Division of Diabetes, Endocrinology and Gastroenterology, Faculty of Biology, Medicine and Health, University of Manchester, Manchester Academic Health Sciences Centre, Manchester, United Kingdom.
Manchester Transgenic Unit, University of Manchester, Manchester Academic Health Sciences Centre, Manchester, United Kingdom.
Endocrinology. 2019 May 1;160(5):964-978. doi: 10.1210/en.2019-00018.
Glucocorticoids are potent and widely used medicines but often cause metabolic side effects. A murine model of corticosterone treatment resulted in increased hypothalamic expression of the melanocortin antagonist AgRP in parallel with obesity and hyperglycemia. We investigated how these adverse effects develop over time, with particular emphasis on hypothalamic involvement. Wild-type and Agrp-/- male mice were treated with corticosterone for 3 weeks. Phenotypic, biochemical, protein, and mRNA analyses were undertaken on central and peripheral tissues, including white and brown adipose tissue, liver, and muscle, to determine the metabolic consequences. Corticosterone treatment induced hyperphagia within 1 day in wild-type mice, which persisted for 3 weeks. Despite this early increase in food intake, the body weight only started to increase after 10 days. Hyperinsulinemia occurred at day 1. Also, although after 2 days, alterations were present in the genes often associated with insulin resistance in several peripheral tissues, hyperglycemia only developed at 3 weeks. Throughout, sustained elevation in hypothalamic Agrp expression was present. Mice with Agrp deleted [using clustered regularly interspaced short palindromic repeats (CRISPR)-Cas9, Agrp-/-] were partially protected against corticosterone-induced hyperphagia. However, Agrp-/- mice still had corticosterone-induced increases in body weight and adiposity similar to those of the Agrp+/+ mice. Loss of Agrp did not diminish corticosterone-induced hyperinsulinemia or correct changes in hepatic gluconeogenic genes. Chronic glucocorticoid treatment in mice mimics many of the metabolic side effects seen in patients and leads to a robust increase in Agrp. However, AgRP does not appear to be responsible for most of the glucocorticoid-induced adverse metabolic effects.
糖皮质激素是一种强效且广泛使用的药物,但常引起代谢副作用。皮质酮处理的小鼠模型导致下丘脑黑皮质素激动剂 AgRP 的表达增加,同时伴有肥胖和高血糖。我们研究了这些不良反应随时间的发展情况,特别强调了下丘脑的参与。雄性野生型和 Agrp-/- 小鼠用皮质酮处理 3 周。对中央和外周组织(包括白色和棕色脂肪组织、肝脏和肌肉)进行表型、生化、蛋白质和 mRNA 分析,以确定代谢后果。皮质酮处理在野生型小鼠中 1 天内引起摄食量增加,持续 3 周。尽管早期摄食量增加,但体重仅在 10 天后开始增加。胰岛素血症在第 1 天发生。尽管在第 2 天,几个外周组织中与胰岛素抵抗相关的基因发生了改变,但高血糖仅在 3 周时才出现。整个过程中,下丘脑 Agrp 表达持续升高。使用成簇规律间隔短回文重复(CRISPR)-Cas9 基因编辑技术(Agrp-/-)敲除 Agrp 的小鼠部分免受皮质酮诱导的摄食增加的影响。然而,Agrp-/- 小鼠仍有皮质酮诱导的体重增加和肥胖,与 Agrp+/+ 小鼠相似。Agrp 的缺失并没有减轻皮质酮诱导的高胰岛素血症或纠正肝糖异生基因的变化。慢性糖皮质激素治疗在小鼠中模拟了许多患者中出现的代谢副作用,并导致 Agrp 大量增加。然而,AgRP 似乎不是皮质激素引起的大多数不良代谢作用的原因。
