Fetal-derived adrenomedullin mediates the innate immune milieu of the placenta
Manyu Li, … , Christopher P. Mack, Kathleen M. Caron
Manyu Li, … , Christopher P. Mack, Kathleen M. Caron
Published May 1, 2013
Citation Information: J Clin Invest. 2013;123(6):2408-2420. https://doi.org/10.1172/JCI67039.
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Research Article Reproductive biology

Fetal-derived adrenomedullin mediates the innate immune milieu of the placenta

Abstract

The remodeling of maternal uterine spiral arteries (SAs) is an essential process for ensuring low-resistance, high-capacitance blood flow to the growing fetus. Failure of SAs to remodel is causally associated with preeclampsia, a common and life-threatening complication of pregnancy that is harmful to both mother and fetus. Here, using both loss-of-function and gain-of-function genetic mouse models, we show that expression of the pregnancy-related peptide adrenomedullin (AM) by fetal trophoblast cells is necessary and sufficient to promote appropriate recruitment and activation of maternal uterine NK (uNK) cells to the placenta and ultimately facilitate remodeling of maternal SAs. Placentas that lacked either AM or its receptor exhibited reduced fetal vessel branching in the labyrinth, failed SA remodeling and reendothelialization, and markedly reduced numbers of maternal uNK cells. In contrast, overexpression of AM caused a reversal of these phenotypes with a concomitant increase in uNK cell content in vivo. Moreover, AM dose-dependently stimulated the secretion of numerous chemokines, cytokines, and MMPs from uNK cells, which in turn induced VSMC apoptosis. These data identify an essential function for fetal-derived factors in the maternal vascular adaptation to pregnancy and underscore the importance of exploring AM as a biomarker and therapeutic agent for preeclampsia.

Authors

Manyu Li, Nicole M.J. Schwerbrock, Patricia M. Lenhart, Kimberly L. Fritz-Six, Mahita Kadmiel, Kathleen S. Christine, Daniel M. Kraus, Scott T. Espenschied, Helen H. Willcockson, Christopher P. Mack, Kathleen M. Caron

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Figure 1

Fetal loss of Adm causes trophoblast apoptosis at the maternal-fetal interface.

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Fetal loss of Adm causes trophoblast apoptosis at the maternal-fetal int...
(A) In situ hybridization of Adm gene expression in WT E9.5 mouse placentas, revealing robust expression in parietal TGCs. (B) Digital zoom of boxed region in A (enlarged ×2-fold), showing punctuate Adm staining in TGCs lining the ectoplacental cone (epc) at the innermost border of the maternal-fetal interface and little to no expression in the chorionic plate (cp), embryo (emb), or fetal membranes (fm). (C) Adm expression persisted in TGCs at E13.5 (arrows) and was diffusely expressed in stromal cells throughout the maternal decidua (de). The labyrinth (lb) and spongiotrophoblast-containing junctional zone (jz) expressed little to no Adm. (D) H&E staining of placentas from Adm+/+ and Adm–/– littermates revealed largely normal structures, with no difference in the thickness of the labyrinth layer (Supplemental Figure 1). Digital zoom of central part of placentas is shown at the right of each image (enlarged ×1.5-fold). (E) TUNEL staining of placentas from Adm+/+ and Adm–/– littermates showed a prominent band of apoptosing cells in Adm–/– placentas that colocalized to TGC location and correlated with the high level of Adm expression in these cells. For better clarity and data presentation, the original colors from the captured images in E were inverted using Adobe Photoshop. Original magnification, ×4 (AC). Scale bars: 1 mm (D); 500 μM (E).