Estrogen actions in the ovary revisited

doi:10.1677/joe.0.1750269

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Estrogen actions in the ovary revisited

KL Britt and JK Findlay

Estrogens are synonymous with fertility and infertility in mammals. Our knowledge of the biological actions of estrogens, however, is incomplete. Three recent developments have thrown new light on the actions of estrogens in mammalian reproduction that will lead to a greater understanding of their functions. They are (a) the identification of a second estrogen receptor, called ERbeta, (b) the identification of ligand-specific ER coactivators and (c) mouse models with targeted disruption of the genes encoding both ER and the aromatase enzyme. These models provide for the first time animals which are either unable to respond to endogenous or exogenous estrogens (ER 'knockouts'), or can respond to exogenous estrogen but do not make endogenous estrogen (aromatase 'knockout' or ArKO). Furthermore, the ArKO mouse has provided a model to study the effects on the ovary of exogenous estrogens of plant and synthetic origin that are of clinical relevance. The data show that estrogens are essential for fertility but not for survival after birth or for the formation of the reproductive tract. This commentary focuses on the roles of estrogen in folliculogenesis and in the maintenance of the ovarian somatic cell phenotype in the mouse. We also hypothesize that the ERalpha and ERbeta may subserve the proliferative and differentiative actions of estrogen, respectively, within a follicle. In summary, estrogen is obligatory for normal folliculogenesis beyond the antral stage and for the maintenance of the female phenotype of the somatic cells within the ovaries. This clearly demonstrates a major role for sex steroids in somatic cell differentiation in the gonads of eutherian mammals and challenges the central paradigm that the ovary is the default gonad, arising due to the absence of testicular defining signals. Evidence is also provided for the plasticity of the adult female gonad. Understanding the mechanisms of estrogen actions will provide an insight into the regulation of reproductive disorders afflicting women today, notably ovarian dysfunction and the menopause.

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HELP

SUBSCRIPTIONS

				C. Wang, E. R. Prossnitz, and S. K. Roy G Protein-Coupled Receptor 30 Expression Is Required for Estrogen Stimulation of Primordial Follicle Formation in the Hamster Ovary Endocrinology, September 1, 2008; 149(9): 4452 - 4461. [Abstract] [Full Text] [PDF]

				N. Xita, I. Georgiou, L. Lazaros, V. Psofaki, G. Kolios, and A. Tsatsoulis The synergistic effect of sex hormone-binding globulin and aromatase genes on polycystic ovary syndrome phenotype. Eur. J. Endocrinol., June 1, 2008; 158(6): 861 - 865. [Abstract] [Full Text] [PDF]

				K. Tomizuka, K. Horikoshi, R. Kitada, Y. Sugawara, Y. Iba, A. Kojima, A. Yoshitome, K. Yamawaki, M. Amagai, A. Inoue, et al. R-spondin1 plays an essential role in ovarian development through positively regulating Wnt-4 signaling Hum. Mol. Genet., May 1, 2008; 17(9): 1278 - 1291. [Abstract] [Full Text] [PDF]

				V. McEneaney, B. J. Harvey, and W. Thomas Aldosterone Regulates Rapid Trafficking of Epithelial Sodium Channel Subunits in Renal Cortical Collecting Duct Cells via Protein Kinase D Activation Mol. Endocrinol., April 1, 2008; 22(4): 881 - 892. [Abstract] [Full Text] [PDF]

				J. L. Kipp, S. M. Kilen, T. K. Woodruff, and K. E. Mayo Activin Regulates Estrogen Receptor Gene Expression in the Mouse Ovary J. Biol. Chem., December 14, 2007; 282(50): 36755 - 36765. [Abstract] [Full Text] [PDF]

				Y. Chen, W. N. Jefferson, R. R. Newbold, E. Padilla-Banks, and M. E. Pepling Estradiol, Progesterone, and Genistein Inhibit Oocyte Nest Breakdown and Primordial Follicle Assembly in the Neonatal Mouse Ovary in Vitro and in Vivo Endocrinology, August 1, 2007; 148(8): 3580 - 3590. [Abstract] [Full Text] [PDF]

				J. M. Naciff, G. J. Overmann, S. M. Torontali, G. J. Carr, Z. S. Khambatta, J. P. Tiesman, B. D. Richardson, and G. P. Daston Uterine Temporal Response to Acute Exposure to 17{alpha}-Ethinyl Estradiol in the Immature Rat Toxicol. Sci., June 1, 2007; 97(2): 467 - 490. [Abstract] [Full Text] [PDF]

				J. L. Kipp, S. M. Kilen, S. Bristol-Gould, T. K. Woodruff, and K. E. Mayo Neonatal Exposure to Estrogens Suppresses Activin Expression and Signaling in the Mouse Ovary Endocrinology, May 1, 2007; 148(5): 1968 - 1976. [Abstract] [Full Text] [PDF]

