CYP P450 and non-CYP P450 Drug Metabolizing Enzyme Families Exhibit Differential Sensitivities towards Proinflammatory Cytokine Modulation.

IF 4.4 3区医学 Q1 PHARMACOLOGY & PHARMACY

Drug Metabolism and Disposition Pub Date : 2024-11-15 DOI:10.1124/dmd.124.001867

Laura M de Jong, Chandan Harpal, Dirk-Jan van den Berg, Menno Hoekstra, Nienke J Peter, Robert Rissmann, Jesse J Swen, Martijn L Manson

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引用次数: 0

Abstract

Compromised hepatic drug metabolism in response to proinflammatory cytokine release is primarily attributed to downregulation of cytochrome P450 (CYP) enzymes. However, whether inflammation also affects other phase I and phase II drug metabolizing enzymes (DMEs), such as the flavin monooxygenases (FMOs), carboxylesterases (CESs), and UDP glucuronosyltransferases (UGTs), remains unclear. This study aimed to decipher the impact of physiologically relevant concentrations of proinflammatory cytokines on expression and activity of phase I and phase II enzymes, to establish a hierarchy of their sensitivity as compared with the CYPs. Hereto, HepaRG cells were exposed to interleukin-6 and interleukin-1β to measure alterations in DME gene expression (24 h) and activity (72 h). Sensitivity of DMEs toward proinflammatory cytokines was evaluated by determining IC₅₀ (potency) and I_max (maximal inhibition) values from the concentration-response curves. Proinflammatory cytokine treatment led to nearly complete downregulation of CYP3A4 (∼98%) but was generally less efficacious at reducing gene expression of the non-CYP DME families. Importantly, FMO, CES, and UGT family members were less sensitive toward interleukin-6 induced inhibition in terms of potency, with IC₅₀ values that were 4.3- to 7.4-fold higher than CYP3A4. Similarly, 18- to 31-fold more interleukin-1β was required to achieve 50% of the maximal downregulation of FMO3, FMO4, CES1, UGT2B4, and UGT2B7 expression. The differential sensitivity persisted at enzyme activity level, highlighting that alterations in DME gene expression during inflammation are predictive for subsequent alterations in enzyme activity. In conclusion, this study has shown that FMOs, CESs, and UGTs enzymes are less impacted by IL-6 and IL-1β treatment as compared with CYP enzymes. SIGNIFICANCE STATEMENT: While the impact of proinflammatory cytokines on CYP expression is well established, their effects on non-CYP phase I and phase II drug metabolism remains underexplored, particularly regarding alterations in drug metabolizing enzyme (DME) activity. This study provides a quantitative understanding of the sensitivity differences to inflammation between DME family members, suggesting that non-CYP DMEs may become more important for the metabolism of drugs during inflammatory conditions due to their lower sensitivity as compared with the CYPs.

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CYP 和非 CYP 药物代谢酶家族对促炎细胞因子调节表现出不同的敏感性。

促炎细胞因子释放导致的肝脏药物代谢紊乱主要归因于细胞色素 P450（CYP）酶的下调。然而，炎症是否也会影响其他I期和II期药物代谢酶（DMEs），如黄素单氧化酶（FMOs）、羧酸酯酶（CESs）和UDP葡萄糖醛酸转移酶（UGTs），目前仍不清楚。本研究旨在解读生理相关浓度的促炎细胞因子对 I 期和 II 期酶的表达和活性的影响，以确定它们与 CYPs 相比的敏感性等级。为此，将 HepaRG 细胞暴露于白细胞介素-6 和白细胞介素-1β，以测量 DME 基因表达（24 小时）和活性（72 小时）的变化。通过浓度-反应曲线确定 IC50（效力）和 Imax（最大抑制）值，评估了 DME 对促炎细胞因子的敏感性。促炎细胞因子处理导致 CYP3A4 几乎完全下调（约 98%），但在减少非 CYP DME 家族的基因表达方面效果一般较差。重要的是，就效力而言，FMO、CES 和 UGT 家族成员对白细胞介素-6 诱导的抑制作用不太敏感，其 IC50 值比 CYP3A4 高 4.3-7.4 倍。同样，要达到 FMO3、FMO4、CES1、UGT2B4 和 UGT2B7 表达最大下调量的 50%，所需的白细胞介素-1β 要高出 18-31 倍。酶活性水平的敏感性差异持续存在，这表明炎症期间 DME 基因表达的改变可预测随后酶活性的改变。总之，我们的研究表明，与 CYP 酶相比，FMOs、CES 和 UGTs 酶受炎症的影响较小。意义声明虽然促炎细胞因子对 CYP 表达的影响已得到公认，但它们对非 CYP I 期和 II 期药物代谢的影响，尤其是对药物代谢酶活性的改变的影响仍未得到充分探索。这项研究定量地了解了 DME 家族成员对炎症的敏感性差异，表明与 CYPs 相比，非 CYP DMEs 的敏感性较低，因此它们在炎症条件下的药物代谢过程中可能变得更加重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Drug Metabolism and Disposition 医学-药学

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.