Cory A. Rubel scite author profile

WNT4, a member of the Wnt family of ligands, is critical for the development of the female reproductive tract. Analysis of Wnt4 expression in the adult uterus during pregnancy indicates that it may play a role in the regulation of endometrial stromal cell proliferation, survival, and differentiation, which is required to support the developing embryo. To investigate the role of Wnt4 in adult uterine physiology, conditional ablation of Wnt4 using the PR(cre) mouse model was accomplished. Ablation of Wnt4 rendered female mice subfertile due to a defect in embryo implantation and subsequent defects in endometrial stromal cell survival, differentiation, and responsiveness to progesterone signaling. In addition to altered stromal cell function, the uteri of PR(cre/+)Wnt4(f/f) (Wnt4(d/d)) mice displayed altered epithelial differentiation characterized by a reduction in the number of uterine glands and the emergence of a p63-positive basal cell layer beneath the columnar luminal epithelial cells. The altered epithelial cell phenotype was further escalated by chronic estrogen treatment, which caused squamous cell metaplasia of the uterine epithelium in the Wnt4(d/d) mice. Thus, WNT4 is a critical regulator not only of proper postnatal uterine development, but also embryo implantation and decidualization.

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Research Resource: Genome-Wide Profiling of Progesterone Receptor Binding in the Mouse Uterus

Rubel

et al. 2012

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Progesterone (P4) signaling through its nuclear transcription factor, the progesterone receptor (PR), is essential for normal uterine function. Although deregulation of PR-mediated signaling is known to underscore uterine dysfunction and a number of endometrial pathologies, the early molecular mechanisms of this deregulation are unclear. To address this issue, we have defined the genome-wide PR cistrome in the murine uterus using chromatin immunoprecipitation (ChIP) followed by massively parallel sequencing (ChIP-seq). In uteri of ovariectomized mice, we identified 6367 PR-binding sites in the absence of P4 ligand; however, this number increased at nearly 3-fold (18,432) after acute P4 exposure. Sequence analysis revealed that approximately 73% of these binding sites contain a progesterone response element or a half-site motif recognized by the PR. Many previously identified P4 target genes known to regulate uterine function were found to contain PR-binding sites, confirming the validity of our methodology. Interestingly, when the ChIP-seq data were coupled with our microarray expression data, we identified a novel regulatory role for uterine P4 in circadian rhythm gene expression, thereby uncovering a hitherto unexpected new circadian biology for P4 in this tissue. Further mining of the ChIP-seq data revealed Sox17 as a direct transcriptional PR target gene in the uterus. As a member of the Sox transcription factor family, Sox17 represents a potentially novel mediator of PR action in the murine uterus. Collectively, our first line of analysis of the uterine PR cistrome provides the first insights into the early molecular mechanisms that underpin normal uterine responsiveness to acute P4 exposure. Future analysis promises to reveal the PR interactome and, in turn, potential therapeutic targets for the diagnosis and/or treatment of endometrial dysfunction.

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Epithelial progesterone receptor exhibits pleiotropic roles in uterine development and function

et al. 2011

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The ovarian steroid progesterone, acting through the progesterone receptor (PR), coordinates endometrial epithelial-stromal cell communication, which is critical for its development and function. PR expression in these cellular compartments is under tight temporal and endocrine control. Although ex vivo studies demonstrated the importance of stromal PR expression, they failed to show a role for epithelial PR in uterine function. Here, the in vivo role of PR in the uterine epithelium is defined using floxed PR (PR(f/f)) mice crossed to Wnt7a-Cre mice. Progesterone was unable to stimulate the expression of its epithelial target genes, including Ihh, in the Wnt7a-Cre(+)PR(f/-) mice. Analysis was conducted on Ihh to determine whether PR directly regulates epithelial gene transcription. ChIP-on-chip analysis identified PR binding sites in the 5'-flanking region of Ihh. Cotransfection of the proximal Ihh promoter with PR demonstrated that PR directly regulates Ihh transcription. Female Wnt7a-Cre(+)PR(f/-) mice are infertile due to defects in embryo attachment, stromal cell decidualization, and the inability to cease estrogen-induced epithelial cell proliferation. Finally, progesterone was unable to inhibit neonatal endometrial glandular development in Wnt7a-Cre(+)PR(f/-) mice. Thus, epithelial PR is necessary for the regulation of progesterone epithelial target gene expression, as well as uterine function and development.

