Eva Enmark scite author profile

Our appreciation of the physiological functions of estrogens and the mechanisms through which estrogens bring about these functions has changed during the past decade. Just as transgenic mice were produced in which estrogen receptors had been inactivated and we thought that we were about to understand the role of estrogen receptors in physiology and pathology, it was found that there was not one but two distinct and functional estrogen receptors, now called ER alpha and ER beta. Transgenic mice in which each of the receptors or both the receptors are inactive have revealed a much broader role for estrogens in the body than was previously thought. This decade also saw the description of a male patient who had no functional ER alpha and whose continued bone growth clearly revealed an important function of estrogen in men. The importance of estrogen in both males and females was also demonstrated in the laboratory in transgenic mice in which the aromatase gene was inactivated. Finally, crystal structures of the estrogen receptors with agonists and antagonists have revealed much about how ligand binding influences receptor conformation and how this conformation influences interaction of the receptor with coactivators or corepressors and hence determines cellular response to ligands.

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Generation and reproductive phenotypes of mice lacking estrogen receptor β

Krege

Hodgin

Couse

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

1,535

1,036

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Estrogens inf luence the differentiation and maintenance of reproductive tissues and affect lipid metabolism and bone remodeling. Two estrogen receptors (ERs) have been identified to date, ER␣ and ER␤. We previously generated and studied knockout mice lacking estrogen receptor ␣ and reported severe reproductive and behavioral phenotypes including complete infertility of both male and female mice and absence of breast tissue development. Here we describe the generation of mice lacking estrogen receptor ␤ Estrogens are critical to the functioning and maintenance of a diverse array of tissues and physiological systems in mammals. The actions of estrogen on such classical targets as the reproductive tract, gonads, mammary tissue, and hypothalamic͞pituitary axis have been well characterized. A role in nonreproductive tissues, such as maintenance of bone mineral density and cardiovascular health in women, also has been described (1, 2). The physiological responses to estrogen are known to be mediated within specific tissues by at least two estrogen receptors (ERs), ER␣ and ER␤ (3-5). The ERs are a class I member of the nuclear hormone receptor family and act as ligand-activated nuclear transcription factors (6). Studies of the receptors' tissue distribution and expression pattern indicate that ER␣ has a broad expression pattern, whereas ER␤ has a more focused pattern with high levels in the ovary, prostate, epididymis, lung, and hypothalamus (7,8). However, the exact physiological responses attributable to each receptor are unknown. We previously described the pleiotropic effects of disruption of the ER␣ gene in ER␣ knockout mice (␣ERKO), including absence of breast development in females and infertility caused by reproductive tract and gonadal and behavioral abnormalities in both sexes (9-13). Here, we describe the generation of mice homozygous for a disruption of the ER␤ gene; initial characterizations indicate that the ER␤ Ϫ͞Ϫ mice exhibit phenotypes that are distinct from those of the ␣ERKO mice.

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Eva Enmark

Cloning of a novel receptor expressed in rat prostate and ovary.

Mechanisms of Estrogen Action

Generation and reproductive phenotypes of mice lacking estrogen receptor β

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