The basic helix-loop-helix transcription factor TCF4 recruits the Mediator Complex to activate gonadal genes and drive ovarian development.
The bipotential gonad is the precursor organ to both the ovary and testis and develops as part of the embryonic urogenital system. In mice, gonadogenesis initiates around embryonic day 9.5 (E9.5), when coelomic epithelial (CE) cells overlaying the mesonephric ducts proliferate and acquire competence to differentiate into the somatic cell types of the embryonic gonad, the pre-supporting cell (Sertoli cells in the testis and granulosa cells in the ovary) and the interstitial cell lineages. While some transcription factors that drive gonadal cell fate are known, we found that basic helix-loop-helix (bHLH) binding sites are highly represented upstream of granulosa and interstitial genes. We investigated the bHLH Transcription Factor 4 (TCF4), which is expressed in GATA4+ somatic cells in both sexes prior to sex determination, maintained in ovarian pre-supporting cells and interstitial cells of both sexes, but silenced specifically in male pre-supporting cells. In a Tcf4 STOP/STOP mutant mouse model that lacks the TCF4 DNA-binding domain, we found that the marker of Sertoli fate, SOX9, was higher in Sertoli cells, while markers of granulosa and interstitial fate (FOXL2 and NR2F2) were reduced and the supporting to interstitial cell ratio was altered in XX Tcf4 STOP/STOP ovaries. We found that TCF4 binds the Mediator complex and chromatin remodelers to regulate expression of Jun and other genes in early somatic cells. Collectively, these results support the working hypothesis that TCF4 regulates a gonadal program that primes the gonad towards a female fate but is specifically silenced in male supporting cells as the testis pathway diverges.
