Litcius/Paper detail

Development of sexual dimorphism of skeletal muscles through the adrenal cortex, caused by androgen-induced global gene suppression

Fumiya Takahashi, Takashi Baba, Antonius Christianto, Shogo Yanai, Hyeon‐Cheol Lee, Keisuke Ishiwata, Kazuhiko Nakabayashi, Kenichiro Hata, Tomohiro Ishii, Tomonobu Hasegawa, Takehiko Yokomizo, Man Ho Choi, Ken-ichirou Morohashi

2024Cell Reports15 citationsDOIOpen Access PDF

Abstract

The zona fasciculata (zF) in the adrenal cortex contributes to multiple physiological actions through glucocorticoid synthesis. The size, proliferation, and glucocorticoid synthesis characteristics are all female biased, and sexual dimorphism is established by androgen. In this study, transcriptomes were obtained to unveil the sex differentiation mechanism. Interestingly, both the amount of mRNA and the expressions of nearly all genes were higher in females. The expression of Nr5a1, which is essential for steroidogenic cell differentiation, was also female biased. Whole-genome studies demonstrated that NR5A1 regulates nearly all gene expression directly or indirectly. This suggests that androgen-induced global gene suppression is potentially mediated by NR5A1. Using Nr5a1 heterozygous mice, whose adrenal cortex is smaller than the wild type, we demonstrated that the size of skeletal muscles is possibly regulated by glucocorticoid synthesized by zF. Taken together, considering the ubiquitous presence of glucocorticoid receptors, our findings provide a pathway for sex differentiation through glucocorticoid synthesis.

Topics & Concepts

Adrenal cortexGlucocorticoidSexual dimorphismGlucocorticoid receptorEndocrinologyBiologyInternal medicineSexual differentiationAndrogenZona fasciculataGeneAndrogen receptorGene expressionCell biologyGeneticsHormoneMedicineProstate cancerCancerGenetic and Clinical Aspects of Sex Determination and Chromosomal AbnormalitiesNeurobiology and Insect Physiology ResearchRNA Research and Splicing