Abstract
Disorders of sex development in the human population range in severity from mild genital defects to gonadal sex reversal. XY female development has been associated with heterozygous mutations in several genes, including SOX9, WT1 and MAP3K1. In contrast, XY sex reversal in mice usually requires complete absence of testis-determining gene products. One exception to this involves T-associated sex reversal (Tas), a phenomenon characterized by the formation of ovotestes or ovaries in XY mice hemizygous for the hairpin-tail (Thp) or T-Orleans (TOrl) deletions on proximal mouse chromosome 17. We recently reported that mice heterozygous for a null allele of Map3k4, which resides in the Thp deletion, exhibit XY ovotestis development and occasional gonadal sex reversal on the sensitized C57BL/6J-YAKR (B6-YAKR) genetic background, reminiscent of the Tas phenotype. However, these experiments did not exclude the possibility that loss of other loci in the Thp deletion, or other effects of the deletion itself, might contribute to Tas. Here, we show that disruption to Sry expression underlies XY gonadal defects in B6-YAKR embryos harbouring the Thp deletion and that a functional Map3k4 bacterial artificial chromosome rescues these abnormalities by re-establishing a normal Sry expression profile. These data demonstrate that Map3k4 haploinsufficiency is the cause of T-associated sex reversal and that levels of this signalling molecule are a major determinant of the expression profile of Sry.
Highlights
In humans, 46,XY gonadal dysgenesis (46,XY GD) is characterized by abnormal testis determination and is an example of a wider class of abnormalities known as disorders of sex development (DSD)
We used a strategy based on quantitative polymerase chain reaction to determine the copy number of genes on proximal chromosome 17 in the vicinity of T, Map3k4 and Igf2r in Thp/+ C57BL/ 6J-Y chromosome from the AKR/J strain (YAKR) mice and thereby determine the distal limits of the deletion
This, along with the development of normal testes in B6 TOrl/+ XYAKR mice when a Mus musculus-derived Sry transgene is present, indicates that the SryAKR allele is deficient on the B6 TOrl/+ genetic background due to abnormalities in the regulation of its expression
Summary
46,XY gonadal dysgenesis (46,XY GD) is characterized by abnormal testis determination and is an example of a wider class of abnormalities known as disorders of sex development (DSD). The C57BL/6J (B6) background is sensitized to disruptions to testis determination due to the relatively delayed expression of testis-determining genes and higher levels of expression of ovary-determining genes and, in most sex-reversing mouse mutants examined, B6 increases the amount of ovarian tissue that forms in mutant XY embryos [15,16,17] This sensitivity increases still further if an AKR/ J-derived Y chromosome (YAKR) is present, resulting in sex reversal even in cases of haploinsufficiency of testis-determining genes, such as Gata and Fog2 [18]. These latter studies suggest that no inherent species differences exist in sensitivity to disruption to testis determination by altered gene dosage; rather, differing sensitivity to gene dosage in both humans and mice is dependent on genetic background
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