Division of Cardiovascular Surgery, Department of Surgery, Tottori University Faculty of Medicine, Yonago, Japan.
Division of Regenerative Medicine and Therapeutics, Tottori University Graduate School of Medical Science, Yonago, Japan.
Hypertens Res. 2022 Feb;45(2):283-291. doi: 10.1038/s41440-021-00802-2. Epub 2021 Dec 1.
Cell-based therapy using adipose-derived stem cells (ADSCs) has emerged as a novel therapeutic approach to treat heart failure after myocardial infarction (MI). The purpose of this study was to determine whether inhibition of α1-adrenergic receptors (α1-ARs) in ADSCs attenuates ADSC sheet-induced improvements in cardiac functions and inhibition of remodeling after MI. ADSCs were isolated from fat tissues of Lewis rats. In in vitro studies using cultured ADSCs, we determined the mRNA levels of vascular endothelial growth factor (VEGF)-A and α1-AR under normoxia or hypoxia and the effects of norepinephrine and an α1-blocker, doxazosin, on the mRNA levels of angiogenic factors. Hypoxia increased α1-AR and VEGF mRNA levels in ADSCs. Norepinephrine further increased VEGF mRNA expression under hypoxia; this effect was abolished by doxazosin. Tube formation of human umbilical vein endothelial cells was promoted by conditioned media of ADSCs treated with the α1 stimulant phenylephrine under hypoxia but not by those of ADSCs pretreated with phenylephrine plus doxazosin. In in vivo studies using rats with MI, transplanted ADSC sheets improved cardiac functions, facilitated neovascularization, and suppressed fibrosis after MI. These effects were abolished by doxazosin treatment. Pathway analysis from RNA sequencing data predicted significant upregulation of α1-AR mRNA expression in transplanted ADSC sheets and the involvement of α1-ARs in angiogenesis through VEGF. In conclusion, doxazosin abolished the beneficial effects of ADSC sheets on rat MI hearts as well as the enhancing effect of norepinephrine on VEGF expression in ADSCs, indicating that ADSC sheets promote angiogenesis and prevent cardiac dysfunction and remodeling after MI via their α1-ARs.
基于细胞的治疗方法,使用脂肪来源的干细胞(ADSCs),已成为一种治疗心肌梗死后心力衰竭的新方法。本研究旨在确定 ADSC 片中α1-肾上腺素能受体(α1-ARs)的抑制是否能减轻 ADSC 片改善心肌梗死后心脏功能和抑制重构的作用。ADSCs 从 Lewis 大鼠的脂肪组织中分离出来。在体外培养的 ADSC 中,我们检测了常氧或低氧条件下血管内皮生长因子(VEGF)-A 和 α1-AR 的 mRNA 水平,以及去甲肾上腺素和α1-阻滞剂多沙唑嗪对血管生成因子 mRNA 水平的影响。低氧增加了 ADSC 中的 α1-AR 和 VEGF mRNA 水平。去甲肾上腺素在低氧条件下进一步增加 VEGF mRNA 的表达;这种作用被多沙唑嗪所消除。在低氧条件下,用苯肾上腺素刺激的 ADSC 条件培养基促进人脐静脉内皮细胞的管形成,但用苯肾上腺素加多沙唑嗪预处理的 ADSC 则不行。在心肌梗死大鼠的体内研究中,移植的 ADSC 片改善了心脏功能,促进了新血管形成,并抑制了心肌梗死后的纤维化。多沙唑嗪处理后,这些作用被消除。RNA 测序数据分析预测,移植的 ADSC 片中α1-AR mRNA 表达显著上调,α1-AR 通过 VEGF 参与血管生成。总之,多沙唑嗪消除了 ADSC 片对大鼠心肌梗死后心脏的有益作用,以及去甲肾上腺素对 ADSC 中 VEGF 表达的增强作用,表明 ADSC 片通过其 α1-AR 促进血管生成,预防心肌梗死后心脏功能障碍和重构。
