Background Angiotensin II type 1 receptor ( AT 1R) autoantibody ( AT 1- AA ) was first identified as a causative factor in preeclampsia. Unlike physiological ligand angiotensin II (Ang II ), AT 1- AA can induce vasoconstriction in a sustained manner, causing a series of adverse effects, such as vascular injury and poor placental perfusion. However, its underlying mechanisms remain unclear. Here, from the perspective of AT 1R internalization, the present study investigated the molecular mechanism of sustained vasoconstriction induced by AT 1R autoantibody. Methods and Results In the current study, we used the vascular-ring technique to determine that AT 1- AA -positive IgG, which was obtained from the sera of preeclamptic patients, induced long-term vasoconstriction in endothelium-intact or endothelium-denuded rat thoracic arteries. The effect was caused by prolonged activation of AT 1R downstream signals in vascular smooth muscle cells, including Ca2+, protein kinase C, and extracellular signal-regulated kinase 1 and 2. Then, using subcellular protein fractionation, cell surface protein biotinylation, and total internal reflection fluorescence, we found that AT 1- AA -positive IgG resulted in significantly less AT 1R internalization than in the Ang II treatment group. Moreover, through use of fluorescent tracing and bioluminescence resonance energy transfer, we found that AT 1- AA -positive IgG cannot induce the recruitment of β-arrestin1/2, which mediated receptor internalization. Then, the effect of sustained AT 1R activation induced by AT 1- AA -positive IgG was rescued by overexpression of β-arrestin2. Conclusions These data suggested that limited AT 1R internalization resulting from the inhibition of β-arrestin1/2 recruitment played an important role in sustained vasoconstriction induced by AT 1- AA -positive IgG, which may set the stage for avoiding AT 1R overactivation in the management of preeclampsia.
Keywords: angiotensin receptor; autoantibody; internalization; preeclampsia; vasoconstriction.