Beacon Discovery, 6118 Nancy Ridge Drive, San Diego, CA 92121, USA.
Arena Pharmaceuticals, 6154 Nancy Ridge Drive, San Diego, CA 92121, USA.
Cell Signal. 2018 Oct;50:9-24. doi: 10.1016/j.cellsig.2018.06.007. Epub 2018 Jun 19.
Angiotensin (1-7) has been reported to be a ligand for the GPCR MAS1. Small molecule MAS1 modulators have also been recently characterized. Aside from convincing evidence for MAS1 activation of Gq signaling, little is known about MAS1 mediated signaling pathways initiated by these ligands, especially Ang (1-7). We performed a comprehensive characterization of recombinant MAS1 signaling induced by Ang (1-7) and small molecule ligands through numerous G protein-dependent and independent pathways, and in a signaling pathway agnostic approach. We find that small molecule ligands modulate numerous G protein-dependent and independent pathways through MAS1, including Gq and Gi pathways, GTPγS binding, β-arrestin recruitment, Erk1/2 and Akt phosphorylation, arachidonic acid release, and receptor internalization. Moreover, in dynamic mass redistribution (DMR) assays that provide a pathway-agnostic readout of cellular responses, small molecule agonists produced robust responses. In contrast, Ang (1-7) failed to induce or block signaling in any of these assay platforms. We detected specific binding of radiolabeled Ang (1-7) to rat aortic endothelial cell (RAEC) membranes, but not to recombinant MAS1. Biphasic, concentration-dependent biased signaling responses to Ang II were detected in RAEC. These phases were associated with vastly different DMR characteristics and this likely provides a molecular basis for previously observed concentration-dependent divergent physiological actions of Ang II. Both phases of Ang II signaling in RAECs were potently inhibited by Ang (1-7), providing a plausible molecular mechanism for Ang (1-7) as counter regulator of the Ang II- AT1 axis, responsible at least in part for Ang (1-7) physiological activities.
血管紧张素(1-7)已被报道为 GPCR MAS1 的配体。最近也对小分子 MAS1 调节剂进行了表征。除了 MAS1 激活 Gq 信号的令人信服的证据外,对于这些配体启动的 MAS1 介导的信号通路知之甚少,特别是血管紧张素(1-7)。我们通过许多 G 蛋白依赖和非依赖途径以及信号通路无偏倚方法,对血管紧张素(1-7)和小分子配体诱导的重组 MAS1 信号进行了全面表征。我们发现,小分子配体通过 MAS1 调节许多 G 蛋白依赖和非依赖途径,包括 Gq 和 Gi 途径、GTPγS 结合、β-arrestin 募集、Erk1/2 和 Akt 磷酸化、花生四烯酸释放和受体内化。此外,在提供细胞反应无偏倚读数的动态质量重分布(DMR)测定中,小分子激动剂产生了强大的反应。相比之下,血管紧张素(1-7)在任何这些测定平台上都不能诱导或阻断信号。我们检测到放射性标记的血管紧张素(1-7)与大鼠主动脉内皮细胞(RAEC)膜的特异性结合,但与重组 MAS1 不结合。在 RAEC 中检测到血管紧张素 II 的双相、浓度依赖性偏倚信号反应。这些相与截然不同的 DMR 特征相关联,这可能为以前观察到的血管紧张素 II 浓度依赖性不同生理作用提供了分子基础。RAEC 中血管紧张素 II 信号的两个相均被血管紧张素(1-7)强烈抑制,为血管紧张素(1-7)作为血管紧张素 II-AT1 轴的反向调节剂提供了合理的分子机制,至少部分负责血管紧张素(1-7)的生理活性。
