PLoS ONE (Mar 2011)

Failure of SOX9 regulation in 46XY disorders of sex development with SRY, SOX9 and SF1 mutations.

  • Kevin C Knower,
  • Sabine Kelly,
  • Louisa M Ludbrook,
  • Stefan Bagheri-Fam,
  • Helena Sim,
  • Pascal Bernard,
  • Ryohei Sekido,
  • Robin Lovell-Badge,
  • Vincent R Harley

DOI
https://doi.org/10.1371/journal.pone.0017751
Journal volume & issue
Vol. 6, no. 3
p. e17751

Abstract

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BackgroundIn human embryogenesis, loss of SRY (sex determining region on Y), SOX9 (SRY-related HMG box 9) or SF1 (steroidogenic factor 1) function causes disorders of sex development (DSD). A defining event of vertebrate sex determination is male-specific upregulation and maintenance of SOX9 expression in gonadal pre-Sertoli cells, which is preceded by transient SRY expression in mammals. In mice, Sox9 regulation is under the transcriptional control of SRY, SF1 and SOX9 via a conserved testis-specific enhancer of Sox9 (TES). Regulation of SOX9 in human sex determination is however poorly understood.Methodology/principal findingsWe show that a human embryonal carcinoma cell line (NT2/D1) can model events in presumptive Sertoli cells that initiate human sex determination. SRY associates with transcriptionally active chromatin in NT2/D1 cells and over-expression increases endogenous SOX9 expression. SRY and SF1 co-operate to activate the human SOX9 homologous TES (hTES), a process dependent on phosphorylated SF1. SOX9 also activates hTES, augmented by SF1, suggesting a mechanism for maintenance of SOX9 expression by auto-regulation. Analysis of mutant SRY, SF1 and SOX9 proteins encoded by thirteen separate 46,XY DSD gonadal dysgenesis individuals reveals a reduced ability to activate hTES.Conclusions/significanceWe demonstrate how three human sex-determining factors are likely to function during gonadal development around SOX9 as a hub gene, with different genetic causes of 46,XY DSD due a common failure to upregulate SOX9 transcription.