				C. Wang and S. K. Roy Development of Primordial Follicles in the Hamster: Role of Estradiol-17{beta} Endocrinology, April 1, 2007; 148(4): 1707 - 1716. [Abstract] [Full Text] [PDF]

				D. Tomic, M. S. Frech, J. K. Babus, R. K. Gupta, P. A. Furth, R. D. Koos, and J. A. Flaws Methoxychlor Induces Atresia of Antral Follicles in ER{alpha}-Overexpressing Mice Toxicol. Sci., September 1, 2006; 93(1): 196 - 204. [Abstract] [Full Text] [PDF]

				W. Luo and M. C. Wiltbank Distinct Regulation by Steroids of Messenger RNAs for FSHR and CYP19A1 in Bovine Granulosa Cells Biol Reprod, August 1, 2006; 75(2): 217 - 225. [Abstract] [Full Text] [PDF]

				B. Campbell, J. Dickey, B. Beckman, G. Young, A. Pierce, H. Fukada, and P. Swanson Previtellogenic Oocyte Growth in Salmon: Relationships among Body Growth, Plasma Insulin-Like Growth Factor-1, Estradiol-17beta, Follicle-Stimulating Hormone and Expression of Ovarian Genes for Insulin-Like Growth Factors, Steroidogenic-Acute Regulatory Protein and Receptors for Gonadotropins, Growth Hormone, and Somatolactin Biol Reprod, July 1, 2006; 75(1): 34 - 44. [Abstract] [Full Text] [PDF]

				N. Xita and A. Tsatsoulis Fetal Programming of Polycystic Ovary Syndrome by Androgen Excess: Evidence from Experimental, Clinical, and Genetic Association Studies J. Clin. Endocrinol. Metab., May 1, 2006; 91(5): 1660 - 1666. [Abstract] [Full Text] [PDF]

				S. J. Warden, L. K. Saxon, A. B. Castillo, and C. H. Turner Knee ligament mechanical properties are not influenced by estrogen or its receptors Am J Physiol Endocrinol Metab, May 1, 2006; 290(5): E1034 - E1040. [Abstract] [Full Text] [PDF]

				A Vottero, V Rochira, M Capelletti, I Viani, L Zirilli, T M Neri, C Carani, S Bernasconi, and L Ghizzoni Aromatase is differentially expressed in peripheral blood leukocytes from children, and adult female and male subjects. Eur. J. Endocrinol., March 1, 2006; 154(3): 425 - 431. [Abstract] [Full Text] [PDF]

				Z. T. Ruiz-Cortes, S. Kimmins, L. Monaco, K. H. Burns, P. Sassone-Corsi, and B. D. Murphy Estrogen Mediates Phosphorylation of Histone H3 in Ovarian Follicle and Mammary Epithelial Tumor Cells via the Mitotic Kinase, Aurora B Mol. Endocrinol., December 1, 2005; 19(12): 2991 - 3000. [Abstract] [Full Text] [PDF]

				H. S. Kok, K. M. van Asselt, Y. T. van der Schouw, P. H.M. Peeters, and C. Wijmenga Genetic studies to identify genes underlying menopausal age Hum. Reprod. Update, September 1, 2005; 11(5): 483 - 493. [Abstract] [Full Text] [PDF]

				P. Yang, J. Wang, Y. Shen, and S. K. Roy Developmental Expression of Estrogen Receptor (ER) {alpha} and ER{beta} in the Hamster Ovary: Regulation by Follicle-Stimulating Hormone Endocrinology, December 1, 2004; 145(12): 5757 - 5766. [Abstract] [Full Text] [PDF]

				K. L. Britt, P. K. Saunders, S. J. McPherson, M. L. Misso, E. R. Simpson, and J. K. Findlay Estrogen Actions on Follicle Formation and Early Follicle Development Biol Reprod, November 1, 2004; 71(5): 1712 - 1723. [Abstract] [Full Text] [PDF]

				S. Chu, Y. Nishi, T. Yanase, H. Nawata, and P. J. Fuller Transrepression of Estrogen Receptor {beta} Signaling by Nuclear Factor-{kappa}B in Ovarian Granulosa Cells Mol. Endocrinol., August 1, 2004; 18(8): 1919 - 1928. [Abstract] [Full Text] [PDF]

				K. L. Britt, P. G. Stanton, M. Misso, E. R. Simpson, and J. K. Findlay The Effects of Estrogen on the Expression of Genes Underlying the Differentiation of Somatic Cells in the Murine Gonad Endocrinology, August 1, 2004; 145(8): 3950 - 3960. [Abstract] [Full Text] [PDF]