Albumin-bound kynurenic acid is an appropriate endogenous biomarker for assessment of the renal tubular OATs-MRP4 channel

IF 6.1 1区 医学 Q1 PHARMACOLOGY & PHARMACY
Yanrong Ma , Fenglin Ran , Mingyan Xin , Xueyan Gou , Xinyi Wang , Xinan Wu
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引用次数: 1

Abstract

Renal tubular secretion mediated by organic anion transporters (OATs) and the multidrug resistance-associated protein 4 (MRP4) is an important means of drug and toxin excretion. Unfortunately, there are no biomarkers to evaluate their function. The aim of this study was to identify and characterize an endogenous biomarker of the renal tubular OATs-MRP4 channel. Twenty-six uremic toxins were selected as candidate compounds, of which kynurenic acid was identified as a potential biomarker by assessing the protein-binding ratio and the uptake in OAT1-, OAT3-, and MRP4-overexpressing cell lines. OAT1/3 and MRP4 mediated the transcellular vectorial transport of kynurenic acid in vitro. Serum kynurenic acid concentration was dramatically increased in rats treated with a rat OAT1/3 (rOAT1/3) inhibitor and in rOAT1/3 double knockout (rOAT1/3−/−) rats, and the renal concentrations were markedly elevated by the rat MRP4 (rMRP4) inhibitor. Kynurenic acid was not filtered at the glomerulus (99% of albumin binding), and was specifically secreted in renal tubules through the OAT1/3-MRP4 channel with an appropriate affinity (Km) (496.7 μM and 382.2 μM for OAT1 and OAT3, respectively) and renal clearance half-life (t1/2) in vivo (3.7 ± 0.7 h). There is a strong correlation in area under the plasma drug concentration-time curve (AUC0–t) between cefmetazole and kynurenic acid, but not with creatinine, after inhibition of rOATs. In addition, the phase of increased kynurenic acid level is earlier than that of creatinine in acute kidney injury process. These results suggest that albumin-bound kynurenic acid is an appropriate endogenous biomarker for adjusting the dosage of drugs secreted by this channel or predicting kidney injury.

Abstract Image

白蛋白结合的尿酸是评估肾小管OATs-MRP4通道的一种合适的内源性生物标志物
有机阴离子转运体(OATs)和多药耐药相关蛋白4 (MRP4)介导的肾小管分泌是药物和毒素排泄的重要手段。不幸的是,没有生物标志物来评估它们的功能。本研究的目的是鉴定和表征肾小管OATs-MRP4通道的内源性生物标志物。我们选择了26种尿毒症毒素作为候选化合物,通过评估蛋白结合率和对OAT1-、OAT3-和mrp4过表达细胞系的摄取,确定了犬尿酸作为潜在的生物标志物。OAT1/3和MRP4在体外介导犬尿酸的跨细胞载体转运。大鼠OAT1/3 (rOAT1/3)抑制剂和rOAT1/3双敲除(rOAT1/3−/−)大鼠血清尿酸浓度显著升高,大鼠MRP4 (rMRP4)抑制剂显著升高肾脏尿酸浓度。犬尿酸不经肾小球过滤(99%的白蛋白结合),通过OAT1/3- mrp4通道特异性分泌到肾小管中,具有适当的亲和度(Km) (OAT1和OAT3分别为496.7 μM和382.2 μM)和体内肾清除率半衰期(t1/2)(3.7±0.7 h)。在抑制rOATs后,cefmetaazole和犬尿酸在血浆药物浓度-时间曲线下面积(AUC0-t)有很强的相关性,但与肌酐没有相关性。此外,在急性肾损伤过程中,尿尿酸水平升高的阶段早于肌酐水平升高的阶段。这些结果表明,白蛋白结合的犬尿酸是一种合适的内源性生物标志物,可用于调节该通道分泌的药物剂量或预测肾损伤。
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来源期刊
Journal of Pharmaceutical Analysis
Journal of Pharmaceutical Analysis Chemistry-Electrochemistry
CiteScore
16.20
自引率
2.30%
发文量
674
审稿时长
22 weeks
期刊介绍: The Journal of Pharmaceutical Analysis (JPA), established in 2011, serves as the official publication of Xi'an Jiaotong University. JPA is a monthly, peer-reviewed, open-access journal dedicated to disseminating noteworthy original research articles, review papers, short communications, news, research highlights, and editorials in the realm of Pharmacy Analysis. Encompassing a wide spectrum of topics, including Pharmaceutical Analysis, Analytical Techniques and Methods, Pharmacology, Metabolism, Drug Delivery, Cellular Imaging & Analysis, Natural Products, and Biosensing, JPA provides a comprehensive platform for scholarly discourse and innovation in the field.
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