GR突变大鼠的盐敏感性高血压与血浆多不饱和脂肪酸水平和主动脉血管反应性的改变有关

S. Verouti, G. Aeschlimann, Q. Wang, D. Ancin Del Olmo, A. C. Peyter, S. Menétrey, D. V. Winter, A. Odermatt, D. Pearce, E. Hummler, P. E. Vanderriele
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摘要

在人类中,糖皮质激素的抗药性是由于糖皮质激素受体(GR)的突变造成的。这些突变大多导致配体结合、反式激活和/或转位能力下降,尽管蛋白质丰度正常。然而,疾病的严重程度或发病年龄与受体功能丧失的程度之间并没有明确的基因型表型关系。此前,我们记录了 GR+/- 大鼠品系出现糖皮质激素抵抗的临床特征,即高皮质醇血症、肾上腺增生和盐敏感性高血压。在本研究中,我们分析了因第3外显子缺失而杂合突变的GR+/em4大鼠模型,该外显子包括第二个锌指,包括DNA结合、二聚化和核定位信号域。在标准饮食中,突变大鼠的皮质酮水平呈上升趋势,收缩压和心率正常,但出现肾上腺增生。它们表现出肾上腺可溶性环氧化物羟化酶(sEH)增加,有利于活性较低的多不饱和脂肪酸的增加。事实上,随着年龄的增长(10周龄与5周龄相比)以及转为高盐饮食并伴有盐敏感性高血压后,非活性ω-3和ω-6多不饱和脂肪酸(如5(6)-DiHETrE或9(10)-DiHOME)会明显增加。在胸主动脉中,可溶性环氧化物水解酶(sEH)蛋白丰度降低导致标准饮食下的血管反应性改变,而高盐饮食则会减弱血管反应性。总之,影响配体结合结构域和二聚化结构域的GR突变会导致GR信号转导失调,在没有明显的矿物质皮质激素过量的情况下,有利于盐敏感性高血压的发生。
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Salt-sensitive hypertension in GR mutant rats is associated with altered plasma polyunsaturated fatty acid levels and aortic vascular reactivity

In humans, glucocorticoid resistance is attributed to mutations in the glucocorticoid receptor (GR). Most of these mutations result in decreased ligand binding, transactivation, and/or translocation, albeit with normal protein abundances. However, there is no clear genotype‒phenotype relationship between the severity or age at disease presentation and the degree of functional loss of the receptor. Previously, we documented that a GR+/− rat line developed clinical features of glucocorticoid resistance, namely, hypercortisolemia, adrenal hyperplasia, and salt-sensitive hypertension. In this study, we analyzed the GR+/em4 rat model heterozygously mutant for the deletion of exon 3, which encompasses the second zinc finger, including the domains of DNA binding, dimerization, and nuclear localization signals. On a standard diet, mutant rats exhibited a trend toward increased corticosterone levels and a normal systolic blood pressure and heart rate but presented with adrenal hyperplasia. They exhibited increased adrenal soluble epoxide hydroxylase (sEH), favoring an increase in less active polyunsaturated fatty acids. Indeed, a significant increase in nonactive omega-3 and omega-6 polyunsaturated fatty acids, such as 5(6)-DiHETrE or 9(10)-DiHOME, was observed with advanced age (10 versus 5 weeks old) and following a switch to a high-salt diet accompanied by salt-sensitive hypertension. In thoracic aortas, a reduced soluble epoxide hydrolase (sEH) protein abundance resulted in altered vascular reactivity upon a standard diet, which was blunted upon a high-salt diet. In conclusion, mutations in the GR affecting the ligand-binding domain as well as the dimerization domain resulted in deregulated GR signaling, favoring salt-sensitive hypertension in the absence of obvious mineralocorticoid excess.

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