Gap junction communication between uterine stromal cells plays a critical role in pregnancy-associated neovascularization and embryo survival

doi:10.1242/dev.019810

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Development ePress online publication date 3 Jul 2008
doi: 10.1242/dev.019810

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Research article: Development and Disease

Gap junction communication between uterine stromal cells plays a critical role in pregnancy-associated neovascularization and embryo survival

Mary J. Laws, Robert N. Taylor, Neil Sidell, Francesco J. DeMayo, John P. Lydon, David E. Gutstein, Milan K. Bagchi, and Indrani C. Bagchi^*
^* Author for correspondence (e-mail: ibagchi{at}uiuc.edu)

In the uterus, the formation of new maternal blood vesselsin the stromal compartment at the time of embryonic implantationis critical for the establishment and maintenance of pregnancy.Although uterine angiogenesis is known to be influenced by thesteroid hormones estrogen (E) and progesterone (P), the underlyingmolecular pathways remain poorly understood. Here, we reportthat the expression of connexin 43 (Cx43), a major gap junctionprotein, is markedly enhanced in response to E in uterine stromalcells surrounding the implanted embryo during the early phasesof pregnancy. Conditional deletion of the Cx43 gene in thesestromal cells and the consequent disruption of their gap junctionsled to a striking impairment in the development of new bloodvessels within the stromal compartment, resulting in the arrestof embryo growth and early pregnancy loss. Further analysisof this phenotypical defect revealed that loss of Cx43 expressionresulted in aberrant differentiation of uterine stromal cellsand impaired production of several key angiogenic factors, includingthe vascular endothelial growth factor (Vegf). Ablation of CX43expression in human endometrial stromal cells in vitro led tosimilar findings. Collectively, these results uncovered a uniquelink between steroid hormone-regulated cell-cell communicationwithin the pregnant uterus and the development of an elaboratevascular network that supports embryonic growth. Our study presentsthe first evidence that Cx43-type gap junctions play a criticaland conserved role in modulating stromal differentiation, andregulate the consequent production of crucial paracrine signalsthat control uterine neovascularization during implantation.

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