Conditional ablation of Gata4 and Fog2 genes in mice reveals their distinct roles in mammalian sexual differentiation.

Assembly of functioning testis and ovary requires a GATA4-FOG2 transcriptional complex. To define the separate roles for GATA4 and FOG2 proteins in sexual development of the testis we have ablated the corresponding genes in somatic gonadal cells. We have established that GATA4 is required for testis differentiation, for the expression of Dmrt1 gene, and for testis cord morphogenesis. While Sf1Cre-mediated excision of Gata4 permitted normal expression of most genes associated with embryonic testis development, gonadal loss of Fog2 resulted in an early partial block in male pathway and sex reversal. We have also determined that testis sexual differentiation is sensitive to the timing of GATA4 loss during embryogenesis. Our results now demonstrate that these two genes also have non-overlapping essential functions in testis development.

Fog2 excision in mice leads to premature mammary gland involution and reduced Esr1 gene expression.

The critical role for GATA family proteins in maintaining the normal (non-transformed) cell state is corroborated by the recent findings of mutations or methylation in GATA genes both in primary cancers and tumor lines including breast. Previously, microarray profiling studies determined that the highest expression of both GATA3 and ESR1 (estrogen receptor alpha) is seen in tumors associated with the most favorable survival outcomes, whereas the lowest expression of GATA3 is detected in tumor subtypes showing the worst outcomes. At this time, genes and pathways that are regulated by GATA3 in the mammary gland are not well defined. We have previously established a requirement for FOG (Friend Of GATA) cofactors during mouse development. Here we report that in the murine mammary gland Fog2 gene expression is upregulated upon pregnancy and lactation with prominent expression in the epithelial cells of the gland during post-lactational regression. Mammary-specific deletion of Fog2 identified a role for this gene during gland involution; excision of the Fog2 gene leads to the accelerated involution of the gland despite diminished levels of the remodeling enzymes. Importantly, the levels of several genes linked to the control of cancerous transformation in the breast (Esr1, Prg and Foxa1) are significantly reduced upon Fog2 excision. This implicates FOG2 in the maintenance of epithelial cell differentiation in the mammary gland and in performing a protective role in breast cancer.

Tissue specificity of enhancer and promoter activities of a HERV-K(HML-2) LTR.

Transient expression of a luciferase reporter gene was used to evaluate tissue-specific promoter and enhancer activities of a solitary extraviral long terminal repeat (LTR) of the human endogenous retrovirus K (HERV-K) in several human and CHO cell lines. The promoter activity of the LTR varied from virtually not detectable (GS and Jurkat cells) to as high as that of the SV40 early promoter (Tera-1 human testicular embryonal carcinoma cells). The negative regulatory element (NRE) of the LTR retained its activity in all cell lines where the LTR could act as a promoter, and was also capable of binding host cell nuclear proteins. The enhancer activity of the LTR towards the SV40 early promoter was detected only in Tera-1 cells and was not observed in a closely related human testicular embryonal carcinoma cell line of different origin, NT2/D1. A comparison of proteins bound to central part of the LTR in nuclear extracts from Tera-1 and NT2/D1 by electrophoretic mobility shift assay revealed striking differences that could be determined by different LTR enhancer activities in these cells. Tissue specificity of the SV40 early promoter activity was also revealed.