AIP1 (ask1 - interaction Protein-1)短异构体定位于线粒体并促进血管功能障碍

Arteriosclerosis, Thrombosis, & Vascular Biology Pub Date : 2019-01-01 DOI:10.1161/ATVBAHA.119.312976

Zheng Li, Li Li, Haifeng Zhang, H. Zhou, W. Ji, W. Min

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引用次数: 4

摘要

目的血管内皮细胞(ECs)通常维持血管稳态，并受促炎细胞因子和活性氧的调节。一项人类全基因组关联研究发现AIP1 (ask1相互作用蛋白-1;也被鉴定为DAB2IP)基因变异赋予心血管疾病的易感性，但潜在的机制尚不清楚。方法与结果:我们在健康主动脉中检测到一种正常的AIP1形式(命名为AIP1A)，但在含有动脉粥样硬化斑块和移植物动脉硬化的病变主动脉中发现了一种较短的AIP1形式(命名为AIP1B)。静息ECs中AIP1B的转录是通过表观遗传抑制RIF1 (rap1 -相互作用因子1)/H3K9(组蛋白H3赖氨酸9)甲基转移酶介导的H3K9三甲基化来抑制的，这种抑制作用由促炎细胞因子释放。AIP1A，而不是AIP1B，在炎症下的ECs中通过Smurf1 (SMAD泛素化调节因子1)依赖途径被蛋白水解降解下调。因此，AIP1B是炎症条件下存在的主要形式。AIP1B缺乏AIP1A的n端pleckstrin同源结构域，定位于线粒体，增强TNF(肿瘤坏死因子)诱导的线粒体活性氧生成和EC激活。在血管重构模型中，AIP1B- ectg (EC特异性AIP1B转基因)小鼠表现出活性氧产生增强、EC激活和新内膜形成。结论目前的研究表明，慢性炎症过程中AIP1A从抗炎向促炎的转变在炎性血管疾病中起关键作用。

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Short AIP1 (ASK1-Interacting Protein-1) Isoform Localizes to the Mitochondria and Promotes Vascular Dysfunction.

OBJECTIVE Vascular endothelial cells (ECs) normally maintain vascular homeostasis and are regulated by proinflammatory cytokines and reactive oxygen species. A human genome-wide association study identified that AIP1 (ASK1-interacting protein-1; also identified as DAB2IP) gene variants confer susceptibility to cardiovascular disease, but the underlying mechanism is unknown. Approach and Results: We detected a normal AIP1 form (named AIP1A) in the healthy aorta, but a shorter form of AIP1 (named AIP1B) was found in diseased aortae that contained atherosclerotic plaques and graft arteriosclerosis. AIP1B transcription in resting ECs was suppressed through epigenetic inhibition by RIF1 (Rap1-interacting factor 1)/H3K9 (histone H3 lysine 9) methyltransferase-mediated H3K9 trimethylation, and this inhibition was released by proinflammatory cytokines. AIP1A, but not AIP1B, was downregulated by proteolytic degradation through a Smurf1 (SMAD ubiquitylation regulatory factor 1)-dependent pathway in ECs under inflammation. Therefore, AIP1B was the major form present during inflammatory conditions. AIP1B, which lacks the N-terminal pleckstrin homology domain of AIP1A, localized to the mitochondria and augmented TNF (tumor necrosis factor)-induced mitochondrial reactive oxygen species generation and EC activation. AIP1B-ECTG (EC-specific AIP1B transgenic) mice exhibited augmented reactive oxygen species production, EC activation, and neointima formation in vascular remodeling models. CONCLUSIONS Our current study suggests that a shift from anti-inflammatory AIP1A to proinflammatory AIP1B during chronic inflammation plays a key role in inflammatory vascular diseases.

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Arteriosclerosis, Thrombosis, & Vascular Biology

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