小年
(2023-02-28 16:39):
#paper doi: 10.1172/JCI46043. Circadian rhythms, sleep, and metabolism. J Clin Invest. 2011 Jun;121(6):2133-41. 昼夜节律遗传基础的发现扩展了我们对行为和生理学的时间组织的认识。大脑和身体之间的新陈代谢是以每日“昼夜节律”的方式调节的,然而,系统地扰乱活动的昼夜节律模式,会导致正常代谢模式的破坏,包括肥胖、糖尿病和心血管疾病,与代谢功能障碍,文中评估了molecular timing如何为理解和开发肥胖和糖尿病的治疗方法创造新的机会。未来的研究将继续侧重于扩大我们对大脑和外周时钟如何在细胞自主和非自主水平上协调调节代谢过程的理解,营养通量如何将有关环境的信息转化为时钟,以及昼夜节律对人类健康和疾病的影响。
Circadian rhythms, sleep, and metabolism
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Abstract:
The discovery of the genetic basis for circadian rhythms has expanded our knowledge of the temporal organization of behavior and physiology. The observations that the circadian gene network is present in most living organisms from eubacteria to humans, that most cells and tissues express autonomous clocks, and that disruption of clock genes results in metabolic dysregulation have revealed interactions between metabolism and circadian rhythms at neural, molecular, and cellular levels. A major challenge remains in understanding the interplay between brain and peripheral clocks and in determining how these interactions promote energy homeostasis across the sleep-wake cycle. In this Review, we evaluate how investigation of molecular timing may create new opportunities to understand and develop therapies for obesity and diabetes.
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