Androgen Receptor Is Dispensable for X-Zone Regression in the Female Adrenal but Regulates Post-Partum Corticosterone Levels and Protects Cortex Integrity

Adrenal androgens are fundamental mediators of ovarian folliculogenesis, embryonic implantation, and breast development. Although adrenal androgen function in target tissues are well characterized, there is little research covering the role of androgen-signaling within the adrenal itself. Adrenal gl...

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Bibliographic Details
Published in:Frontiers in endocrinology (Lausanne) 2021-01, Vol.11, p.599869
Main Authors: Gannon, Anne-Louise, O'Hara, Laura, Mason, Ian J, Jørgensen, Anne, Frederiksen, Hanne, Curley, Michael, Milne, Laura, Smith, Sarah, Mitchell, Rod T, Smith, Lee B
Format: Article
Language:English
Subjects:
adrenal cortex
Adrenal Cortex - cytology
Adrenal Cortex - drug effects
Adrenal Cortex - metabolism
androgen receptor
Androgens - pharmacology
Animals
Corticosterone - metabolism
Endocrinology
Female
hyperplasia
Male
Mice
Postpartum Period - drug effects
Postpartum Period - metabolism
Pregnancy
Protective Agents - pharmacology
Receptors, Androgen - chemistry
Receptors, Androgen - genetics
Receptors, Androgen - metabolism
Signal Transduction
spindle cell
X-zone
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Summary:Adrenal androgens are fundamental mediators of ovarian folliculogenesis, embryonic implantation, and breast development. Although adrenal androgen function in target tissues are well characterized, there is little research covering the role of androgen-signaling within the adrenal itself. Adrenal glands express AR which is essential for the regression of the X-zone in male mice. Female mice also undergo X-zone regression during their first pregnancy, however whether this is also controlled by AR signaling is unknown. To understand the role of the androgen receptor (AR) in the female adrenal, we utilized a -Cre to specifically ablate AR from the mouse adrenal cortex. Results show that AR-signaling is dispensable for adrenal gland development in females, and for X-zone regression during pregnancy, but is required to suppress elevation of corticosterone levels post-partum. Additionally, following disruption to adrenal AR, aberrant spindle cell development is observed in young adult females. These results demonstrate sexually dimorphic regulation of the adrenal X-zone by AR and point to dysfunctional adrenal androgen signaling as a possible mechanism in the early development of adrenal spindle cell hyperplasia.
ISSN:1664-2392
1664-2392
DOI:10.3389/fendo.2020.599869