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CYP2C9 中两种功能降低的变异体的存在会影响格列吡嗪的急性反应。

The presence of two reduced function variants in CYP2C9 influences the acute response to glipizide.

机构信息

Centre for Genomic Medicine, Massachusetts General Hospital, Boston, MA.

Diabetes Unit, Department of Medicine, Massachusetts General Hospital, Boston, MA.

出版信息

Diabet Med. 2020 Dec;37(12):2124-2130. doi: 10.1111/dme.14176. Epub 2019 Nov 25.

DOI:10.1111/dme.14176
PMID:31709648
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7211120/
Abstract

AIMS

To examine whether the presence of two common missense variants in the CYP2C9 gene (rs1799853, encoding Arg144Cys and denoted as *2, and rs1057910, encoding Ile359Leu and denoted as *3) influences the acute physiological response to a single glipizide dose in individuals naïve to diabetes medications.

METHODS

In the Study to Understand the Genetics of the Acute Response to Metformin and Glipizide in Humans (SUGAR-MGH), 786 individuals genotyped for rs1799853/rs41291560 (*2) and rs1057910/rs9332214 (*3) were treated with 5 mg glipizide in the fasting state. Glucose and insulin levels were measured at baseline, 30, 60, 90, 120, 180 and 240 min for calculation of phenotypic endpoints of glipizide response. The challenge was aborted as a result of hypoglycaemia, defined as glucose <2.8 mmol/l or hypoglycaemia-related symptoms.

RESULTS

Carriers with two reduced function alleles had a 50% larger insulin area under the curve than carriers with zero or one copy (P=0.037), although this finding was primarily driven by an individual with a robust insulin response. In adjusted analyses, the risk of aborting the glipizide challenge was doubled in two-copy carriers (P=0.034). No significant findings were observed in glucose-based endpoints.

CONCLUSIONS

Carriers of two reduced function alleles in CYP2C9 may experience an increased insulin response to glipizide and be predisposed to a higher risk of hypoglycaemia, although no effect of genotype was seen in glucose-based measurements. Further studies are needed to clarify the utility of CYP2C9 genotyping to guide sulfonylurea treatment.

摘要

目的

研究 CYP2C9 基因中两种常见错义变异(rs1799853,编码 Arg144Cys,记为2,以及 rs1057910,编码 Ile359Leu,记为3)的存在是否会影响从未接受过糖尿病药物治疗的个体单次格列吡嗪剂量的急性生理反应。

方法

在“理解人类二甲双胍和格列吡嗪急性反应的遗传学研究(SUGAR-MGH)”中,对 786 名个体进行了 rs1799853/rs41291560(*2)和 rs1057910/rs9332214(*3)的基因分型,这些个体在空腹状态下接受 5mg 格列吡嗪治疗。测量葡萄糖和胰岛素水平,以计算格列吡嗪反应的表型终点,测量时间点为基线、30、60、90、120、180 和 240 分钟。低血糖(血糖<2.8mmol/L 或与低血糖相关的症状)导致试验中止。

结果

与携带零个或一个功能降低等位基因的个体相比,携带两个功能降低等位基因的个体的胰岛素曲线下面积增加了 50%(P=0.037),尽管这一发现主要是由一个胰岛素反应较强的个体驱动的。在调整后的分析中,两个拷贝携带者的格列吡嗪挑战中止风险增加了一倍(P=0.034)。在基于葡萄糖的终点没有观察到显著的发现。

结论

CYP2C9 中两个功能降低等位基因的携带者可能对格列吡嗪有更强的胰岛素反应,并易发生低血糖的高风险,尽管在基于葡萄糖的测量中没有观察到基因型的影响。需要进一步的研究来阐明 CYP2C9 基因分型指导磺酰脲类药物治疗的效用。

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