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首页> 外文期刊>Physiological Reports >Skeletal muscle Nur77 and NOR1 insulin responsiveness is blunted in obesity and type 2 diabetes but improved after exercise training
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Skeletal muscle Nur77 and NOR1 insulin responsiveness is blunted in obesity and type 2 diabetes but improved after exercise training

机译:肥胖和2型糖尿病患者的骨骼肌Nur77和NOR1胰岛素反应性减弱,但运动训练后可改善

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Obesity and type 2 diabetes (T2DM) are characterized by a blunted metabolic response to insulin, and strongly manifests in skeletal muscle insulin resistance. The orphan nuclear receptors, Nur77 and NOR1, regulate insulin‐stimulated nutrient metabolism where Nur77 and NOR1 gene expression is increased with acute aerobic exercise and acute insulin stimulation. Whether Nur77 or NOR1 are associated with the insulin‐sensitizing effects of chronic aerobic exercise training has yet to be elucidated. Fourteen lean healthy controls (LHC), 12 obese (OB), and 10 T2DM individuals (T2DM) underwent hyperinsulinemic‐euglycemic clamps with skeletal muscle biopsies. Muscle was analyzed for Nur77 and NOR1 gene and protein expression at basal and insulin‐stimulated conditions. Furthermore, a subcohort of 18 participants (OB, n ?=?12; T2DM, n ?=?6) underwent a 12‐week aerobic exercise intervention (85% HR max , 60?min/day, 5?days/week). In response to insulin infusion, LHC increased protein expression of Nur77 (8.7?±?3.2‐fold) and NOR1 (3.6?±?1.1‐fold), whereas OB and T2DM remained unaffected. Clamp‐derived glucose disposal rates correlated with Nur77 ( r 2 ?=?0.14) and NOR1 ( r 2 ?=?0.12) protein expression responses to insulin, whereas age (Nur77: r 2 ?=?0.22; NOR1: r 2 ?=?0.25) and BMI (Nur77: r 2 ?=?0.22; NOR1: r 2 ?=?0.42) showed inverse correlations, corroborating preclinical data. In the intervention cohort, exercise improved Nur77 protein expression in response to insulin (PRE: ?1.2?±?0.3%, POST: 6.2?± 1.5%). Also, insulin treatment of primary human skeletal muscle cells increased Nur77 and NOR1 protein. These findings highlight the multifactorial nature of insulin resistance in human obesity and T2DM. Understanding the regulation of Nur77 and NOR1 in skeletal muscle and other insulin‐sensitive tissues will create opportunities to advance therapies for T2DM.
机译:肥胖和2型糖尿病(T2DM)的特征是对胰岛素的代谢反应迟钝,并强烈表现为骨骼肌胰岛素抵抗。孤儿核受体Nur77和NOR1调节胰岛素刺激的营养代谢,其中通过有氧运动和急性胰岛素刺激增加Nur77和NOR1基因的表达。 Nur77或NOR1是否与慢性有氧运动训练的胰岛素致敏作用有关尚待阐明。 14名瘦健康对照(LHC),12名肥胖(OB)和10名T2DM患者(T2DM)接受了骨骼肌活检的高胰岛素-正常血糖钳夹。在基础和胰岛素刺激的条件下分析了肌肉的Nur77和NOR1基因和蛋白质表达。此外,有18名参与者(OB,n == 12; T2DM,n = 6)的亚组接受了为期12周的有氧运动干预(85%HR max,60分钟/天,5天/周)。 。响应胰岛素输注,LHC增加了Nur77(8.7?±?3.2-倍)和NOR1(3.6?±?1.1-倍)的蛋白表达,而OB和T2DM则不受影响。钳夹产生的葡萄糖处置率与Nur77(r 2?=?0.14)和NOR1(r 2?=?0.12)对胰岛素的蛋白质表达相关,而年龄(Nur77:r 2?=?0.22; NOR1:r 2? BMI(Nur77:r 2≥0.22; NOR1:r 2≥0.42)与BMI呈反相关,证实了临床前数据。在干预队列中,锻炼可改善对胰岛素反应的Nur77蛋白表达(PRE:≥1.2%±0.3%,POST:6.2%±1.5%)。同样,胰岛素对人原代骨骼肌细胞的治疗增加了Nur77和NOR1蛋白。这些发现突出了人类肥胖和2型糖尿病中胰岛素抵抗的多因素性质。了解骨骼肌和其他胰岛素敏感性组织中Nur77和NOR1的调控将为推进T2DM疗法创造机会。

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