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CYP 3A4*1B和CYP3A5*3基因多态性对肝移植患者他克莫司抗排斥反应的影响

Effect of CYP 3A4*1B and CYP3A5*3 Gene Polymorphisms in Antirejection of Tacrolimus in Liver Transplant Patients.

作者信息

Zhou Xia, Tang Rujia, Zhang Dali, He Xi, Liu Zhenwen, Gao Yinjie, Liu Hongling

机构信息

From the Senior Department of Hepatology, the Fifth Medical Center, Chinese PLA General Hospital, Beijing, China.

From the Senior Department of Hepatology, the Fifth Medical Center, Chinese PLA General Hospital, Beijing, China.

出版信息

Transplant Proc. 2025 Mar;57(2):298-304. doi: 10.1016/j.transproceed.2024.10.030. Epub 2024 Dec 6.

DOI:10.1016/j.transproceed.2024.10.030
PMID:39643490
Abstract

BACKGROUND

Tacrolimus is a substrate of CYP 3A5; to reduce the rate of liver injury and rejection in liver transplant (LT) recipients, it is feasible to optimize the administration of tacrolimus by adding CYP gene polymorphism.

METHODS

We divided 151 LT recipients randomly into an optimization group and a control group. All were tested routinely for clinical indicators such as FK506 trough concentration and biochemistry, and their complications and survival were observed. The optimization group additionally detected single nucleotide polymorphisms in the CYP 3A41B and CYP 3A53 genes.

RESULTS

There were no significant differences in tacrolimus dosage, FK506 trough concentrations, and concentration/dose value between the 2 groups. In the optimization group, all patients tested CYP 3A41B as wild type. CYP 3A53 detection classification included 35 with the G/G mutation (45.5%) and 36 A/G wild-type individuals (46.8%). The concentration/dose values of G/G mutant patients were significantly higher than those of A/G wild-type and A/A mutant patients (G/G vs. A/G; P < .05), and no significant difference in FK506.

CONCLUSION

The CYP 3A41B genotype has less influence on tacrolimus metabolism. The genetic polymorphism of CYP 3A53 is obvious and largely affects tacrolimus metabolism, and the variant patients need lower doses of tacrolimus to reach the target concentration.

摘要

背景

他克莫司是细胞色素P450 3A5(CYP 3A5)的底物;为降低肝移植(LT)受者肝损伤和排斥反应的发生率,通过增加CYP基因多态性来优化他克莫司的给药方案是可行的。

方法

我们将151例LT受者随机分为优化组和对照组。所有患者均常规检测FK506谷浓度和生化等临床指标,并观察其并发症和生存率。优化组额外检测CYP 3A41B和CYP 3A53基因的单核苷酸多态性。

结果

两组之间他克莫司剂量、FK506谷浓度及浓度/剂量值无显著差异。在优化组中,所有患者检测CYP 3A41B均为野生型。CYP 3A53检测分型包括35例G/G突变型(45.5%)和36例A/G野生型个体(46.8%)。G/G突变型患者的浓度/剂量值显著高于A/G野生型和A/A突变型患者(G/G与A/G比较;P <.05),FK506无显著差异。

结论

CYP 3A41B基因型对他克莫司代谢影响较小。CYP 3A53基因多态性明显,且在很大程度上影响他克莫司代谢,突变型患者需要较低剂量的他克莫司才能达到目标浓度。

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引用本文的文献

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