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A Gata2-Dependent Transcription Network Regulates Uterine Progesterone Responsiveness and Endometrial Function

et al. 2016

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SUMMARY Altered progesterone responsiveness leads to female infertility and cancer, but underlying mechanisms remain unclear. Mice with uterine-specific ablation of Gata2 are infertile showing failures in embryo implantation, endometrial decidualization and uninhibited estrogen signaling. Gata2 deficiency results in reduced progesterone receptor (PGR) expression and attenuated progesterone signaling, as evidenced by genome-wide expression profiling and chromatin immunoprecipitation. GATA2 not only occupies at and promotes expression of Pgr, but also regulates downstream progesterone responsive genes in conjunction with the PGR. Additionally, Gata2 knockout uteri exhibit abnormal luminal epithelia with ectopic TRP63 expressing squamous cells and a cancer related molecular profile in a progesterone independent manner. Lastly, we found a conserved GATA2-PGR regulatory network in both human and mouse, based on gene signature and path analyses using gene expression profiles of human endometrial tissues. In conclusion, uterine Gata2 regulates a key regulatory network of gene expression for progesterone signaling at the early pregnancy stage.

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Constitutive Activation of Smoothened Leads to Female Infertility and Altered Uterine Differentiation in the Mouse1

Franco

Lee

Rubel

et al. 2010

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Previous work has identified Indian hedgehog (Ihh) as a major mediator of progesterone signaling during embryo implantation. Ihh acts through its downstream effector smoothened (Smo) to activate the GLI family of transcription factors. In order to gain a better understanding of Ihh action during embryo implantation, we expressed a Cre-recombinase-dependent constitutively activated SMO in the murine uterus using the Pgr(tm2(cre)Lyd) (PR(cre)) mouse model [Pgr(tm2(cre)Lyd+)Gt(ROSA)26Sor(tm1(Smo/EYFP)Amc)(+) (PR(cre/+)SmoM2(+))]. Female PR(cre/+)SmoM2(+) mice were infertile. They exhibited normal serum progesterone levels and normal ovulation, but their ova failed to be fertilized in vivo and their uterus failed to undergo the artificially induced decidual response. Examination of the PR(cre/+)SmoM2(+) uteri revealed numerous features such as uterine hypertrophy, the presence of a stratified luminal epithelial cell layer, a reduced number of uterine glands, and an endometrial stroma that had lost its normal morphologic characteristics. Microarray analysis of 3-mo-old PR(cre/+)SmoM2(+) uteri demonstrated a chondrocytic signature and confirmed that constitutive activation of PR(cre/+)SmoM2(+) increased extracellular matrix production. Thus, constitutive activation of Smo in the mouse uterus alters postnatal uterine differentiation which interferes with early pregnancy. These results provide new insight into the role of Hedgehog signaling during embryo implantation.

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Cory A. Rubel

WNT4 is a key regulator of normal postnatal uterine development and progesterone signaling during embryo implantation and decidualization in the mouse

Research Resource: Genome-Wide Profiling of Progesterone Receptor Binding in the Mouse Uterus

Epithelial progesterone receptor exhibits pleiotropic roles in uterine development and function

A Gata2-Dependent Transcription Network Regulates Uterine Progesterone Responsiveness and Endometrial Function

Constitutive Activation of Smoothened Leads to Female Infertility and Altered Uterine Differentiation in the Mouse1

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