一种成年生物钟调节因子将昼夜节律与胰腺β细胞成熟联系起来。
An adult clock regulator links circadian rhythms to pancreatic β-cell maturation.
作者信息
Montalvo Landivar Ana P, Gao Zihan, Liu Mai, Gruskin Zoe L, Leduc Andrew, Preza Sam, Xie Yu, Rozo Andrea V, Ahn June H, Straubhaar Juerg R, Doliba Nicolai, Stoffers Doris A, Slavov Nikolai, Alvarez-Dominguez Juan R
机构信息
Department of Neurosurgery, Brigham and Women's Hospital; Boston, MA 02115, USA.
These authors contributed equally to this work.
出版信息
bioRxiv. 2025 Apr 2:2023.08.11.552890. doi: 10.1101/2023.08.11.552890.
The circadian clock attunes metabolism to daily energy cycles, but how it regulates maturation of metabolic tissues is poorly understood. Here we show that DEC1, a clock transcription factor induced in adult islet β cells, coordinates their glucose responsiveness by synchronizing energetic and secretory rhythms. DEC1 binds and regulates maturity-linked genes to integrate insulin exocytosis with energy metabolism, and β-cell ablation disrupts their transcription synchrony. -disrupted mice develop lifelong glucose intolerance and insulin deficiency, despite normal islet formation and intact genes. Metabolic dysfunction upon β-cell loss stems from poor coupling of insulin secretion to glucose metabolism, reminiscent of fetal/neonatal immaturity. We link stunted maturation to a deficit in circadian bioenergetics, prompted by compromised glucose utilization, mitochondrial dynamics, and respiratory metabolism, which is rescued by increased metabolic flux. Thus, DEC1 links circadian clockwork to β-cell metabolic maturation, revealing a hierarchy for how the clock programs metabolic tissue specialization.
生物钟使新陈代谢与每日能量循环相协调,但人们对其如何调节代谢组织的成熟了解甚少。在此,我们表明DEC1是一种在成年胰岛β细胞中诱导产生的生物钟转录因子,它通过同步能量和分泌节律来协调β细胞的葡萄糖反应性。DEC1结合并调节与成熟相关的基因,以将胰岛素胞吐作用与能量代谢整合起来,β细胞的缺失会破坏它们的转录同步性。DEC1缺失的小鼠尽管胰岛形成正常且相关基因完整,但仍会出现终身性的葡萄糖不耐受和胰岛素缺乏。β细胞丧失后的代谢功能障碍源于胰岛素分泌与葡萄糖代谢的不良耦合,这类似于胎儿/新生儿的不成熟状态。我们将发育迟缓的成熟与昼夜生物能量学的缺陷联系起来,这是由葡萄糖利用受损、线粒体动力学和呼吸代谢受损所引发的,而增加的代谢通量可挽救这种缺陷。因此,DEC1将生物钟机制与β细胞代谢成熟联系起来,揭示了生物钟如何规划代谢组织特化的层级关系。
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