过表达嗜铬粒蛋白 A 的小鼠表现出肾上腺过度颗粒形成,其 ATP 水平降低,导致高血压表型。
Mice overexpressing chromogranin A display hypergranulogenic adrenal glands with attenuated ATP levels contributing to the hypertensive phenotype.
机构信息
School of Medicine, University of California at San Diego, La Jolla.
VA San Diego Healthcare System, San Diego, California, USA.
出版信息
J Hypertens. 2018 May;36(5):1115-1128. doi: 10.1097/HJH.0000000000001678.
OBJECTIVE
Elevated circulating chromogranin A (CHGA) is observed in human hypertension. CHGA is critical for granulogenesis and exocytosis of catecholamine stores from secretory large dense core vesicles (LDCV). This study aims to understand the morphological, molecular and phenotypic changes because of excess CHGA and the mechanistic link eventuating in hyper-adrenergic hypertension.
METHODS
Blood pressure and heart rate was monitored in mouse models expressing normal and elevated level of CHGA by telemetry. Catecholamine and oxidative stress radicals were measured. Adrenal ultrastructure, LDCV content and mitochondrial abundance were compared and respiration analyzed by Seahorse assay. Effect of CHGA dosage on adrenal ATP content, electron transport chain components and uncoupling protein 2 (UCP-2) were compared in vivo and in vitro.
RESULTS
Mice with excess-CHGA displayed hypertensive phenotype, higher heart rate and increased sympathetic tone. They had elevated plasma catecholamine and adrenal ROS levels. Excess-CHGA caused an increase in size and abundance of LDCV and adrenal mitochondria. Nonetheless, they had attenuated levels of ATP. Isolated adrenal mitochondria from mice with elevated CHGA showed higher maximal respiration rates in the presence of protonophore, which uncouples oxidative phosphorylation. Elevated CHGA resulted in overexpression of UCP2 and diminished ATP. In vitro in chromaffin cells overexpressing CHGA, concomitant increase in UCP2 protein and decreased ATP was detected.
CONCLUSION
Elevated CHGA expression resulted in underlying bioenergetic dysfunction in ATP production despite higher mitochondrial mass. The outcome was unregulated negative feedback of LDCV exocytosis and secretion, resulting in elevated levels of circulating catecholamine and consequently the hypertensive phenotype.
目的
在人类高血压中观察到循环嗜铬粒蛋白 A(CHGA)升高。CHGA 对于儿茶酚胺储存的颗粒发生和从分泌大致密核心囊泡(LDCV)的胞吐作用至关重要。本研究旨在了解由于 CHGA 过量引起的形态、分子和表型变化,以及导致高肾上腺素性高血压的机制联系事件。
方法
通过遥测监测表达正常和升高水平 CHGA 的小鼠模型中的血压和心率。测量儿茶酚胺和氧化应激自由基。比较肾上腺超微结构、LDCV 含量和线粒体丰度,并通过 Seahorse 测定分析呼吸。比较 CHGA 剂量对体内和体外肾上腺 ATP 含量、电子传递链成分和解偶联蛋白 2(UCP-2)的影响。
结果
具有过量-CHGA 的小鼠表现出高血压表型、更高的心率和增加的交感神经张力。他们的血浆儿茶酚胺和肾上腺 ROS 水平升高。过量-CHGA 导致 LDCV 和肾上腺线粒体的大小和丰度增加。尽管如此,它们的 ATP 水平降低。来自 CHGA 升高的小鼠的分离的肾上腺线粒体在质子载体存在下显示出更高的最大呼吸率,质子载体解耦联氧化磷酸化。升高的 CHGA 导致 UCP2 的过表达和 ATP 的减少。在过表达 CHGA 的嗜铬细胞中体外,检测到 UCP2 蛋白的同时增加和 ATP 的减少。
结论
尽管线粒体质量增加,但升高的 CHGA 表达导致潜在的生物能功能障碍,导致 ATP 产生减少。结果是 LDCV 胞吐和分泌的不受调节的负反馈,导致循环儿茶酚胺水平升高,进而导致高血压表型。
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