GLS2 通过重塑动脉壁将谷氨酰胺代谢与动脉粥样硬化联系起来。

IF 9.4 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Nature cardiovascular research Pub Date : 2024-11-19 DOI:10.1038/s44161-024-00566-1
Florent Murcy, Coraline Borowczyk, Samuel Gourion-Arsiquaud, Stéphanie Torrino, Nessrine Ouahrouche, Thibault Barouillet, Sébastien Dussaud, Marie Couralet, Nathalie Vaillant, Johanna Merlin, Alexandre Berquand, Minna U Kaikkonen, Robyn L McClelland, William Tressel, James Stein, Edward B Thorp, Thomas Bertero, Pascal Barbry, Béatrice Bailly-Maitre, Emmanuel L Gautier, Minna K Karjalainen, Johannes Kettunen, Laurent Duca, Steven Shea, Laurent Yvan-Charvet
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引用次数: 0

摘要

代谢失调,包括谷氨酰胺-谷氨酸平衡紊乱,在心血管疾病患者中很常见,但其潜在机制在很大程度上仍然未知。我们利用人类 MESA 队列研究发现,血浆谷氨酰胺-谷氨酸比率是颈动脉斑块进展的独立风险因素。谷氨酰胺酶-2(Gls2)是一种介导肝脏谷氨酰胺溶解的酶,小鼠缺乏谷氨酰胺酶-2会加速动脉粥样硬化,并易发生灾难性心脏事件,而谷氨酰胺酶-2过表达则可部分防止疾病进展。主动脉的高通量转录谱分析和高分辨率结构生物学成像显示,Gls2 缺乏会扰乱细胞外基质的组成并增加血管的硬度。这是由于动脉粥样硬化病变内谷氨酰胺和谷氨酸依赖性交联蛋白的不平衡以及斑块的细胞重塑造成的。因此,肝脏谷氨酰胺溶解作用是谷氨酰胺平衡的有效调节器,在动脉粥样硬化斑块发展过程中影响主动脉壁结构。
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GLS2 links glutamine metabolism and atherosclerosis by remodeling artery walls.

Metabolic dysregulation, including perturbed glutamine-glutamate homeostasis, is common among patients with cardiovascular diseases, but the underlying mechanisms remain largely unknown. Using the human MESA cohort, here we show that plasma glutamine-glutamate ratio is an independent risk factor for carotid plaque progression. Mice deficient in glutaminase-2 (Gls2), the enzyme that mediates hepatic glutaminolysis, developed accelerated atherosclerosis and susceptibility to catastrophic cardiac events, while Gls2 overexpression partially protected from disease progression. High-throughput transcriptional profiling and high-resolution structural biology imaging of aortas showed that Gls2 deficiency perturbed extracellular matrix composition and increased vessel stiffness. This results from an imbalance of glutamine- and glutamate-dependent cross-linked proteins within atherosclerotic lesions and cellular remodeling of plaques. Thus, hepatic glutaminolysis functions as a potent regulator of glutamine homeostasis, which affects the aortic wall structure during atherosclerotic plaque progression.

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