Sf1 and Mis expression: molecular milestones in the canine sex determination pathway

Abstract

In mammals, the Y-linked Sry gene is normally responsible for testis induction. However, testes develop in the absence of Sry in human patients and animal models with Sry-negative XX sex reversal. The mechanism of testis induction in this disorder is presently unknown. Characterization of gene expression in normal embryos contributes to the framework within which the canine Sry-negative XX sex reversal model can be evaluated. The objective of this study was to add two molecular milestones to the canine sex determination pathway by determining the temporal and spatial expression patterns of Sf1 and Mis in normal urogenital ridges (UGR) at various gestational stages. The onset of Sf1 expression signifies the start of the sex determination period, whereas initial Mis expression identifies the end of the testis induction period. Sf1 expression in UGR was measured by quantitative reverse transcription-polymerase chain reaction (qRT-PCR) and whole mount in situ hybridization (WMISH) at Carnegie stages (CS) 15 to 20. Canine sex determination begins at CS 15 with Sf1 expression in the emerging indifferent gonad. Gonadal Sf1 expression was detected in both sexes at all ages, and in the presumptive adrenal primordium at CS 15 and 17. At stages > or = CS 17, Sf1 expression was pronounced in male and female gonads. Mis expression, assayed by WMISH at CS 13.5-20, was observed only in male gonads > or = CS 18, indicating that the testis induction period ends at CS 18. The expression patterns of both genes are similar to those observed in humans and domestic animals.