Molecular mechanism of an adverse drug-drug interaction of allopurinol and furosemide in gout treatment

Knake Claudia; Stamp Lisa; Bahn Andrew

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Molecular mechanism of an adverse drug-drug interaction of allopurinol and furosemide in gout treatment

机译：别嘌醇和速尿在痛风治疗中不良药物相互作用的分子机制

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Gout patients receiving a combination of allopurinol and furosemide require higher allopurinol doses to achieve the target serum urate (SU) of <6 mg/dl (Stamp et al., 2012) [1]. Our study aimed to identify the molecular basis for this observation. We used a fluorimetric assay to determine the impact of furosemide and oxypurinol (the active metabolite of allopurinol) on xanthine oxidase (XO) activity. Immunoblot analysis quantified expression of XO and AMP-kinase (AMPK) in drug-treated human liver (HepG2) and primary kidney (HRCE) cells. In silico analysis identified miR-448 as a potential XO-regulator, whose expression level in HepG2 cells was examined by qPCR.

机译：接受别嘌呤醇和速尿联合治疗的痛风患者需要更高的别嘌呤醇剂量，以使目标血清尿酸盐（SU）低于6 mg / dl（Stamp等人，2012）[1]。我们的研究旨在确定这种观察的分子基础。我们使用荧光测定法来测定速尿和氧嘌呤醇（别嘌呤醇的活性代谢产物）对黄嘌呤氧化酶（XO）活性的影响。免疫印迹分析量化了药物治疗的人肝（HepG2）和原发性肾（HRCE）细胞中XO和AMP激酶（AMPK）的表达。在计算机分析中，miR-448是潜在的XO调节剂，通过qPCR检测了其在HepG2细胞中的表达水平。

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《Biochemical and Biophysical Research Communications》 |2014年第1期|共6页
作者
Knake Claudia; Stamp Lisa; Bahn Andrew;
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Gout; Furosemide; Oxypurinol; Xanthine oxidase; miR-448;

机译：痛风;呋喃西米德;氧嘌呤醇;黄嘌呤氧化酶;miR-448;

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1. Molecular mechanism of an adverse drug-drug interaction of allopurinol and furosemide in gout treatment [J] . Knake Claudia, Stamp Lisa, Bahn Andrew Biochemical and Biophysical Research Communications . 2014,第1期

机译：痛风治疗中Allopurinol和呋塞米的不良药物 - 药物相互作用的分子机制
2. Molecular mechanism of an adverse drug-drug interaction of allopurinol and furosemide in gout treatment [J] . Knake Claudia, Stamp Lisa, Bahn Andrew Biochemical and Biophysical Research Communications . 2014,第1期

机译：别嘌醇和速尿在痛风治疗中不良药物相互作用的分子机制
3. Molecular mechanism of an adverse drug-drug interaction of allopurinol and furosemide in gout treatment [J] . Knake Claudia, Stamp Lisa, Bahn Andrew Biochemical and Biophysical Research Communications . 2014,第1期

机译：别嘌醇和速尿在痛风治疗中不良药物相互作用的分子机制
4. Predicting Adverse Drug-Drug Interactions via Semi-supervised Variational Autoencoders [C] . Meihao Hou, Fan Yang, Lizhen Cui, Aisa-Pacific web and web-age information management joint conference on web and big data . 2020

机译：通过半监督变分性自身偏析预测不良药物 - 药物相互作用
5. Retrospective review of allopurinol dose and renal function in gout patients with and without allopurinol reactions. [D] . Silverberg, Miriam Shayna. 2010

机译：痛风患者有和没有别嘌呤醇反应的别嘌醇剂量和肾功能的回顾性回顾。
6. Roles of rifampicin in drug-drug interactions: underlying molecular mechanisms involving the nuclear pregnane X receptor [O] . Jiezhong Chen, Kenneth Raymond 2006

机译：利福平在药物相互作用中的作用：涉及核孕烷X受体的潜在分子机制
7. Inferring adverse drug reaction mechanisms in drug-drug interactions [O] . 水谷紗弥佳 2015

机译：推论药物相互作用中的不良药物反应机制

Molecular mechanism of an adverse drug-drug interaction of allopurinol and furosemide in gout treatment

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