Dll4 assembles the umbilical cord and placental vasculature
Derek C. Sung, Hana A. Ahanger, Sweta Narayan, Jesse A. Pace, Mei Chen, Jisheng Yang, Siqi Gao, T.C.S. Keller IV, Jenna Bockman, Xiaowen Chen, Erica Nguyen, Alan T. Tang, Patricia Mericko-Ishizuka, Ivan Maillard, Mark L. Kahn
Derek C. Sung, Hana A. Ahanger, Sweta Narayan, Jesse A. Pace, Mei Chen, Jisheng Yang, Siqi Gao, T.C.S. Keller IV, Jenna Bockman, Xiaowen Chen, Erica Nguyen, Alan T. Tang, Patricia Mericko-Ishizuka, Ivan Maillard, Mark L. Kahn
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Research Article Development Reproductive biology Vascular biology

Dll4 assembles the umbilical cord and placental vasculature

Abstract

Proper development of the umbilical cord and placental vasculature is essential for embryonic development. While the allantois is known give rise to endothelial cells (ECs) within the placenta, whether the allantois gives rise to ECs in the umbilical cord is debated. Furthermore, a lack of genetic tools to study placental vascular development independent of the embryo proper has hindered robust investigation into the primary cause of vascular defects from early studies utilizing global KOs. In this study, we delineate the contribution of the allantois to the umbilical vessels and utilize a mouse genetic tool previously developed by our lab to revisit the role of Notch signaling during placental development. We show that the allantois has mosaic contribution to the umbilical endothelium with higher contributions closer to the placenta. Allantoic deletion of Dll4 disrupts umbilical cord and placental vascular formation with secondary defects in the heart. Lastly, we identify Unc5b downstream of Notch signaling that restricts EC migration while promoting chemokine signaling for vascular smooth muscle cell (vSMC) recruitment to arteries. These findings identify a genetic tool for investigating placental vascular development and give insights into the ontogeny and mechanisms of placental vascular and umbilical cord development.

Authors

Derek C. Sung, Hana A. Ahanger, Sweta Narayan, Jesse A. Pace, Mei Chen, Jisheng Yang, Siqi Gao, T.C.S. Keller IV, Jenna Bockman, Xiaowen Chen, Erica Nguyen, Alan T. Tang, Patricia Mericko-Ishizuka, Ivan Maillard, Mark L. Kahn

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Figure 4

Dll4 is required for expansion of the placental labyrinth and syncytiotrophoblast patterning.

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Dll4 is required for expansion of the placental labyrinth and syncytiot...
(AD) Immunofluorescence staining of E10.5 and E11.5 control and Hoxa13Cre;Dll4fl/fl en face placental sections for CD31 (yellow) and αSMA (red). Boxes show magnified regions of the chorioalantoic plate. Dotted line outlines the chorioallantoic plate. Yellow arrowheads point to dilated (E10.5) capillaries that become collapsed (E11.5). A, artery; V, vein. Scale bars: 500 μm. (E and F) Quantification of the chorioallantoic plate area (E) and capillary area in the labyrinth (F) (n = 6–19 placentas per genotype). (G) H&E staining of E9.5, E10.5, and E11.5 control and Hoxa13Cre;Dll4fl/fl placentas. Dotted lines demarcate the labyrinth region of the placenta. Scale bars: 50 μm. (H) Quantification of labyrinth area as a percentage of total cross-sectional area (n = 5–17 placentas per genotype). Data represent mean ± SD. An unpaired t test was performed for statistical analysis.