BMPR2 is required for postimplantation uterine function and pregnancy maintenance
Takashi Nagashima, … , Francesco J. DeMayo, Martin M. Matzuk
Takashi Nagashima, … , Francesco J. DeMayo, Martin M. Matzuk
Published May 8, 2013
Citation Information: J Clin Invest. 2013;123(6):2539-2550. https://doi.org/10.1172/JCI65710.
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Research Article Reproductive biology

BMPR2 is required for postimplantation uterine function and pregnancy maintenance

Abstract

Abnormalities in cell-cell communication and growth factor signaling pathways can lead to defects in maternal-fetal interactions during pregnancy, including immunologic rejection of the fetal/placental unit. In this study, we discovered that bone morphogenetic protein receptor type 2 (BMPR2) is essential for postimplantation physiology and fertility. Despite normal implantation and early placental/fetal development, deletion of Bmpr2 in the uterine deciduae of mice triggered midgestation abnormalities in decidualization that resulted in abnormal vascular development, trophoblast defects, and a deficiency of uterine natural killer cells. Absence of BMPR2 signaling in the uterine decidua consequently suppressed IL-15, VEGF, angiopoietin, and corin signaling. Disruption of these pathways collectively lead to placental abruption, fetal demise, and female sterility, thereby placing BMPR2 at a central point in the regulation of several physiologic signaling pathways and events at the maternal-fetal interface. Since trophoblast invasion and uterine vascular modification are implicated in normal placentation and fetal growth in humans, our findings suggest that abnormalities in uterine BMPR2-mediated signaling pathways can have catastrophic consequences in women for the maintenance of pregnancy.

Authors

Takashi Nagashima, Qinglei Li, Caterina Clementi, John P. Lydon, Francesco J. DeMayo, Martin M. Matzuk

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Figure 7

Altered expression of uNK cell and hypoxia genes in the Bmpr2 cKO uteri.

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Altered expression of uNK cell and hypoxia genes in the Bmpr2 ...
(A) Deletion of uterine Bmpr2 decreases mRNA levels of uNK cell#x02013;related genes in E9 trophoblast cells (***P lt; 0.001). Data are mean #x000b1; SEM. (B) Stimulated hypoxia signaling was detected in E9 trophoblast giant cells within Bmpr2 cKO uteri. The dashed lines represent the border between decidua and ectoplacental cone. Scale bar: 200 #x003bc;m. (C) Deletion of uterine Bmpr2 increases transcription levels of hypoxia-responsive genes in E9 trophoblast cells (*P lt; 0.05; **P lt; 0.01; ***P lt; 0.001). Data are mean #x000b1; SEM.