Human sex reversal is caused by duplication or deletion of core enhancers upstream of SOX9

Brittany Croft; Thomas Ohnesorg; Jacqueline Hewitt; Josephine Bowles; Alexander Quinn; Jacqueline Tan; Vincent Corbin; Emanuele Pelosi; Jocelyn van den Bergen; Rajini Sreenivasan; Ingrid Knarston; Gorjana Robevska; Dũng Chí Vũ; John Hutson; Vincent R. Harley; Katie Ayers; Peter Koopman; Andrew Sinclair

doi:10.1038/s41467-018-07784-9

Human sex reversal is caused by duplication or deletion of core enhancers upstream of SOX9

Brittany Croft(Murdoch Children's Research Institute), Thomas Ohnesorg(The University of Melbourne), Jacqueline Hewitt(The University of Melbourne), Josephine Bowles(The University of Queensland), Alexander Quinn(The University of Queensland), Jacqueline Tan(Murdoch Children's Research Institute), Vincent Corbin(Walter and Eliza Hall Institute of Medical Research), Emanuele Pelosi(The University of Queensland), Jocelyn van den Bergen(Murdoch Children's Research Institute), Rajini Sreenivasan(Hudson Institute of Medical Research), Ingrid Knarston(The University of Melbourne), Gorjana Robevska(Murdoch Children's Research Institute), Dũng Chí Vũ(Vietnam National Children's Hospital), John Hutson(Royal Children's Hospital), Vincent R. Harley(Hudson Institute of Medical Research), Katie Ayers(The University of Melbourne), Peter Koopman(The University of Queensland), Andrew Sinclair(The University of Melbourne)

Nature Communications

December 10, 2018

10.1038/s41467-018-07784-9

Cited by 221Open Access

Full Text

Abstract

Disorders of sex development (DSDs) are conditions affecting development of the gonads or genitalia. Variants in two key genes, SRY and its target SOX9, are an established cause of 46,XY DSD, but the genetic basis of many DSDs remains unknown. SRY-mediated SOX9 upregulation in the early gonad is crucial for testis development, yet the regulatory elements underlying this have not been identified in humans. Here, we identified four DSD patients with overlapping duplications or deletions upstream of SOX9. Bioinformatic analysis identified three putative enhancers for SOX9 that responded to different combinations of testis-specific regulators. All three enhancers showed synergistic activity and together drive SOX9 in the testis. This is the first study to identify SOX9 enhancers that, when duplicated or deleted, result in 46,XX or 46,XY sex reversal, respectively. These enhancers provide a hitherto missing link by which SRY activates SOX9 in humans, and establish SOX9 enhancer mutations as a significant cause of DSD.

Related Papers

No related papers found

Powered by citation graph analysis