Laboratory of Physiopharmacology, University of Antwerp, Antwerp, Belgium.
Research Group Cardiovascular Diseases, GENCOR Department, University of Antwerp, Antwerp, Belgium.
Am J Physiol Heart Circ Physiol. 2021 Jun 1;320(6):H2416-H2428. doi: 10.1152/ajpheart.00914.2020. Epub 2021 May 14.
Endothelial cells (ECs) secrete different paracrine signals that modulate the function of adjacent cells; two examples of these paracrine signals are nitric oxide (NO) and neuregulin-1 (NRG1), a cardioprotective growth factor. Currently, it is undetermined whether one paracrine factor can compensate for the loss of another. Herein, we hypothesized that NRG1 can compensate for endothelial NO synthase (eNOS) deficiency. We characterized eNOS null and wild-type (WT) mice by cardiac ultrasound and histology and we determined circulating NRG1 levels. In a separate experiment, eight groups of mice were divided into four groups of eNOS null mice and WT mice; half of the mice received angiotensin II (ANG II) to induce a more severe phenotype. Mice were randomized to daily injections with NRG1 or vehicle for 28 days. eNOS deficiency increased NRG1 plasma levels, indicating that ECs increase their NRG1 expression when NO production is deleted. eNOS deficiency also increased blood pressure, lowered heart rate, induced cardiac fibrosis, and affected diastolic function. In eNOS null mice, ANG II administration not only increased cardiac fibrosis but also induced cardiac hypertrophy and renal fibrosis. NRG1 administration prevented cardiac and renal hypertrophy and fibrosis caused by ANG II infusion and eNOS deficiency. Moreover, expression in the myocardium is shown to be regulated by miR-134. This study indicates that administration of endothelium-derived NRG1 can compensate for eNOS deficiency in the heart and kidneys. ECs compensate for eNOS deficiency by increasing the secretion of NRG1. NRG1 administration prevents cardiac and renal hypertrophy and fibrosis caused by ANG II infusion and eNOS deficiency. NRG1 expression is regulated by miR-134.
内皮细胞 (ECs) 分泌不同的旁分泌信号,调节相邻细胞的功能;这些旁分泌信号的两个例子是一氧化氮 (NO) 和神经调节蛋白 1 (NRG1),一种心脏保护生长因子。目前,尚不确定一种旁分泌因子是否可以弥补另一种的缺失。在这里,我们假设 NRG1 可以弥补内皮型一氧化氮合酶 (eNOS) 缺乏。我们通过心脏超声和组织学特征来描述 eNOS 缺失和野生型 (WT) 小鼠,并测定循环 NRG1 水平。在一个单独的实验中,将八组小鼠分为四组 eNOS 缺失小鼠和 WT 小鼠;其中一半的小鼠接受血管紧张素 II (ANG II) 注射以诱导更严重的表型。将小鼠随机分为 NRG1 或载体每日注射组,共 28 天。eNOS 缺乏增加了 NRG1 血浆水平,表明当 NO 生成缺失时,EC 增加其 NRG1 表达。eNOS 缺乏还增加了血压,降低了心率,诱导了心肌纤维化,并影响了舒张功能。在 eNOS 缺失小鼠中,ANG II 给药不仅增加了心肌纤维化,还诱导了心肌肥大和肾纤维化。NRG1 给药可预防 ANG II 输注和 eNOS 缺乏引起的心脏和肾脏肥大和纤维化。此外,还显示心肌中 的表达受 miR-134 调节。本研究表明,内皮衍生的 NRG1 的给药可以补偿心脏和肾脏中的 eNOS 缺乏。EC 通过增加 NRG1 的分泌来补偿 eNOS 缺乏。NRG1 给药可预防 ANG II 输注和 eNOS 缺乏引起的心脏和肾脏肥大和纤维化。NRG1 表达受 miR-134 调节。
