微小RNA作为预测P2Y12抑制剂耐药性的新型生物标志物
MicroRNAs as Novel Biomarkers for P2Y12 - Inhibitors Resistance Prediction.
作者信息
Rytkin Eric, Mirzaev Karin, Bure Irina, Akmalova Kristina, Abdullaev Sherzod, Kachanova Anastasiia, Smirnov Valery, Grishina Elena, Lyakhova Natalia, Aleshkovich Elena, Saribekian Anna, Andreev Denis, Shabunin Alexey, Sychev Dmitry
机构信息
Institute for Molecular and Personalized Medicine, Russian Medical Academy of Continuous Professional Education, Moscow, Russian Federation.
Sechenov University, Moscow, Russian Federation.
出版信息
Pharmgenomics Pers Med. 2021 Dec 2;14:1575-1582. doi: 10.2147/PGPM.S324612. eCollection 2021.
AIM
The aim of this study is to assess 6 micro-RNAs: miR-126, miR-223, miR-150, miR-29, miR-34, miR-142 as potential biomarkers for P2Y12- inhibitors resistance prediction.
METHODS
Eighty patients with an acute coronary syndrome undergoing percutaneous coronary intervention treated in a multidisciplinary hospital in Moscow with DAPT (either with ticagrelor, n=45, or clopidogrel, n=35) were enrolled. The carriership of 6 clinically relevant polymorphisms for ticagrelor and 17 for clopidogrel was detected. Expression levels of six prospective miRNAs were measured. The activity of CYP3A4 isoenzyme was measured as the ratio of the concentrations of cortisol and 6β-hydroxycortisol.
RESULTS
The polymorphisms of the P2Y12-inhibitors ADME genes that demonstrated statistically significant connection with miRNA expression levels are as follows: P2Y12R (A>G, rs3732759) and miR-29 (p=0.017), miR-34 (p=0.003); CYP2C19*17 (C-806T, rs1224856) and miR-142 (p=0.012); PON1 (Q192R, rs662) and miR-29 (p=0.004), ABCG2 (G>T, rs2231142) and miR-34 (p=0.007). MiRNAs expression levels showed connection with the results of the platelet reactivity assessment by utilizing VerifyNow assay ("Instrumentation laboratory", MA, US). MiR-126 (β coefficient=-0.076, SE=0.032, p=0.021), miR-223 (β coefficient=-0.089, SE=0.041, p=0.032), miR-29 (β coefficient=-0.042, SE=0.018, p=0.026), miR-142 (β coefficient=-0.072, SE=0.026, p=0.008) have the potential to be used as biomarkers and may substitute platelet reactivity testing.
CONCLUSION
This study has revealed new biomarkers for P2Y12-inhibitors resistance testing: miR-29, miR-34, miR-126, miR-142, miR-223.
目的
本研究旨在评估6种微小RNA:miR-126、miR-223、miR-150、miR-29、miR-34、miR-142作为预测P2Y12抑制剂耐药性的潜在生物标志物。
方法
选取80例在莫斯科一家多学科医院接受经皮冠状动脉介入治疗的急性冠状动脉综合征患者,给予双联抗血小板治疗(替格瑞洛,n = 45;或氯吡格雷,n = 35)。检测了替格瑞洛6种临床相关多态性和氯吡格雷17种临床相关多态性的携带情况。测量了6种前瞻性微小RNA的表达水平。以皮质醇和6β-羟基皮质醇浓度之比测量CYP3A4同工酶的活性。
结果
与微小RNA表达水平显示出统计学显著关联的P2Y12抑制剂药物代谢动力学基因多态性如下:P2Y12R(A>G,rs3732759)与miR-29(p = 0.017)、miR-34(p = 0.003);CYP2C19*17(C-806T,rs1224856)与miR-142(p = 0.012);PON1(Q192R,rs662)与miR-29(p = 0.004),ABCG2(G>T,rs2231142)与miR-34(p = 0.007)。微小RNA表达水平与使用VerifyNow检测法(美国马萨诸塞州“仪器实验室”)评估的血小板反应性结果相关。miR-126(β系数=-0.076,标准误=0.032,p = 0.021)、miR-223(β系数=-0.089,标准误=0.041,p = 0.032)、miR-29(β系数=-0.042,标准误=0.018,p = 0.026)、miR-142(β系数=-0.072,标准误=0.026,p = 0.008)有潜力用作生物标志物,可替代血小板反应性检测。
结论
本研究揭示了用于P2Y12抑制剂耐药性检测的新生物标志物:miR-29、miR-34、miR-126、miR- 142、miR-223。
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