肝细胞摄入和丢失测定(HUpLA):基于扩展清除概念的测量肝脏流入、排出和代谢清除的一体化系统的概念验证。

IF 4.4 3区 医学 Q1 PHARMACOLOGY & PHARMACY Drug Metabolism and Disposition Pub Date : 2024-09-16 DOI:10.1124/dmd.124.001768
Julia A Schulz Pauly, Elizabeth Sande, Mei Feng, Yue-Ting Wang, David M Stresser, John Cory Kalvass
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引用次数: 0

摘要

肝清除率(CLH)预测是估算人体剂量的关键参数。然而,CLH 预测不足的情况很常见,尤其是对于代谢缓慢的药物,这可能是由于药物特性对传统的体外 ADME 检测提出了挑战,导致数据无效,从而阻碍了体外到体内的外推和 CLH 预测。其他过程,包括通过转运体进行的肝细胞和胆汁分布,也会在 CLH 中发挥重要作用。在本研究中,我们展示了一种新型两步测定法的概念验证,该测定法可在含有或不含转运体和 CYP 抑制剂的培养人原代肝细胞中通过一次实验测量多个动力学参数--肝细胞吸收和损失测定法(HUpLA)。HUpLA 准确预测了 9 种药物中 8 种药物的 CLH(与观察到的 CLH 相差 2 倍以内)。在标准吸收和外流测定中,药物的分布清除率在文献观察值的 3 倍以内。相比之下,传统的悬浮肝细胞稳定性测定对 CLH 的预测较差,只有 2 种药物的 CLH 预测在观察到的 CLH 的 2 倍以内。使用原代人类肝细胞可对转运体与酶的相互作用进行生理学相关的探索。最重要的是,HUpLA 显示出作为低周转药物灵敏测量指标的前景。需要对不同药物的特性进行进一步评估,以证明该方法的稳健性。意义声明 HUpLA 包括测量四个常见的体外肝清除终点。由于终点是在单个测试系统中产生的,因此可消除因独立进行的测定而产生的实验误差。一个关键的进步是在细胞内加载药物后移除含药培养基的概念,从而能够测量培养基中的药物再出现率,以及测量测试系统中的药物总损失量,而不受传统测定中培养基中药物背景量的影响。
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Proof of Concept of an All-in-One System for Measuring Hepatic Influx, Egress, and Metabolic Clearance Based on the Extended Clearance Concept.

Hepatic clearance (CLH ) prediction is a critical parameter to estimate human dose. However, CLH underpredictions are common, especially for slowly metabolized drugs, and may be attributable to drug properties that pose challenges for conventional in vitro absorption, distribution, metabolism, and elimination (ADME) assays, resulting in nonvalid data, which prevents in vitro to in vivo extrapolation and CLH predictions. Other processes, including hepatocyte and biliary distribution via transporters, can also play significant roles in CLH Recent advances in understanding the interplay of metabolism and drug transport for clearance processes have aided in developing the extended clearance model. In this study, we demonstrate proof of concept of a novel two-step assay enabling the measurement of multiple kinetic parameters from a single experiment in plated human primary hepatocytes with and without transporter and cytochrome P450 inhibitors-the hepatocyte uptake and loss assay (HUpLA). HUpLA accurately predicted the CLH of eight of the nine drugs (within twofold of the observed CLH ). Distribution clearances were within threefold of observed literature values in standard uptake and efflux assays. In comparison, the conventional suspension hepatocyte stability assay poorly predicted the CLH The CLH of only two drugs was predicted within twofold of the observed CLH Therefore, HUpLA is advantageous by enabling the measurement of enzymatic and transport processes concurrently within the same system, alleviating the need for applying scaling factors independently. The use of primary human hepatocytes enables physiologically relevant exploration of transporter-enzyme interplay. Most importantly, HUpLA shows promise as a sensitive measure for low-turnover drugs. Further evaluation across different drug characteristics is needed to demonstrate method robustness. SIGNIFICANCE STATEMENT: The hepatocyte uptake and loss assay involves measuring four commonly derived in vitro hepatic clearance endpoints. Since endpoints are generated within a single test system, it blunts experimental error originating from assays otherwise conducted independently. A key advantage is the concept of removing drug-containing media following intracellular drug loading, enabling the measurement of drug reappearance rate in media as well as the measurement of loss of total drug in the test system unencumbered by background quantities of drug in media otherwise present in a conventional assay.

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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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