Impact of the transcription factor nuclear factor 1 B T>C polymorphism on clozapine metabolism in vivo and expression of intestinal transporters in vitro.

IF 4 3区医学 Q1 PHARMACOLOGY & PHARMACY

Drug Metabolism and Disposition Pub Date : 2025-07-01 Epub Date: 2025-05-20 DOI:10.1016/j.dmd.2025.100100

Maria Solbakk, Robert Løvsletten Smith, Birgit M Wollmann, Line Skute Bråten, Inger Johansson, Magnus Ingelman-Sundberg, Ole A Andreassen, Espen Molden

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引用次数: 0

Abstract

Clozapine's (CLZ) pharmacokinetics involves multiple enzymes and transporters, which may be influenced by genetic variability. A variant in the nuclear factor I B (NFIB) gene (rs28379954 T>C) has been associated with reduced CLZ serum concentrations. This study explored CLZ metabolism in relation to NFIB genotype in patients with known smoking habits. NFIB's role in regulating gene expression of transporters relevant for intestinal absorption of CLZ was investigated using Caco-2/TC7 cells. Metabolite spectra of CLZ-treated patients (n = 285) were included from a therapeutic drug monitoring service. Formation of 30 CLZ metabolites was compared between patients carrying NFIB CT and TT diplotypes. To investigate NFIB's possible role in regulating the expression of drug transporters of relevance for CLZ efflux (ABCB1, ABCC1, and ABCG2) or uptake (SLC transporters), NFIB was overexpressed in Caco-2/TC7 cells. CLZ dose-adjusted concentration was 25% lower in NFIB CT versus TT carriers (P = .017). No significant differences in primary metabolites were found, but a secondary metabolite, N-desmethylclozapine cysteinyl, was increased by 1.89-fold in smoking CT versus TT carriers (P = .038). In Caco-2/TC7 cells, NFIB overexpression significantly suppressed the expression of ABCB1 and ABCG2 by 25%-30%. In summary, NFIB CT carriers require higher CLZ doses for optimal clinical effect, yet their metabolite profiles are similar to those of TT carriers, suggesting no differences in enzyme activity. Instead, Caco-2/TC7 experiments showed reduced ABCB1 and ABCG2 expression in NFIB-transfected cells. This may indicate that lower CLZ levels in CT carriers result from decreased NFIB-mediated inhibition of transporter expression. However, further in vivo studies are needed to clarify NFIB's role in CLZ transport mechanisms. SIGNIFICANCE STATEMENT: This study shows that the NFIB rs28379954 T>C variant causes reduced clozapine serum levels and hence increased dose requirements to reach therapeutic levels for optimal clinical response. However, this effect seems to be independent of metabolic changes, suggesting alternative pharmacokinetic mechanisms at play. In vitro experiments further indicate that NFIB may regulate the expression of intestinal efflux transporters. Both findings provide a future foundation for genotype-guided dosing of clozapine in patients suffering from treatment-resistant schizophrenia.

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转录因子核因子1 B T>C多态性对体内氯氮平代谢及体外肠道转运蛋白表达的影响

氯氮平（CLZ）的药代动力学涉及多种酶和转运体，这可能受到遗传变异的影响。核因子IB （NFIB）基因（rs28379954 T>C）的变异与CLZ血清浓度降低有关。本研究探讨了已知吸烟习惯的患者CLZ代谢与NFIB基因型的关系。利用Caco-2/TC7细胞研究NFIB在调节肠道吸收CLZ相关转运体基因表达中的作用。clz治疗患者（n = 285）的代谢物谱来自治疗药物监测服务。比较了携带NFIB CT和TT二倍型的患者30种CLZ代谢物的形成。为了研究NFIB在调节与CLZ外排（ABCB1、ABCC1和ABCG2）或摄取（SLC转运蛋白）相关的药物转运蛋白表达中的可能作用，我们在Caco-2/TC7细胞中过表达NFIB。与TT携带者相比，NFIB CT组CLZ剂量调整浓度降低25% （P = 0.017）。初级代谢物无显著差异，但次级代谢物n -去甲基氯氮平半胱氨酸在吸烟CT携带者中比TT携带者增加1.89倍（P = 0.038）。在Caco-2/TC7细胞中，NFIB过表达可显著抑制ABCB1和ABCG2的表达，抑制幅度为25% ~ 30%。综上所述，NFIB CT携带者需要更高的CLZ剂量才能获得最佳临床效果，但其代谢物谱与TT携带者相似，表明酶活性没有差异。相反，Caco-2/TC7实验显示，在nfib转染的细胞中，ABCB1和ABCG2的表达降低。这可能表明，CT携带者中CLZ水平较低是由于nfib介导的转运蛋白表达抑制减少所致。然而，需要进一步的体内研究来阐明NFIB在CLZ转运机制中的作用。意义声明：本研究表明NFIB rs28379954 T b> C变异导致氯氮平血清水平降低，从而增加了达到最佳临床反应的治疗水平所需的剂量。然而，这种作用似乎与代谢变化无关，表明有其他药代动力学机制在起作用。体外实验进一步表明，NFIB可调节肠外排转运蛋白的表达。这两项研究结果为基因型指导氯氮平给药难治性精神分裂症患者提供了未来的基础。

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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.