Elevated heart rate and decreased muscle endothelial nitric oxide synthase in early development of insulin resistance.

IF 4.2 2区医学 Q1 ENDOCRINOLOGY & METABOLISM

American journal of physiology. Endocrinology and metabolism Pub Date : 2024-08-01 Epub Date: 2024-06-05 DOI:10.1152/ajpendo.00148.2024

Sarah J Blackwood, Dominik Tischer, Myrthe P F van de Ven, Marjan Pontén, Sebastian Edman, Oscar Horwath, William Apró, Julia Röja, Maria M Ekblom, Marcus Moberg, Abram Katz

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Abstract

Insulin resistance (IR) is a risk factor for the development of several major metabolic diseases. Muscle fiber composition is established early in life and is associated with insulin sensitivity. Hence, muscle fiber composition was used to identify early defects in the development of IR in healthy young individuals in the absence of clinical manifestations. Biopsies were obtained from the thigh muscle, followed by an intravenous glucose tolerance test. Indices of insulin action were calculated and cardiovascular measurements, analyses of blood and muscle were performed. Whole body insulin sensitivity (SI_galvin) was positively related to expression of type I muscle fibers (r = 0.49; P < 0.001) and negatively related to resting heart rate (HR, r = -0.39; P < 0.001), which was also negatively related to expression of type I muscle fibers (r = -0.41; P < 0.001). Muscle protein expression of endothelial nitric oxide synthase (eNOS), whose activation results in vasodilation, was measured in two subsets of subjects expressing a high percentage of type I fibers (59 ± 6%; HR = 57 ± 9 beats/min; SI_galvin = 1.8 ± 0.7 units) or low percentage of type I fibers (30 ± 6%; HR = 71 ± 11; SI_galvin = 0.8 ± 0.3 units; P < 0.001 for all variables vs. first group). eNOS expression was 1) higher in subjects with high type I expression; 2) almost twofold higher in pools of type I versus II fibers; 3) only detected in capillaries surrounding muscle fibers; and 4) linearly associated with SI_galvin. These data demonstrate that an altered function of the autonomic nervous system and a compromised capacity for vasodilation in the microvasculature occur early in the development of IR.NEW & NOTEWORTHY Insulin resistance (IR) is a risk factor for the development of several metabolic diseases. In healthy young individuals, an elevated heart rate (HR) correlates with low insulin sensitivity and high expression of type II skeletal muscle fibers, which express low levels of endothelial nitric oxide synthase (eNOS) and, hence, a limited capacity to induce vasodilation in response to insulin. Early targeting of the autonomic nervous system and microvasculature may attenuate development of diseases stemming from insulin resistance.

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在胰岛素抵抗的早期发展过程中，心率升高和肌肉内皮一氧化氮合酶减少。

胰岛素抵抗（IR）是导致多种主要代谢性疾病的风险因素。肌肉纤维组成在生命早期就已形成，并与胰岛素敏感性相关。因此，在没有临床表现的情况下，我们利用肌肉纤维组成来确定健康年轻人胰岛素抵抗发展的早期缺陷。研究人员从大腿肌肉中获取活组织样本，然后进行静脉葡萄糖耐量试验。计算胰岛素作用指数，并进行心血管测量、血液和肌肉分析。全身胰岛素敏感性（SIgalvin）与Ⅰ型肌纤维的表达呈正相关（r=0.49；Pgalvin = 1.8±0.7单位）或Ⅰ型肌纤维比例较低（30±6%；HR = 71±11；SIgalvin = 0.8±0.3单位；Pgalvin = 1.8±0.7单位）。这些数据表明，自律神经系统功能的改变和微血管舒张能力的受损发生在红外发展的早期。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

American journal of physiology. Endocrinology and metabolism 医学-内分泌学与代谢

CiteScore

9.80

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： The American Journal of Physiology-Endocrinology and Metabolism publishes original, mechanistic studies on the physiology of endocrine and metabolic systems. Physiological, cellular, and molecular studies in whole animals or humans will be considered. Specific themes include, but are not limited to, mechanisms of hormone and growth factor action; hormonal and nutritional regulation of metabolism, inflammation, microbiome and energy balance; integrative organ cross talk; paracrine and autocrine control of endocrine cells; function and activation of hormone receptors; endocrine or metabolic control of channels, transporters, and membrane function; temporal analysis of hormone secretion and metabolism; and mathematical/kinetic modeling of metabolism. Novel molecular, immunological, or biophysical studies of hormone action are also welcome.