Abstract
Estrogen receptors have long been known to be expressed in several brain areas in addition to those directly involved in the control of reproductive functions. Investigations in humans and in animal models suggest a strong influence of estrogens on limbic and motor functions, yet the complexity and heterogeneity of neural tissue have limited our approaches to the full understanding of estrogen activity in the central nervous system. The aim of this study was to examine the transcriptional activity of estrogen receptors in the brain of male and female mice. Exploiting the ERE-Luc reporter mouse, we set up a novel, bioluminescence-based technique to study brain estrogen receptor transcriptional activity. Here we show, for the first time, that estrogen receptors are similarly active in male and female brains and that the estrous cycle affects estrogen receptor activity in regions of the central nervous system not known to be associated with reproductive functions. Because of its reproducibility and sensitivity, this novel bioluminescence application stands as a candidate as an innovative methodology for the study and development of drugs targeting brain estrogen receptors.
Highlights
Estrogen receptors have long been known to be expressed in several brain areas in addition to those directly involved in the control of reproductive functions
We could observe for the first time that the estrous cycle significantly influences ER activity in brain areas, such as limbic areas, not related to reproduction, and that ER activity is quite sustained in the brains of male and female mice
The highest photon emission was observed when the analysis was carried out 20 minutes after the injection; after 40 or 60 minutes from the injection, bioluminescence was found to be highly decreased in most brain areas, indicating that luciferase substrate availability and enzyme activity reach a plateau 15 to 20 minutes after substrate injection
Summary
Estrogen receptors have long been known to be expressed in several brain areas in addition to those directly involved in the control of reproductive functions. We developed a functional method to precisely localize and quantify ER transcriptional activity in mouse brain, enabling the quantitative measurement of luciferase activity in selected brain regions With this technique, we could observe for the first time that the estrous cycle significantly influences ER activity in brain areas, such as limbic areas, not related to reproduction, and that ER activity is quite sustained in the brains of male and female mice
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