STK11 单核苷酸多态性影响高雄激素血症伴高胰岛素血症女孩的胰岛素敏感性和二甲双胍疗效。
A single nucleotide polymorphism in STK11 influences insulin sensitivity and metformin efficacy in hyperinsulinemic girls with androgen excess.
机构信息
Department of Pediatrics, Dr Josep Trueta Hospital, Girona, Spain.
出版信息
Diabetes Care. 2010 Jul;33(7):1544-8. doi: 10.2337/dc09-1750. Epub 2010 Mar 31.
OBJECTIVE
Serine-threonine kinase STK11 catalyzes the AMP-activated protein kinase complex. We tested the hypothesis that a gene variant in STK11 contributes to variation in insulin sensitivity and metformin efficacy.
RESEARCH DESIGN AND METHODS
We studied the effects of a single nucleotide polymorphism (SNP) (rs8111699) in STK11 on endocrine-metabolic and body composition indexes before and after 1 year of metformin in 85 hyperinsulinemic girls with androgen excess, representing a continuum from prepuberal girls with a combined history of low birth weight and precocious pubarche over to postmenarchial girls with hyperinsulinemic ovarian hyperandrogenism. Metformin was dosed at 425 mg/day in younger girls and 850 mg/day in older girls. STK11 rs8111699 was genotyped. Endocrine-metabolic features were assessed in the fasting state; body composition was estimated by absorptiometry.
RESULTS
Genotype effects were similar in younger and older girls. At baseline, the mutated G allele in STK11 rs8111699 was associated with higher insulin and IGF-I levels (both P < 0.005). The response to metformin differed by STK11 genotype: GG homozygotes (n = 24) had robust metabolic improvements, GC heterozygotes (n = 38) had intermediate responses, and CC homozygotes (n = 23) had almost no response. Such differences were found for 1-year changes in body composition, circulating insulin, IGF-I, free androgen index, and lipids (all P < 0.005).
CONCLUSIONS
In hyperinsulinemic girls with androgen excess, the STK11 rs8111699 SNP influences insulin sensitivity and metformin efficacy, so that the girls with the least favorable endocrine-metabolic profile improve most with metformin therapy.
目的
丝氨酸-苏氨酸激酶 STK11 催化 AMP 激活蛋白激酶复合物。我们检验了 STK11 基因变异是否会导致胰岛素敏感性和二甲双胍疗效的个体差异这一假说。
研究设计和方法
我们研究了 85 例患有高雄激素血症的高胰岛素血症女孩,她们具有从低出生体重和性早熟相结合的病史到高胰岛素血症卵巢高雄激素血症的初潮后女孩的连续性。在接受为期 1 年的二甲双胍治疗前后,我们研究了 STK11 单核苷酸多态性(SNP)(rs8111699)对内分泌代谢和身体成分指标的影响。在年龄较小的女孩中,二甲双胍的剂量为 425mg/天,在年龄较大的女孩中,剂量为 850mg/天。对 STK11 rs8111699 进行基因分型。在禁食状态下评估内分泌代谢特征;通过吸收法估计身体成分。
结果
在年龄较小和较大的女孩中,基因型的影响相似。在基线时,STK11 rs8111699 中的突变 G 等位基因与较高的胰岛素和 IGF-I 水平相关(均 P<0.005)。二甲双胍的反应因 STK11 基因型而异:GG 纯合子(n=24)的代谢改善明显,GC 杂合子(n=38)的反应居中,CC 纯合子(n=23)几乎没有反应。这种差异还表现在 1 年内身体成分、循环胰岛素、IGF-I、游离雄激素指数和脂质的变化(均 P<0.005)。
结论
在患有高雄激素血症的高胰岛素血症女孩中,STK11 rs8111699 SNP 影响胰岛素敏感性和二甲双胍疗效,因此具有最不利的内分泌代谢特征的女孩在接受二甲双胍治疗后获益最大。
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