蛋白质组学图谱显示早发性高血压大鼠脑动脉血管生成失调。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-01 DOI:10.1016/j.jbc.2023.105221
Joakim A Bastrup, Thomas A Jepps
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引用次数: 0

摘要

高血压与血管异常有关,包括重塑和稀疏。这些过程在脑血管疾病的发展中起着重要作用;然而,导致这些疾病的机制变化并没有得到很好的表征。使用基于数据独立采集的质谱分析,我们确定了自发性高血压大鼠(SHR)在早发性高血压前期和早期大脑动脉中的蛋白质变化,该模型类似于人类原发性高血压。我们的分析发现,与血压正常的Wistar Kyoto大鼠相比,在12周龄的自发性高血压大鼠中,125种蛋白质的表达水平显著上调或下调。通过血管生成富集分析,我们进一步确定了血管生成蛋白的严重失衡,这种失衡在高血压早期发病时促进了脑动脉中的抗血管生成谱。与之前发表的数据相比,我们证明这种血管生成失衡在年龄匹配的SHR的肠系膜和肾动脉中并不存在。最后,我们鉴定了两种蛋白质(Fbln5和Cdh13),与其他动脉床相比,它们在脑动脉中的表达水平发生了严重变化。SHR对脑动脉血管生成失衡的观察揭示了高血压早期脑血管系统的关键蛋白质变化,并为脑血管疾病的早期病理学提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Proteomic mapping reveals dysregulated angiogenesis in the cerebral arteries of rats with early-onset hypertension.

Hypertension is associated with the presence of vascular abnormalities, including remodeling and rarefaction. These processes play an important role in cerebrovascular disease development; however, the mechanistic changes leading to these diseases are not well characterized. Using data-independent acquisition-based mass spectrometry analysis, here we determined the protein changes in cerebral arteries in pre- and early-onset hypertension from the spontaneously hypertensive rat (SHR), a model that resembles essential hypertension in humans. Our analysis identified 125 proteins with expression levels that were significantly upregulated or downregulated in 12-week-old spontaneously hypertensive rats compared to normotensive Wistar Kyoto rats. Using an angiogenesis enrichment analysis, we further identified a critical imbalance in angiogenic proteins that promoted an anti-angiogenic profile in cerebral arteries at early onset of hypertension. In a comparison to previously published data, we demonstrate that this angiogenic imbalance is not present in mesenteric and renal arteries from age-matched SHRs. Finally, we identified two proteins (Fbln5 and Cdh13), whose expression levels were critically altered in cerebral arteries compared to the other arterial beds. The observation of an angiogenic imbalance in cerebral arteries from the SHR reveals critical protein changes in the cerebrovasculature at the early onset of hypertension and provides novel insights into the early pathology of cerebrovascular disease.

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