Background: ESR2, a nuclear estrogen receptor also known as estrogen receptor β, is expressed in the brain and contributes to the actions of estrogen in various physiological phenomena. However, its expression profiles in the brain have long been debated because of difficulties in detecting ESR2-expressing cells. In the present study, we aimed to determine the distribution of ESR2 in rodent brains, as well as its sex and interspecies differences, using immunohistochemical detection with a well-validated anti-ESR2 antibody (PPZ0506).
Methods: To determine the expression profiles of ESR2 protein in rodent brains, whole brain sections from mice and rats of both sexes were subjected to immunostaining for ESR2. In addition, to evaluate the effects of circulating estrogen on ESR2 expression profiles, ovariectomized female mice and rats were treated with low or high doses of estrogen, and the resulting numbers of ESR2-immunopositive cells were analyzed. Welch's t-test was used for comparisons between two groups for sex differences, and one-way analysis of variance followed by the Tukey-Kramer test were used for comparisons among multiple groups with different estrogen treatments.
Results: ESR2-immunopositive cells were observed in several subregions of mouse and rat brains, including the preoptic area, extended amygdala, hypothalamus, mesencephalon, and cerebral cortex. Their distribution profiles exhibited sex and interspecies differences. In addition, low-dose estrogen treatment in ovariectomized female mice and rats tended to increase the numbers of ESR2-immunopositive cells, whereas high-dose estrogen treatment tended to decrease these numbers.
Conclusions: Immunohistochemistry using the well-validated PPZ0506 antibody revealed a more localized expression of ESR2 protein in rodent brains than has previously been reported. Furthermore, there were marked sex and interspecies differences in its distribution. Our histological analyses also revealed estrogen-dependent changes in ESR2 expression levels in female brains. These findings will be helpful for understanding the ESR2-mediated actions of estrogen in the brain.
Keywords: Brain; ERβ; ESR2; Estrogen; Immunohistochemistry; Mouse; Rat; Sexual dimorphism; Species difference.
Although the brain is a major target organ of estrogens, the distribution of estrogen receptors in the brain is not fully understood. ESR2, also known as estrogen receptor β, is an estrogen receptor subtype; its localization in the brain has long been controversial because it has traditionally been difficult to detect. In the present study, we analyzed the expression sites of ESR2 in mouse and rat brains using immunohistochemistry with a well-validated antibody, PPZ0506. The immunohistochemical analysis revealed a more localized expression of ESR2 protein in brain subregions than has previously been reported. Additionally, there were clear sex and interspecies differences in the distribution of this protein. We also observed changes in ESR2 expression in the female brain in response to circulating estrogen levels. Our results, which show the precise expression profiles of ESR2 protein in rodent brains, will be helpful for understanding the ESR2-mediated actions of estrogen.
© 2023. The Author(s).