Ablation of Indian hedgehog in the murine uterus results in decreased cell cycle progression, aberrant epidermal growth factor signaling, and increased estrogen signaling

Heather L. Franco; Kevin Y. Lee; Russell R. Broaddus; Lisa D. White; Beate Lanske; John P. Lydon; Jae Wook Jeong; Francesco J. DeMayo

doi:10.1095/biolreprod.109.080259

Ablation of Indian hedgehog in the murine uterus results in decreased cell cycle progression, aberrant epidermal growth factor signaling, and increased estrogen signaling

Heather L. Franco, Kevin Y. Lee, Russell R. Broaddus, Lisa D. White, Beate Lanske, John P. Lydon, Jae Wook Jeong, Francesco J. DeMayo

Pathology

Research output: Contribution to journal › Article › peer-review

63 Scopus citations

Abstract

Conditional ablation of Indian hedgehog (Ihh) in the murine uterus results in mice that are sterile because of defects in embryo implantation. We performed microarray analysis on these mice at the time point at which the Ihh target genes are induced by the administration of exogenous hormone to mimic Day 3.5 of pregnancy. This analysis identified 863 genes altered by the conditional ablation of Ihh. Of these, genes that regulated the cell cycle were overrepresented. In addition, genes involved in epidermal growth factor (EGF) and estrogen (E2) signaling were found to be deregulated upon Ihh ablation. Furthermore, upon conditional ablation of Ihh, 15-mo-old mice exhibited hallmarks of estrogenized uteri, such as cystically dilated glands and hyalinized stroma. Thus, Ihh regulates embryo implantation by having an impact on the cell cycle, EGF signaling, and E2 signaling.

Original language	English (US)
Pages (from-to)	783-790
Number of pages	8
Journal	Biology of reproduction
Volume	82
Issue number	4
DOIs	https://doi.org/10.1095/biolreprod.109.080259
State	Published - Apr 2010

Keywords

Estrogen
Implantation
Indian hedgehog
Mouse
Uterus

ASJC Scopus subject areas

Reproductive Medicine
Cell Biology

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10.1095/biolreprod.109.080259

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Franco, H. L., Lee, K. Y., Broaddus, R. R., White, L. D., Lanske, B., Lydon, J. P., Jeong, J. W., & DeMayo, F. J. (2010). Ablation of Indian hedgehog in the murine uterus results in decreased cell cycle progression, aberrant epidermal growth factor signaling, and increased estrogen signaling. Biology of reproduction, 82(4), 783-790. https://doi.org/10.1095/biolreprod.109.080259

Ablation of Indian hedgehog in the murine uterus results in decreased cell cycle progression, aberrant epidermal growth factor signaling, and increased estrogen signaling. / Franco, Heather L.; Lee, Kevin Y.; Broaddus, Russell R. et al.
In: Biology of reproduction, Vol. 82, No. 4, 04.2010, p. 783-790.

Research output: Contribution to journal › Article › peer-review

Franco, HL, Lee, KY, Broaddus, RR, White, LD, Lanske, B, Lydon, JP, Jeong, JW & DeMayo, FJ 2010, 'Ablation of Indian hedgehog in the murine uterus results in decreased cell cycle progression, aberrant epidermal growth factor signaling, and increased estrogen signaling', Biology of reproduction, vol. 82, no. 4, pp. 783-790. https://doi.org/10.1095/biolreprod.109.080259

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abstract = "Conditional ablation of Indian hedgehog (Ihh) in the murine uterus results in mice that are sterile because of defects in embryo implantation. We performed microarray analysis on these mice at the time point at which the Ihh target genes are induced by the administration of exogenous hormone to mimic Day 3.5 of pregnancy. This analysis identified 863 genes altered by the conditional ablation of Ihh. Of these, genes that regulated the cell cycle were overrepresented. In addition, genes involved in epidermal growth factor (EGF) and estrogen (E2) signaling were found to be deregulated upon Ihh ablation. Furthermore, upon conditional ablation of Ihh, 15-mo-old mice exhibited hallmarks of estrogenized uteri, such as cystically dilated glands and hyalinized stroma. Thus, Ihh regulates embryo implantation by having an impact on the cell cycle, EGF signaling, and E2 signaling.",

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Ablation of Indian hedgehog in the murine uterus results in decreased cell cycle progression, aberrant epidermal growth factor signaling, and increased estrogen signaling

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ASJC Scopus subject areas

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