微血管内皮 Kir2.1 通道受损导致人类高血压的内皮功能障碍

IF 4.1 2区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS American journal of physiology. Heart and circulatory physiology Pub Date : 2024-10-01 Epub Date: 2024-08-30 DOI:10.1152/ajpheart.00732.2023
Natalia F Do Couto, Ibra Fancher, Sara T Granados, Jacqueline Cavalcante-Silva, Katie M Beverley, Sang Joon Ahn, Chueh-Lung Hwang, Shane A Phillips, Irena Levitan
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引用次数: 0

摘要

高血压与内皮功能因 NO 的贡献减少而下降有关。我们以前曾发现,小鼠和人类阻力动脉中血流诱导的 NO 生成关键取决于内皮内向纠正 K+ 通道(Kir2.1)。本研究的目的是确定这些通道是否会导致内皮功能受损(通过高血压患者外周阻力动脉的血流诱导血管舒张(FIV)测量)。我们测量了从正常血压受试者(n=19;SBP:115±27mmHg;DBP:75.3±5.7mmHg)和高血压受试者(n=13;SBP:146.1±15.2mmHg;DBP:94.4±6.9mmHg)的皮下脂肪活检组织中分离出来的血管中的 FIV。我们发现,与血压正常的成年人相比,高血压成年人的 FIV 明显降低,这表明高血压成年人的 FIV 受到了损害,其部分原因是 Kir2.1 依赖性血管舒张功能降低。具体来说,我们的研究表明,药物抑制 Kir2.1 或使用内皮特异性腺病毒载体 dnKir2.1 在功能上下调 Kir2.1,可显著降低正常血压受试者的 FIV,但对高血压成人的影响较小。Kir2.1 依赖性血管扩张与 SBP 和 DBP 呈负相关,表明 Kir2.1 对 FIV 的贡献随着血压的升高而降低。此外,将血压正常的成人血管暴露于急性高压会导致 Kir2.1 的贡献丧失,因为高压会损害血管舒张。而用 dnKir2.1 培养这些血管则不会产生任何影响。在血管内皮中过表达 wtKir2.1 会在一定程度上改善所有参与者的动脉血管舒张功能,高血压成人的恢复程度更高。我们的数据表明,高压诱导的 Kir2.1 抑制是高血压内皮功能障碍的一个重要机制。
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Impairment of microvascular endothelial Kir2.1 channels contributes to endothelial dysfunction in human hypertension.

Hypertension is associated with decreased endothelial function through reduced contributions of nitric oxide (NO). We previously discovered that flow-induced NO production in resistance arteries of mice and humans critically depends on endothelial inwardly rectifying K+ (Kir2.1) channels. The goal of this study was to establish whether these channels contribute to the impairment of endothelial function, measured by flow-induced vasodilation (FIV) in peripheral resistance arteries of humans with hypertension. We measured FIV in vessels isolated from subcutaneous fat biopsies from 32 subjects: normotensive [n = 19; 30.6 ± 9.8 yr old; systolic blood pressure (SBP): 115.2 ± 7 mmHg; diastolic blood pressure (DBP): 75.3 ± 5.7 mmHg] and hypertensive (n = 13; 45.3 ± 15.3 yr old; SBP: 146.1 ± 15.2 mmHg; DBP: 94.4 ± 6.9 mmHg). Consistent with previous studies, we find that FIV is impaired in hypertensive adults as demonstrated by a significant reduction in FIV when compared with the normotensive adults. Furthermore, our data suggest that the impairment of FIV in hypertensive adults is partially attributed to a reduction in Kir2.1-dependent vasodilation. Specifically, we show that blocking Kir2.1 with ML133 or functionally downregulating Kir2.1 with endothelial-specific adenoviral vector containing dominant-negative Kir2.1 (dnKir2.1) result in a significant reduction in FIV in normotensive subjects but with a smaller effect in hypertensive adults. The Kir2.1-dependent vasodilation was negatively correlated to both SBP and DBP, indicating that the Kir2.1 contribution to FIV decreases as blood pressure increases. In addition, we show that exposing vessels from normotensive adults to acute high-pressure results in loss of Kir2.1 contribution, as high pressure impairs vasodilation. No effect is seen when these vessels were incubated with dnKir2.1. Overexpressing wtKir2.1 in the endothelium resulted in some improvement in vasodilation in arteries from all participants, with a greater recovery in hypertensive adults. Our data suggest that hypertension-induced suppression of Kir2.1 is an important mechanism underlying endothelial dysfunction in hypertension.NEW & NOTEWORTHY Impairment of endothelial function under high blood pressure is linked to the loss of inwardly rectifying K+ (Kir2.1) channels activity in human resistance arteries, leading to a reduction in flow-induced vasodilation and possibly leading to a vicious cycle between elevation of blood pressure, and further impairment of Kir2.1 function and flow-induced vasodilation.

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来源期刊
CiteScore
9.60
自引率
10.40%
发文量
202
审稿时长
2-4 weeks
期刊介绍: The American Journal of Physiology-Heart and Circulatory Physiology publishes original investigations, reviews and perspectives on the physiology of the heart, vasculature, and lymphatics. These articles include experimental and theoretical studies of cardiovascular function at all levels of organization ranging from the intact and integrative animal and organ function to the cellular, subcellular, and molecular levels. The journal embraces new descriptions of these functions and their control systems, as well as their basis in biochemistry, biophysics, genetics, and cell biology. Preference is given to research that provides significant new mechanistic physiological insights that determine the performance of the normal and abnormal heart and circulation.
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