In this study we describe the reproductive phenotypes of a novel mouse model in which Cre-mediated deletion of ERα is regulated by the aP2 (fatty acid binding protein 4) promoter. ERα-floxed mice were crossed with transgenic mice expressing Cre-recombinase under the control of the aP2 promoter to generate aP2-Cre/ERαflox/flox mice. As expected, ERα mRNA levels were reduced in adipose tissue, but in addition we also detected an 80% reduction of ERα levels in the hypothalamus of aP2-Cre/ERαflox/flox mice. Phenotypic analysis revealed that aP2-Cre/ERαflox/flox female mice were infertile. In line with this, aP2-Cre/ERαflox/flox female mice did not cycle and presented 3.8-fold elevated estrogen levels. That elevated estrogen levels were associated with increased estrogen signaling was evidenced by increased mRNA levels of the estrogen-regulated genes lactoferrin and aquaporin 5 in the uterus. Furthermore, aP2-Cre/ERαflox/flox female mice showed an accumulation of intra-uterine fluid, hydrometra, without overt indications for causative anatomical anomalies. However, the vagina and cervix displayed advanced keratosis with abnormal quantities of accumulating squamous epithelial cells suggesting functional obstruction by keratin plugs. Importantly, treatment of aP2-Cre/ERαflox/flox mice with the aromatase inhibitor Letrozole caused regression of the hydrometra phenotype linking increased estrogen levels to the observed phenotype. We propose that in aP2-Cre/ERαflox/flox mice, increased serum estrogen levels cause over-stimulation in the uterus and genital tracts resulting in hydrometra and vaginal obstruction.
References
[1]
Nilsson S, Makela S, Treuter E, Tujague M, Thomsen J, et al. (2001) Mechanisms of estrogen action. Physiol Rev 81: 1535–1565.
[2]
Mangelsdorf DJ, Thummel C, Beato M, Herrlich P, Schutz G, et al. (1995) The nuclear receptor superfamily: the second decade. Cell 83: 835–839.
[3]
Barros RP, Gustafsson J-? (2011) Estrogen receptors and the metabolic network. Cell Metab 14: 289–299.
[4]
Radovick S, Levine JE, Wolfe A (2012) Estrogenic regulation of the GnRH neuron. Front Endocrinol 3: 52.
[5]
Hewitt SC, Deroo BJ, Hansen K, Collins J, Grissom S, et al. (2003) Estrogen receptor-dependent genomic responses in the uterus mirror the biphasic physiological response to estrogen. Mol Endocrinol 17: 2070–2083.
[6]
Katzenellenbogen BS, Bhakoo HS, Ferguson ER, Lan NC, Tatee T, et al. (1979) Estrogen and antiestrogen action in reproductive tissues and tumors. Recent Prog Horm Res 35: 259–300.
[7]
Antonson P, Omoto Y, Humire P, Gustafsson J-? (2012) Generation of ERalpha-floxed and knockout mice using the Cre/LoxP system. Biochem Biophys Res Commun 424: 710–716.
[8]
Lubahn DB, Moyer JS, Golding TS, Couse JF, Korach KS, et al. (1993) Alteration of reproductive function but not prenatal sexual development after insertional disruption of the mouse estrogen receptor gene. Proc Natl Acad Sci USA 90: 11162–11166.
[9]
Dupont S, Krust A, Gansmuller A, Dierich A, Chambon P, et al. (2000) Effect of single and compound knockouts of estrogen receptors alpha (ERalpha) and beta (ERbeta) on mouse reproductive phenotypes. Development 127: 4277–4291.
[10]
Chen M, Wolfe A, Wang X, Chang C, Yeh S, et al. (2009) Generation and characterization of a complete null estrogen receptor alpha mouse using Cre/LoxP technology. Mol Cell Biochem 321: 145–153.
[11]
Hewitt SC, Kissling GE, Fieselman KE, Jayes FL, Gerrish KE, et al. (2010) Biological and biochemical consequences of global deletion of exon 3 from the ER alpha gene. Faseb J 24: 4660–4667.
