尿酸生成没有影响相反，AO抑制剂甲萘醌证明对XO催化的 NO2-减少（EC50 = 60 nM ）;有点类似于XO特异性抑制剂非布索坦（EC50 = 4 nM）。重要的是，发现非布索坦是人类AO的非常差的抑制剂（EC50 = 613μM），表明其对验证XO依赖性对否2-减少在生物系统中。综合起来，这些数据表明在选择抑制策略以及分配相对NO2-的AO和XOR还原酶活性。}}

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期刊名称 other
作者
E.R. Weidert; S.O. Schoenborn; N. Cantu-Medellin; K.V. Choughule; J.P. Jones; E.E. Kelley;
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作者单位

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年(卷),期 -1(37),-1
年度 -1
页码 41–45
总页数 10
原文格式 PDF
正文语种
中图分类
关键词
Aldehyde oxidase Nitrite Xanthine oxidoreductase Raloxifene Nitric oxide Febuxostat;

机译：醛氧化酶;亚硝酸盐;黄嘌呤氧化还原酶;雷洛昔芬;一氧化氮;非布索坦;

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1. Inhibition of xanthine oxidase by the aldehyde oxidase inhibitor raloxifene: Implications for identifying molybdopterin nitrite reductases [J] . E.R. Weidert, S.O. Schoenborn, N. Cantu-Medellin, Nitric oxide: Biology and chemistry . 2014,第Null期

机译：醛氧化酶抑制剂雷洛昔芬对黄嘌呤氧化酶的抑制作用：鉴定钼蝶呤亚硝酸盐还原酶的意义
2. Nitrite Reductase Activity of Rat and Human Xanthine Oxidase, Xanthine Dehydrogenase, and Aldehyde Oxidase: Evaluation of Their Contribution to NO Formation in Vivo [J] . Maia Luisa B., Pereira Vania, Mira Lurdes, Biochemistry . 2015,第3期

机译：大鼠和人黄嘌呤氧化酶，黄嘌呤脱氢酶和醛氧化酶的亚硝酸盐还原酶活性：评估它们对体内一氧化氮形成的贡献。
3. Cardiac contractility in Antarctic teleost is modulated by nitrite through xanthine oxidase and cytochrome p-450 nitrite reductase [J] . Garofalo Filippo, Amelio Daniela, Gattuso Alfonsina, Nitric oxide: Biology and chemistry . 2015,第Null期

机译：亚硝酸盐通过黄嘌呤氧化酶和细胞色素p-450亚硝酸还原酶调节南极硬骨动物的心脏收缩能力
4. Inhibition of Tempuyung (Sonchus arvensis) Water Extract Fractions Against Xanthine Oxidase by Electrochemical Method [C] . Trivadila, I. Oktaviani, D. Iswantini International Conference of the Indonesian Chemical Society . 2020

机译：电化学方法抑制天吞（Sonchus arvensis）水提取物抗黄嘌呤氧化酶的水提取物
5. Xanthine oxidase inhibition and antioxidant activity of an artichoke leaf extract (Cynara scolymus L.) and its compounds. [D] . Sarawek, Sasiporn. 2007

机译：洋蓟叶提取物（Cynara scolymus L.）及其化合物的黄嘌呤氧化酶抑制作用和抗氧化活性。
6. In Vitro Oxidative Metabolism of 6-Mercaptopurine in Human Liver: Insights into the Role of the Molybdoflavoenzymes Aldehyde Oxidase Xanthine Oxidase and Xanthine Dehydrogenase [O] . Kanika V. Choughule, Carlo Barnaba, Carolyn A. Joswig-Jones, -1

机译：6-巯基嘌呤在人肝中的体外氧化代谢：钼黄酮酶醛氧化酶黄嘌呤氧化酶和黄嘌呤脱氢酶的作用的见解。
7. Inhibition of xanthine oxidase by the aldehyde oxidase inhibitor raloxifene: Implications for identifying molybdopterin nitrite reductases [O] . E.R. Weidert, S.O. Schoenborn, N. Cantu-Medellin, 2014

机译：醛氧化酶抑制剂Raloxifenes抑制黄嘌呤氧化酶：用于鉴定钼蛋白亚硝酸盐还原酶的意义

Inhibition of xanthine oxidase by the aldehyde oxidase inhibitor raloxifene: Implications for identifying molybdopterin nitrite reductases

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