Pascal de Santa Barbara

Direct interaction of SRY-related protein SOX9 and steroidogenic factor 1 regulates transcription of the human anti-Müllerian hormone gene.

ABSTRACT For proper male sexual differentiation, anti-Müllerian hormone (AMH) must be tightly regulated during embryonic development to promote regression of the Müllerian duct. However, the molecular mechanisms specifying the onset of AMH in male mammals are not yet clearly defined. A DNA-binding element for the steroidogenic factor 1 (SF-1), a member of the orphan nuclear receptor family, located in the AMH proximal promoter has recently been characterized and demonstrated as being essential for AMH gene activation. However, the requirement for a specific promoter environment for SF-1 activation as well as the presence of conserved cis DNA-binding elements in the AMH promoter suggest that SF-1 is a member of a combinatorial protein-protein and protein-DNA complex. In this study, we demonstrate that the canonical SOX-binding site within the human AMH proximal promoter can bind the transcription factor SOX9, a Sertoli cell factor closely associated with Sertoli cell differentiation and AMH expression. Transfection studies with COS-7 cells revealed that SOX9 can cooperate with SF-1 in this activation process. In vitro and in vivo protein-binding studies indicate that SOX9 and SF-1 interact directly via the SOX9 DNA-binding domain and the SF-1 C-terminal region, respectively. We propose that the two transcription factors SOX9 and SF-1 could both be involved in the expression of the AMH gene, in part as a result of their respective binding to the AMH promoter and in part because of their ability to interact with each other. Our work thus identifies SOX9 as an interaction partner of SF-1 that could be involved in the Sertoli cell-specific expression of AMH during embryogenesis.

Steroidogenic factor-1 contributes to the cyclic adenosine monophosphate down-regulation of human SRY gene expression

Abstract In mammals, male sex determination is initiated by SRY (sex-determining region of the Y chromosome) gene expression and followed by testicular development. This study describes specific down-regulation of the human SRY gene transcription by cAMP stimulation using reverse transcription-polymerase chain reaction experiments. Using transfection experiments, conserved nuclear hormone receptor (NHR1) and Sp1 consensus binding sites were identified as essential for this cAMP transcriptional response. Steroidogenic factor-1 (SF-1), a component of the sex-determination cascade, binds specifically to the NHR1 site and activates the SRY promoter. Activation of SF-1 was abolished by cAMP pretreatment of the cells, suggesting a possible effect of cAMP on the SF-1 protein itself. Indeed, human SF-1 protein contains at least two in vitro cAMP-dependent protein kinase (PKA) phosphorylation sites, leading after phosphorylation to a modification of both DNA-binding activity and interaction with general transcription factors such as Sp1. Taken together, these data suggest that cAMP responsiveness of human SRY promoter involves both SF-1 and Sp1 sites and could act via PKA phosphorylation of the SF-1 protein itself.

Steroidogenic Factor-1 Regulates Transcription of the Human Anti-müllerian Hormone Receptor

Anti-müllerian hormone type II receptor (AMHRII) is a serine/threonine receptor and a member of type II receptors of the transforming growth factor β superfamily. AMHRII has been recently identified in humans, mice, rats, and rabbits. In the male embryo, the AMHRII gene has been shown to be expressed in Sertoli’s cells, in Leydig’s cells and in the mesenchymal cells surrounding the müllerian duct. To determine the functional region of the AMHRII promoter as well as the factors controlling AMHRII gene expression, we used a 1.1-kilobase DNA fragment from the 5′-flanking region of the human AMHRII gene to generate a series of deletion or mutation and analyzed the resulting transcriptional activities after transfection of the NT2/D1 teratocarcinoma cell line. Our results indicate that maximal expression of the AMHRII promoter in this particular cell line, a cell line positive for endogenous AMHRII expression, requires a conserved estrogen receptor half-site element (AGGTCA) identical to the binding element for steroidogenic factor-1 (SF-1). Studies of this SF-1 binding element using gel mobility shift, antibody supershift assays, and transient transfections of reporter constructs indicate that SF-1 can bind and transactivate the AMHRII promoter. Finally, SF-1 protein expression in human male embryos was shown to display a good coincidence with the previously reported AMHRII expression profile. We then propose that SF-1 may be a key transcriptional regulator of AMHRII gene expression during early human development.

Bone morphogenetic protein signaling pathway plays multiple roles during gastrointestinal tract development

The bone morphogenetic protein (BMP) signaling pathway plays an essential role during gastrointestinal (GI) tract development in vertebrates. In the present study, we use an antibody that recognizes the phosphorylated and activated form of Smad1, 5, and 8 to examine (by immunohistochemistry) the endogenous patterns of BMP signaling pathway activation in the developing GI tract. We show that the endogenous BMP signaling pathway is activated in the mesoderm, the endoderm, and the enteric nervous system (ENS) of the developing chick GI tract and is more widespread than BMP ligand expression patterns. Using an avian‐specific retroviral misexpression technique to activate or inhibit BMP signaling pathway activity in the mesoderm of the gut, we show that BMP activity is required for the pattern, the development, and the differentiation of all three tissue types of the gut: mesoderm (that forms the visceral smooth muscle), endoderm (that forms the epithelium), and ectoderm (that forms the ENS). These results demonstrate that BMP signaling is activated in all the tissue layers of the GI tract during the development and plays a role during interactions and reciprocal communications of these tissue layers. Developmental Dynamics 234:312–322, 2005.

Characterization of two Sp1 binding sites of the human sex determining SRY promoter

To investigate the molecular basis of the human SRY gene regulation, we have examined the significance of two potential binding sites for the transcription factor Sp1 (Sp1A: -124 to -131 and Sp1B: -147 to -154) by DNase I footprinting and gel mobility shift assays. Cotransfection experiments in Drosophila SL2 cells implicated Sp1 protein in the transcriptional activation of the SRY promoter.

Fetal Gastrointestinal Tract Development and Function

The adult gastrointestinal (GI) tract is a complex organ system that ensures nutrition and multiple homeostasis process in all vertebrates. The GI system initially derives from one simple and uniform tube. In this article, we passed through the anatomy and function of the adult GI tract before focusing on the development of the primitive and fetal GI tract. We described the early patterning and the later differentiation of the fetal GI tract ant its colonization by the enteric nervous system. We explained the importance of the reciprocal multilayer interactions to ensure early patterning, late differentiation, and epithelial organization. Finally, we concluded by showing the importance of these events to achieve the normal and functional digestive system. Altogether, this article describes the development and the multi-Tissular interaction mechanisms that drive the differentiation of the fetal GI tract in order to ensure correct morphogenesis and basic function.