[12]
He W, Barak Y, Hevener A, Olson P, Liao D, et al. (2003) Adipose-specific peroxisome proliferator-activated receptor gamma knockout causes insulin resistance in fat and liver but not in muscle. Proc Natl Acad Sci USA 100: 15712–15717.
Matic M, Bryzgalova G, Gao H, Antonson P, Humire P, et al. (2013) Estrogen signalling and the metabolic syndrome: targeting the hepatic estrogen receptor alpha action. PloS one 8: e57458.
[15]
Hewitt SC, Collins J, Grissom S, Deroo B, Korach KS (2005) Global uterine genomics in vivo: microarray evaluation of the estrogen receptor alpha-growth factor cross-talk mechanism. Molecular endocrinology 19: 657–668.
[16]
Kobayashi M, Takahashi E, Miyagawa S, Watanabe H, Iguchi T (2006) Chromatin immunoprecipitation-mediated target identification proved aquaporin 5 is regulated directly by estrogen in the uterus. Genes to cells : devoted to molecular & cellular mechanisms 11: 1133–1143.
[17]
Martens K, Bottelbergs A, Baes M (2010) Ectopic recombination in the central and peripheral nervous system by aP2/FABP4-Cre mice: implications for metabolism research. FEBS letters 584: 1054–1058.
[18]
Mullican SE, Tomaru T, Gaddis CA, Peed LC, Sundaram A, et al. (2013) A novel adipose-specific gene deletion model demonstrates potential pitfalls of existing methods. Mol Endocrinol 27: 127–134.
[19]
Wintermantel TM, Campbell RE, Porteous R, Bock D, Grone HJ, et al. (2006) Definition of estrogen receptor pathway critical for estrogen positive feedback to gonadotropin-releasing hormone neurons and fertility. Neuron 52: 271–280.
[20]
Couse JF, Yates MM, Walker VR, Korach KS (2003) Characterization of the hypothalamic-pituitary-gonadal axis in estrogen receptor (ER) Null mice reveals hypergonadism and endocrine sex reversal in females lacking ERalpha but not ERbeta. Mol Endocrinol 17: 1039–1053.
[21]
Xu Y, Nedungadi TP, Zhu L, Sobhani N, Irani BG, et al. (2011) Distinct hypothalamic neurons mediate estrogenic effects on energy homeostasis and reproduction. Cell Metab 14: 453–465.
[22]
Herbison AE, Pape JR (2001) New evidence for estrogen receptors in gonadotropin-releasing hormone neurons. Front Neuroendocrinol 22: 292–308.
[23]
Petersen SL, Ottem EN, Carpenter CD (2003) Direct and indirect regulation of gonadotropin-releasing hormone neurons by estradiol. Biology of reproduction 69: 1771–1778.
[24]
Greenman DL, Fullerton FR (1986) Comparison of histological responses of BALB/c and B6C3F1 female mice to estradiol when fed purified or natural-ingredient diets. J Toxicol Environ Health 19: 531–540.
[25]
Weihua Z, Saji S, Makinen S, Cheng G, Jensen EV, et al. (2000) Estrogen receptor (ER) beta, a modulator of ERalpha in the uterus. Proc Natl Acad Sci USA 97: 5936–5941.
[26]
Gieske MC, Kim HJ, Legan SJ, Koo Y, Krust A, et al. (2008) Pituitary gonadotroph estrogen receptor-alpha is necessary for fertility in females. Endocrinology 149: 20–27.
[27]
Hewitt SC, Couse JF, Korach KS (2000) Estrogen receptor transcription and transactivation: Estrogen receptor knockout mice: what their phenotypes reveal about mechanisms of estrogen action. Breast Cancer Res 2: 345–352.
[28]
Sims NA, Dupont S, Krust A, Clement-Lacroix P, Minet D, et al. (2002) Deletion of estrogen receptors reveals a regulatory role for estrogen receptors-beta in bone remodeling in females but not in males. Bone 30: 18–25.
