Knockdown of DEAD-box helicase 4 (DDX4) decreases the number of germ cells in male and female chicken embryonic gonads.

DEAD-box helicase 4 (DDX4; also known as vasa) is essential for the proper formation and maintenance of germ cells. Although DDX4 is conserved in a variety of vertebrates and invertebrates, its roles differ between species. This study investigated the function of DDX4 in chicken embryos by knocking down its expression using retroviral vectors that encoded DDX4-targeting microRNAs. DDX4 was effectively depleted invitro and invivo via this approach. Male and female gonads of DDX4-knockdown embryos contained a decreased number of primordial germ cells, indicating that DDX4 is essential to maintain a normal level of these cells in chicken embryos of both sexes. Expression of doublesex and mab-3 related transcription factor 1 (DMRT1) and sex determining region Y-box 9 (SOX9), which are involved in testis determination and differentiation, was normal in male gonads of DDX4-knockdown embryos. In contrast, expression of cytochrome P450 family 19 subfamily A member 1 (CYP19A1), which encodes aromatase and is essential for ovary development, was significantly decreased in female gonads of DDX4-knockdown embryos. Expression of forkhead box L2 (FOXL2), which plays an important role in ovary differentiation, was also slightly reduced in DDX4-knockdown embryos, but not significantly. Based on several pieces of evidence FOXL2 was hypothesised to regulate aromatase expression. The results of this study indicate that aromatase expression is also regulated by several additional pathways.

Androgens and androgen receptor signaling contribute to ovarian development in the chicken embryo.

Androgens and androgen receptor (AR) signaling play important roles throughout development. In the chicken, AR signaling is involved in reproduction; however, its specific role is unclear. We show that AR signaling is involved in the normal development of the female embryonic gonads. The AR mRNA level was detected in male and female embryonic gonads by quantitative RT-PCR, and its expression was higher in females than in males at all developmental stages examined. In female embryos, the AR localized to nuclei of cells in the left gonad. Although AR expression was low in the majority of the medulla, high expression was detected in cells of lacunae within the medulla. In addition, AR expression increased in cells of cortical cords within the cortex with the progression of development. AR expression in the right gonad was lower than that in left gonad throughout development. In the male gonad, the AR localized to the cytoplasm of cells in seminiferous tubules at all stages. Female AR knockdown (ARKD) embryos infected with a retrovirus expressing micro RNAs targeting the AR showed normal asymmetric gonads (development of the left and depression of the right gonads), whereas the number of lacunae decreased. Furthermore, there was a disruption in the structure of cortical cords. By contrast, the gonads of ARKD males developed normally during embryogenesis. These results indicate that androgens and AR signaling are essential for the development of lacunae and cortical cords in gonads of female embryos.

Chicken hemogen homolog is involved in the chicken-specific sex-determining mechanism.

Using a comprehensive transcriptome analysis, a Z chromosome-linked chicken homolog of hemogen (cHEMGN) was identified and shown to be specifically involved in testis differentiation in early chicken embryos. Hemogen [Hemgn in mice, EDAG (erythroid differentiation-associated gene protein) in humans] was recently characterized as a hematopoietic tissue-specific gene encoding a transcription factor that regulates the proliferation and differentiation of hematopoietic cells in mammals. In chicken, cHEMGN was expressed not only in hematopoietic tissues but also in the early embryonic gonad of male chickens. The male-specific expression was identified in the nucleus of (pre)Sertoli cells after the sex determination period and before the expression of SOX9 (SRY-box 9). The expression of cHEMGN was induced in ZW embryonic gonads that were masculinized by aromatase inhibitor treatment. ZW embryos overexpressing cHEMGN, generated by infection with retrovirus carrying cHEMGN, showed masculinized gonads. These findings suggest that cHEMGN is a transcription factor specifically involved in chicken sex determination.