Development of a Novel HEK293 Cell Model Lacking SLC29A1 to Study the Pharmacology of Endogenous SLC29A2-Encoded Equilibrative Nucleoside Transporter Subtype 2.

IF 4.4 3区 医学 Q1 PHARMACOLOGY & PHARMACY Drug Metabolism and Disposition Pub Date : 2024-09-16 DOI:10.1124/dmd.124.001814
Nayiar Shahid, Christopher Cromwell, Basil P Hubbard, James R Hammond
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Abstract

Equilibrative nucleoside transporters (ENTs) mediate the transmembrane flux of endogenous nucleosides and nucleoside analogs used clinically. The predominant subtype, ENT1, has been well characterized. However, the other subtype, ENT2, has been less well characterized in its native milieu due to its relatively low expression and the confounding influence of coexpressed ENT1. We created a cell model where ENT1 was removed from human embryonic kidney (HEK293) cells using CRISPR/cas9 [ENT1 knockout (KO) cells]; this cell line has ENT2 as the only functional purine transporter. Transporter function was assessed through measurement of [3H]2-chloroadenosine uptake. ENT1 protein was quantified based on the binding of [3H]nitrobenzylthioinosine, and ENT1/ENT2 protein was detected by immunoblotting. Changes in expression of relevant transporters and enzymes involved in purine metabolism were examined by quantitative polymerase chain reaction. Wild-type HEK293 cells and ENT1KO cells had a similar expression of SLC29A2/ENT2 transcript/protein and ENT2-mediated [3H]2-chloroadenosine transport activity (Vmax values of 1.02 ± 0.06 and 1.50 ± 0.22 pmol/μl/s, respectively). Of the endogenous nucleosides/nucleobases tested, adenosine had the highest affinity (Ki) for ENT2 (2.6 μM), while hypoxanthine was the only nucleobase with a submillimolar affinity (320 μM). A range of nucleoside/nucleobase analogs were also tested for their affinity for ENT2 in this model, with affinities (Ki) ranging from 8.6 μM for ticagrelor to 2,300 μM for 6-mercaptopurine. Our data suggest that the removal of endogenous ENT1 from these cells does not change the expression or function of ENT2. This cell line should prove useful for the analysis of novel drugs acting via ENT2 and to study ENT2 regulation. SIGNIFICANCE STATEMENT: We have created a cell line whereby endogenous ENT2 can be studied in detail in the absence of the confounding influence of ENT1. Loss of ENT1 has no impact on the expression and function of ENT2. This novel cell line will provide an ideal model for studying drug interactions with ENT2 as well as the cellular regulation of ENT2 expression and function.

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开发缺乏 SLC29A1 的新型 HEK293 细胞模型,以研究内源性 SLC29A2 编码的平衡核苷转运体亚型 2 的药理学。
平衡核苷转运体(ENT)介导内源性核苷和临床使用的核苷类似物的跨膜通量。最主要的亚型 ENT1 已被很好地描述。然而,另一种亚型 ENT2 在其原生环境中的特性还不太清楚,这是因为它的表达量相对较低,而且还受到共表达 ENT1 的干扰影响。我们创建了一个细胞模型,使用 CRISPR/cas9 从 HEK293 细胞中去除 ENT1(ENT1KO 细胞);该细胞系中 ENT2 是唯一具有功能的嘌呤转运体。通过测量[3H]2-氯腺苷的摄取量来评估转运体的功能。ENT1蛋白根据[3H]硝基苄基硫代肌苷的结合进行量化,ENT1/ENT2蛋白则通过免疫印迹法检测。通过 qPCR 检测了参与嘌呤代谢的相关转运体和酶的表达变化。野生型 HEK293 细胞和 ENT1KO 细胞具有相似的 SLC29A2/ENT2 转录本/蛋白表达量和 ENT2 介导的 [3H]2-chloroadenosine 转运活性(Vmax 值分别为 1.02 {正负} 0.06 和 1.50 {正负} 0.22 pmol/µl/s)。在测试的内源性核苷/核碱基中,腺苷与ENT2的亲和力(Ki)最高(2.6 µM),而次黄嘌呤是唯一亲和力低于毫摩尔(320 µM)的核碱基。在该模型中,还测试了一系列核苷/核碱基类似物对 ENT2 的亲和力,亲和力(Ki)从替卡格雷的 8.6 µM 到 6-巯基嘌呤的 2,300 µM 不等。我们的数据表明,从这些细胞中去除内源性 ENT1 并不会改变 ENT2 的表达或功能。这种细胞系将有助于分析通过 ENT2 起作用的新型药物和研究 ENT2 的调控。意义声明 我们创建了一种细胞系,可以在没有ENT1干扰的情况下详细研究内源性ENT2。缺失 ENT1 不会影响 ENT2 的表达和功能。这种新型细胞系将为研究药物与 ENT2 的相互作用以及 ENT2 表达和功能的细胞调控提供一个理想的模型。
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来源期刊
CiteScore
6.50
自引率
12.80%
发文量
128
审稿时长
3 months
期刊介绍: An important reference for all pharmacology and toxicology departments, DMD is also a valuable resource for medicinal chemists involved in drug design and biochemists with an interest in drug metabolism, expression of drug metabolizing enzymes, and regulation of drug metabolizing enzyme gene expression. Articles provide experimental results from in vitro and in vivo systems that bring you significant and original information on metabolism and disposition of endogenous and exogenous compounds, including pharmacologic agents and environmental chemicals.
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