The detrimental role of angiotensin receptor agonistic autoantibodies in intrauterine growth restriction seen in preeclampsia

RA Irani, Y Zhang, SC Blackwell, CC Zhou… - Journal of Experimental …, 2009 - rupress.org
RA Irani, Y Zhang, SC Blackwell, CC Zhou, SM Ramin, RE Kellems, Y Xia
Journal of Experimental Medicine, 2009rupress.org
Growth-restricted fetuses are at risk for a variety of lifelong medical conditions.
Preeclampsia, a life-threatening hypertensive disorder of pregnancy, is associated with
fetuses who suffer from intrauterine growth restriction (IUGR). Recently, emerging evidence
indicates that preeclamptic women harbor AT1 receptor agonistic autoantibodies (AT1-AAs)
that contribute to the disease features. However, the exact role of AT1-AAs in IUGR and the
underlying mechanisms have not been identified. We report that these autoantibodies are …
Growth-restricted fetuses are at risk for a variety of lifelong medical conditions. Preeclampsia, a life-threatening hypertensive disorder of pregnancy, is associated with fetuses who suffer from intrauterine growth restriction (IUGR). Recently, emerging evidence indicates that preeclamptic women harbor AT1 receptor agonistic autoantibodies (AT1-AAs) that contribute to the disease features. However, the exact role of AT1-AAs in IUGR and the underlying mechanisms have not been identified. We report that these autoantibodies are present in the cord blood of women with preeclampsia and retain the ability to activate AT1 receptors. Using an autoantibody-induced animal model of preeclampsia, we show that AT1-AAs cross the mouse placenta, enter fetal circulation, and lead to small fetuses with organ growth retardation. AT1-AAs also induce apoptosis in the placentas of pregnant mice, human villous explants, and human trophoblast cells. Finally, autoantibody-induced IUGR and placental apoptosis are diminished by either losartan or an autoantibody-neutralizing peptide. Thus, these studies identify AT1-AA as a novel causative factor of preeclampsia-associated IUGR and offer two possible underlying mechanisms: a direct detrimental effect on fetal development by crossing the placenta and entering fetal circulation, and indirectly through AT1-AA–induced placental damage. Our findings highlight AT1-AAs as important therapeutic targets.
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