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首页> 美国卫生研究院文献>Diabetes >Genetic Evidence for a Normal-Weight Metabolically Obese Phenotype Linking Insulin Resistance Hypertension Coronary Artery Disease and Type 2 Diabetes
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Genetic Evidence for a Normal-Weight Metabolically Obese Phenotype Linking Insulin Resistance Hypertension Coronary Artery Disease and Type 2 Diabetes

机译:体重正常的代谢型肥胖表型与胰岛素抵抗高血压冠状动脉疾病和2型糖尿病相关的遗传证据

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The mechanisms that predispose to hypertension, coronary artery disease (CAD), and type 2 diabetes (T2D) in individuals of normal weight are poorly understood. In contrast, in monogenic primary lipodystrophy—a reduction in subcutaneous adipose tissue—it is clear that it is adipose dysfunction that causes severe insulin resistance (IR), hypertension, CAD, and T2D. We aimed to test the hypothesis that common alleles associated with IR also influence the wider clinical and biochemical profile of monogenic IR. We selected 19 common genetic variants associated with fasting insulin–based measures of IR. We used hierarchical clustering and results from genome-wide association studies of eight nondisease outcomes of monogenic IR to group these variants. We analyzed genetic risk scores against disease outcomes, including 12,171 T2D cases, 40,365 CAD cases, and 69,828 individuals with blood pressure measurements. Hierarchical clustering identified 11 variants associated with a metabolic profile consistent with a common, subtle form of lipodystrophy. A genetic risk score consisting of these 11 IR risk alleles was associated with higher triglycerides (β = 0.018; P = 4 × 10−29), lower HDL cholesterol (β = −0.020; P = 7 × 10−37), greater hepatic steatosis (β = 0.021; P = 3 × 10−4), higher alanine transaminase (β = 0.002; P = 3 × 10−5), lower sex-hormone-binding globulin (β = −0.010; P = 9 × 10−13), and lower adiponectin (β = −0.015; P = 2 × 10−26). The same risk alleles were associated with lower BMI (per-allele β = −0.008; P = 7 × 10−8) and increased visceral-to-subcutaneous adipose tissue ratio (β = −0.015; P = 6 × 10−7). Individuals carrying ≥17 fasting insulin–raising alleles (5.5% population) were slimmer (0.30 kg/m2) but at increased risk of T2D (odds ratio [OR] 1.46; per-allele P = 5 × 10−13), CAD (OR 1.12; per-allele P = 1 × 10−5), and increased blood pressure (systolic and diastolic blood pressure of 1.21 mmHg [per-allele P = 2 × 10−5] and 0.67 mmHg [per-allele P = 2 × 10−4], respectively) compared with individuals carrying ≤9 risk alleles (5.5% population). Our results provide genetic evidence for a link between the three diseases of the “metabolic syndrome” and point to reduced subcutaneous adiposity as a central mechanism.
机译:体重正常的人容易诱发高血压,冠状动脉疾病(CAD)和2型糖尿病(T2D)的机制。相比之下,在单基因原发性脂肪营养不良症(皮下脂肪组织减少)中,很明显,正是脂肪功能异常导致严重的胰岛素抵抗(IR),高血压,CAD和T2D。我们旨在检验这一假设,即与IR相关的常见等位基因也会影响更广泛的单基因IR的临床和生化特征。我们选择了与空腹胰岛素相关的IR相关的19种常见遗传变异。我们使用分级聚类和单基因IR的八个非疾病结局的全基因组关联研究结果来将这些变体分组。我们分析了针对疾病结局的遗传风险评分,包括12,171例T2D病例,40,365例CAD病例和69,828例具有血压测量结果的人。层次聚类确定了与代谢特征相关的11个变异,这些变异与常见的,微妙的脂肪营养不良形式一致。由这11个IR风险等位基因组成的遗传风险评分与较高的甘油三酸酯(β= 0.018; P = 4×10 -29 ),较低的HDL胆固醇(β= -0.020; P = 7× 10 −37 ),更大的肝脂肪变性(β= 0.021; P = 3×10 −4 ),更高的丙氨酸转氨酶(β= 0.002; P = 3×10 < sup> −5 ),较低的性激素结合球蛋白(β= -0.010; P = 9×10 −13 )和较低的脂联素(β= -0.015; P = 2×10 −26 )。相同的风险等位基因与较低的BMI(每等位基因β= -0.008; P = 7×10 -8 )和内脏与皮下脂肪组织比率增加有关(β= -0.015; P = 6×10 −7 )。携带≥17个空腹胰岛素升高等位基因的个体(5.5%的人群)较苗条(0.30 kg / m 2 ),但患T2D的风险增加(比值比[OR] 1.46;每等位基因P = 5 ×10 −13 ),CAD(OR 1.12;每等位基因P = 1×10 −5 )和血压升高(收缩压和舒张压为1.21 mmHg) [携带等位基因P = 2×10 -5 ]和0.67 mmHg [分别是等位基因P = 2×10 −4 ])与携带≤9的个体相比风险等位基因(5.5%的人口)。我们的结果为“代谢综合征”的三种疾病之间的联系提供了遗传证据,并指出皮下脂肪减少是主要机制。

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