Patricia Humire scite author profile

In 1998, an estrogen receptor β (ERβ) knockout (KO) mouse was created by interrupting the gene at the DNA binding domain (DBD) with a neocassette. The mutant females were subfertile and there were abnormalities in the brain, prostate, lung, colon, and immune system. In 2008, another ERβ mutant mouse was generated by deleting ERβ exon 3 which encodes the first zinc finger in the DBD. The female mice of this strain were unable to ovulate but were otherwise normal. The differences in the phenotypes of the two KO strains, have led to questions about the physiological function of ERβ. In the present study, we created an ERβ exon 3-deleted mouse (ERβ-Δex3) and confirmed that the only observable defect was anovulation. Despite the two in-frame stop codons introduced by splicing between exons 2 and 4, an ERβ protein was expressed in nuclei of prostate epithelial cells. Using two different anti-ERβ antibodies, we showed that an in-frame ligand binding domain and C terminus were present in the ERβ-Δex3 protein. Moreover, with nuclear extracts from ERβ-Δex3 prostates, there was an ERβ-dependent retardation of migration of activator protein-1 response elements in EMSA. Unlike the original knockout mouse, expression of Ki67, androgen receptor, and Dachshund-1 in prostate epithelium was not altered in the ERβ-Δex3 mouse. We conclude that very little of ERβ transcriptional activity depends on binding to classical estrogen response elements (EREs).mouse model | nuclear receptors | targeted disruption | ventral prostate | AP-1

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Estrogen Signalling and the Metabolic Syndrome: Targeting the Hepatic Estrogen Receptor Alpha Action

Matic

Bryzgalova

Gao

et al. 2013

PLoS ONE

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An increasing body of evidence now links estrogenic signalling with the metabolic syndrome (MS). Despite the beneficial estrogenic effects in reversing some of the MS symptoms, the underlying mechanisms remain largely undiscovered. We have previously shown that total estrogen receptor alpha (ERα) knockout (KO) mice exhibit hepatic insulin resistance. To determine whether liver-selective ablation of ERα recapitulates metabolic phenotypes of ERKO mice we generated a liver-selective ERαKO mouse model, LERKO. We demonstrate that LERKO mice have efficient reduction of ERα selectively within the liver. However, LERKO and wild type control mice do not differ in body weight, and have a comparable hormone profile as well as insulin and glucose response, even when challenged with a high fat diet. Furthermore, LERKO mice display very minor changes in their hepatic transcript profile. Collectively, our findings indicate that hepatic ERα action may not be the responsible factor for the previously identified hepatic insulin resistance in ERαKO mice.

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Generation of ERα-floxed and knockout mice using the Cre/LoxP system

Antonson

Omoto

Humire

et al. 2012

Biochemical and Biophysical Research Communications

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Generation of an all-exon Esr2 deleted mouse line: Effects on fertility

Antonson

Apolinário

Shamekh

et al. 2020

Biochemical and Biophysical Research Communications

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aP2-Cre-Mediated Inactivation of Estrogen Receptor Alpha Causes Hydrometra

et al. 2014

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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.

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Identification of proteins highly expressed in uterine fluid from mice with hydrometra

Antonson

Nalvarte

Varshney

et al. 2015

Biochemical and Biophysical Research Communications

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Estrogen Receptor-α Knockout Mice

Antonson

Humire

Gustafsson

2016

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Tissue specific knockout mice are valuable tools to study gene function in vivo. The method uses the Cre/loxP system in which loxP sites are cloned into the genome surrounding one or more exons of a gene and the targeted exon(s) are deleted when the Cre enzyme is expressed. Mouse lines that are prepared for the generation of knockout ERα mice have been developed independently by many research groups and the number of available transgenic mouse lines that express Cre under tissue specific promoters is large. Here, we describe how tissue specific ERα knockout mice are generated.

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Correction: Estrogen Signalling and the Metabolic Syndrome: Targeting the Hepatic Estrogen Receptor Alpha Action

Matic¹,

Bryzgalova²,

Gao³

et al. 2019

PLoS ONE

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Patricia Humire

Estrogen receptor β exon 3-deleted mouse: The importance of non-ERE pathways in ERβ signaling

Estrogen Signalling and the Metabolic Syndrome: Targeting the Hepatic Estrogen Receptor Alpha Action

Generation of ERα-floxed and knockout mice using the Cre/LoxP system

Generation of an all-exon Esr2 deleted mouse line: Effects on fertility

aP2-Cre-Mediated Inactivation of Estrogen Receptor Alpha Causes Hydrometra

Identification of proteins highly expressed in uterine fluid from mice with hydrometra

Estrogen Receptor-α Knockout Mice

Correction: Estrogen Signalling and the Metabolic Syndrome: Targeting the Hepatic Estrogen Receptor Alpha Action

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