Shoko Sagoshi scite author profile

Sex steroid action is critical to form sexually dimorphic nuclei, although it is not fully understood. We previously reported that masculinization of the principal nucleus of the bed nucleus of the stria terminalis (BNSTp), which is larger and has more neurons in males than in females, involves aromatized testosterone that acts via estrogen receptor-α (ERα), but not estrogen receptor-β (ERβ). Here, we examined sex steroid action on the formation of the anteroventral periventricular nucleus (AVPV) that is larger and has more neurons in females. Morphometrical analysis of transgenic mice lacking aromatase, ERα, or ERβ genes revealed that the volume and neuron number of the male AVPV were significantly increased by deletion of aromatase and ERα genes, but not the ERβ gene. We further examined the AVPV and BNSTp of androgen receptor knockout (ARKO) mice. The volume and neuron number of the male BNSTp were smaller in ARKO mice than those in wild-type mice, while no significant effect of ARKO was found on the AVPV and female BNSTp. We also examined aromatase, ERα, and AR mRNA levels in the AVPV and BNSTp of wild-type and ARKO mice on embryonic day (ED) 18 and postnatal day (PD) 4. AR mRNA in the BNSTp and AVPV of wild-type mice was not expressed on ED18 and emerged on PD4. In the AVPV, the aromatase mRNA level was higher on ED18, although the ERα mRNA level was higher on PD4 without any effect of AR gene deletion. Aromatase and ERα mRNA levels in the male BNSTp were significantly increased on PD4 by AR gene deletion. These results suggest that estradiol signaling via ERα during the perinatal period and testosterone signaling via AR during the postnatal period are required for masculinization of the BNSTp, whereas the former is sufficient to defeminize the AVPV.

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Detection and Characterization of Estrogen Receptor Beta Expression in the Brain with Newly Developed Transgenic Mice

Sagoshi

Maejima

Morishita

et al. 2020

Neuroscience

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The Role of Estrogen Receptor β (ERβ) in the Establishment of Hierarchical Social Relationships in Male Mice

Nakata

Ågmo

Sagoshi

et al. 2018

Front. Behav. Neurosci.

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Acquisition of social dominance is important for social species including mice, for preferential access to foods and mates. Male mice establish social rank through agonistic behaviors, which are regulated by gonadal steroid hormone, testosterone, as its original form and aromatized form. It is well known that estrogen receptors (ERs), particularly ER α (ERα), mediate effects of aromatized testosterone, i.e., 17β-estradiol, but precise role played by ER β (ERβ) is still unclear. In the present study, we investigated effects of ERβ gene disruption on social rank establishment in male mice. Adult male ERβ knockout (βERKO) mice and their wild type (WT) littermates were paired based on genotype- and weight-matched manner and tested against each other repeatedly during 7 days experimental period. They underwent 4 trials of social interaction test in neutral cage (homogeneous set test) every other day. Along repeated trials, WT but not βERKO pairs showed a gradual increase of agonistic behaviors including aggression and tail rattling, and a gradual decrease of latency to social rank determination in tube test conducted after each trial of the social interaction test. Analysis of behavioral transition further suggested that WT winners in the tube test showed one-sided aggression during social interaction test suggesting WT pairs went through a process of social rank establishment. On the other hand, a dominant-subordinate relationship in βERKO pairs was not as apparent as that in WT pairs. Moreover, βERKO mice showed lower levels of aggressive behavior than WT mice in social interaction tests. These findings collectively suggest that ERβ may play a significant role in the establishment and maintenance of hierarchical social relationships among male mice.

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Estrogen and oxytocin involvement in social preference in male mice: a study using a novel long‐term social preference paradigm with aromatase, estrogen receptor‐α and estrogen receptor‐β, oxytocin, and oxytocin receptor knockout male mice

Tsuda

Nagata

Sagoshi

et al. 2018

Integrative Zoology

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Certain aspects of social behavior help animals make adaptive decisions during encounters with other animals. When mice choose to approach another conspecific, the motivation and preference behind the interaction is not well understood. Estrogen and oxytocin are known to influence a wide array of social behaviors, including social motivation and social preference. The present study investigated the effects of estrogen and oxytocin on social preference using aromatase (ArKO), estrogen receptor (ER) α (αERKO), ERβ (βERKO), oxytocin (OTKO), oxytocin receptor (OTRKO) knockout and their respective wild-type (WT) male mice. Mice were presented with gonadally-intact versus castrated male (IC), intact male versus ovariectomized female (IF), or intact male versus empty cage (IE) stimuli sets for 5 days. ArWT showed no preference for either stimuli in IC and IF and intact male preference in IE, but ArKO mice preferred a castrated male or an ovariectomized female, or had no preference for either stimulus in IC, IF and IE stimuli sets, respectively, suggesting reduced intact male preference. α and β WT mice preferred a castrated male, showed no preference, and preferred an intact male in IC, IF and IE, respectively. αERKO mice displayed similar modified social preference patterns as ArKO, whereas the social preference of βERKO mice remained similar to βWT. OTWT preferred a castrated male whereas OTKO, OTRWT and OTRKO mice failed to show any preference in IC and none showed preference for either stimuli in IF. Collectively, these findings suggest that estrogen regulates social preference in male mice and that impaired social preference in oxytocin-deficient mice may be due to severe deficits in social recognition.

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Role of oxytocin receptor in the regulation of social recognition in mice

Yamaguchi¹,

Tsuda²,

Sagoshi³

et al. 2010

Neuroscience Research

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Shoko Sagoshi

Regional Difference in Sex Steroid Action on Formation of Morphological Sex Differences in the Anteroventral Periventricular Nucleus and Principal Nucleus of the Bed Nucleus of the Stria Terminalis

Detection and Characterization of Estrogen Receptor Beta Expression in the Brain with Newly Developed Transgenic Mice

The Role of Estrogen Receptor β (ERβ) in the Establishment of Hierarchical Social Relationships in Male Mice

Estrogen and oxytocin involvement in social preference in male mice: a study using a novel long‐term social preference paradigm with aromatase, estrogen receptor‐α and estrogen receptor‐β, oxytocin, and oxytocin receptor knockout male mice

Role of oxytocin receptor in the regulation of social recognition in mice

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