Dept. Pharmacology and Therapeutics, School of Medicine and School of Pharmacy, University College Cork (UCC), Cork, Ireland; Departments Obstetrics and Paediatric Surgery, University of Leipzig, Leipzig, Germany.
Dept. Pharmacology and Therapeutics, School of Medicine and School of Pharmacy, University College Cork (UCC), Cork, Ireland.
Eur J Pharmacol. 2018 Aug 15;833:116-123. doi: 10.1016/j.ejphar.2018.05.031. Epub 2018 May 21.
The heptapeptide angiotensin (Ang)-(1-7) is part of the beneficial arm of the renin-angiotensin system. Ang-(1-7) has cardiovascular protective effects, stimulates regeneration, and opposes the often detrimental effects of AngII. We recently identified the G protein-coupled receptors Mas and MrgD as receptors for the heptapeptide. Ala-Ang-(1-7) (Alamandine), a decarboxylated form of Ang-(1-7), has similar vasorelaxant effects, but has been described as only stimulating MrgD. Therefore, this study aimed to characterise the consequences of the lack of the carboxyl group in amino acid 1 on intracellular signalling and to identify the receptor fingerprint for Ala-Ang-(1-7). In primary endothelial and mesangial cells, Ala-Ang-(1-7) elevated cAMP concentration. Dose response curves generated with Ang-(1-7) and Ala-Ang-(1-7) significantly differed from each other, with a much lower EC and a bell-shape curve for Ala-Ang-(1-7). We provided pharmacological proof that both, Mas and MrgD, are functional receptors for Ala-Ang-(1-7). Consequently, in primary mesangial cells with genetic deficiency in both receptors, the heptapeptide failed to increase cAMP concentration. As we previously described for Ang-(1-7), the Ala-Ang-(1-7)-mediated cAMP increase in Mas/MrgD-transfected HEK293 cells and primary cells was blocked by the AT2 receptor blocker, PD123319. The very distinct dose-response curves for both heptapeptides could be explained by in silico modelling, electrostatic potential calculations, and an involvement of G for higher concentrations of Ala-Ang-(1-7). Our results identify Ala-Ang-(1-7) as a peptide with specific pharmacodynamic properties and builds the basis for the design of more potent and efficient Ang-(1-7) analogues for therapeutic intervention in a rapidly growing number of diseases.
七肽血管紧张素(Ang)-(1-7)是肾素-血管紧张素系统有益分支的一部分。Ang-(1-7)具有心血管保护作用,可刺激再生,并拮抗 AngII 的有害作用。我们最近发现 G 蛋白偶联受体 Mas 和 MrgD 是该七肽的受体。脱羧形式的 Ang-(1-7)Ala-Ang-(1-7)(alamandine)具有相似的血管舒张作用,但被描述为仅刺激 MrgD。因此,本研究旨在描述在氨基酸 1 处缺乏羧基对细胞内信号转导的影响,并鉴定 Ala-Ang-(1-7)的受体特征。在原代内皮细胞和系膜细胞中,Ala-Ang-(1-7)升高 cAMP 浓度。用 Ang-(1-7)和 Ala-Ang-(1-7)生成的剂量反应曲线彼此明显不同,Ala-Ang-(1-7)的 EC 更低且呈钟形曲线。我们提供了药理学证据表明,Mas 和 MrgD 都是 Ala-Ang-(1-7)的功能性受体。因此,在两种受体均基因缺失的原代系膜细胞中,该七肽未能增加 cAMP 浓度。正如我们之前对 Ang-(1-7)所述,在转染了 Mas/MrgD 的 HEK293 细胞和原代细胞中,Ala-Ang-(1-7)介导的 cAMP 增加被 AT2 受体阻滞剂 PD123319 阻断。两种七肽的非常不同的剂量反应曲线可以通过计算机模拟、静电势计算和对较高浓度的 Ala-Ang-(1-7)的 G 参与来解释。我们的结果将 Ala-Ang-(1-7)鉴定为一种具有特定药效学特性的肽,并为设计更有效和有效的 Ang-(1-7)类似物奠定了基础,以便在越来越多的疾病中进行治疗干预。
