Total fertilization failure and molecular abnormalities in metaphase II oocytes.

Total fertilization failures (TFF) are rare events of IVF by intracytoplasmic sperm injection (ICSI). When male factor is excluded, the lack of identifiable aetiological criteria raises the question of the reliable clinical management. The goal of this study was to identify molecular abnormalities in metaphase II (MII) oocytes yielding TFF. The nuclear mature MII oocytes mRNA expression profiles were compared between a 30-year-old patient who had experienced three successive TFF (egg number = 39) and control patients with fertile cohorts diagnosed with tubal or male infertility. The mRNA abundance for the 30,000 genes of the genome was evaluated by microarray and, for selected genes, by quantitative-polymerase chain reaction analysis. Transcriptional analysis of unfertilized MII oocytes revealed an altered gene expression profile associated with TFF. Meiosis, cell growth and apoptosis controlling genes were mis-expressed with important fold changes. The results reveal that, despite passing the pre-IVF morphological examination, high-grade oocytes may carry substantial molecular abnormalities at the gene expression level associated with failure of MII oocyte activation. In the absence of an identifiable defect causing TFF, this microarray approach allows improvement of clinical therapeutic management: informed counselling about alternate therapeutic solutions could be proposed.

Characterization and expression analysis during embryo development of the mouse ortholog of MLL3.

We characterized the mouse ortholog of the human MLL3 gene and a 10.6 kb-Mll3 transcript. The mouse Mll3 gene comprises 60 exons that encompass 226 kb in chromosome 5. The predicted protein of 3464 amino acids contains two PHD domains, an ATPase alpha_beta signature, an HMG, and a SET domain. We analyzed the expression of the Mll3 gene during the embryonic development of the mouse by whole-mount in situ hybridization. Low levels of expression throughout the embryo were first detected at 8.0 dpc. At this stage, the signal was already stronger in the forebrain neuroepithelium and absent in the heart. Next, expression outlined the ventral neural tube, the somites, the limbs, and the eye lens remaining at low levels throughout the embryo. By 13.0 dpc, expression became stronger in the spinal cord, in hand/foot plates, and in gonads. RT-PCR confirmed that Mll3 is expressed early during gametogenesis. We suggest that Mll3 is expressed early in pre-spermatogonia and then in spermatogonia.

Identifying new human oocyte marker genes: a microarray approach.

The efficacy of classical IVF techniques is still impaired by poor implantation and pregnancy rates after embryo transfer. This is mainly due to a lack of reliable criteria for the selection of embryos with sufficient development potential. Several studies have provided evidence that some gene expression levels could be used as objective markers of oocyte and embryo competence and capacity to sustain a successful pregnancy. These analyses usually use reverse transcription-polymerase chain reaction to look at small sets of pre-selected genes. However, microarray approaches allow the identification of a wider range of cellular marker genes which could include additional and perhaps more suitable genes that could serve as embryo selection markers. Microarray screenings of around 30,000 genes on U133P Affymetrix gene chips made it possible to establish the expression profile of these genes as well as other related genes in human oocytes and cumulus cells. This study identifies new potential regulators and marker genes such as BARD1, RBL2, RBBP7, BUB3 or BUB1B, which are involved in oocyte maturation.

A meta-analysis of human embryonic stem cells transcriptome integrated into a web-based expression atlas.

Microarray technology provides a unique opportunity to examine gene expression patterns in human embryonic stem cells (hESCs). We performed a meta-analysis of 38 original studies reporting on the transcriptome of hESCs. We determined that 1,076 genes were found to be overexpressed in hESCs by at least three studies when compared to differentiated cell types, thus composing a "consensus hESC gene list." Only one gene was reported by all studies: the homeodomain transcription factor POU5F1/OCT3/4. The list comprised other genes critical for pluripotency such as the transcription factors NANOG and SOX2, and the growth factors TDGF1/CRIPTO and Galanin. We show that CD24 and SEMA6A, two cell surface protein-coding genes from the top of the consensus hESC gene list, display a strong and specific membrane protein expression on hESCs. Moreover, CD24 labeling permits the purification by flow cytometry of hESCs cocultured on human fibroblasts. The consensus hESC gene list also included the FZD7 WNT receptor, the G protein-coupled receptor GPR19, and the HELLS helicase, which could play an important role in hESCs biology. Conversely, we identified 783 genes downregulated in hESCs and reported in at least three studies. This "consensus differentiation gene list" included the IL6ST/GP130 LIF receptor. We created an online hESC expression atlas, http://amazonia.montp.inserm.fr, to provide an easy access to this public transcriptome dataset. Expression histograms comparing hESCs to a broad collection of fetal and adult tissues can be retrieved with this web tool for more than 15,000 genes.

Prostaglandin D2 induces nuclear import of the sex-determining factor SOX9 via its cAMP-PKA phosphorylation.

During mammalian gonadal development, nuclear import/export of the transcription factor SOX9 is a critical step of the Sry-initiated testis-determining cascade. In this study, we identify a molecular mechanism contributing to the SOX9 nuclear translocation in NT2/D1 cells, which is mediated by the prostaglandin D2 (PGD2) signalling pathway via stimulation of its adenylcyclase-coupled DP1 receptor. We find that activation of cAMP-dependent protein kinase A (PKA) induces phosphorylation of SOX9 on its two S64 and S181 PKA sites, and its nuclear localization by enhancing SOX9 binding to the nucleocytoplasmic transport protein importin beta. Moreover, in embryonic gonads, we detect a male-specific prostaglandin D synthase expression and an active PGD2 signal at the time and place of SOX9 expression. We thus propose a new step in the sex-determining cascade where PGD2 acts as an autocrine factor inducing SOX9 nuclear translocation and subsequent Sertoli cell differentiation.

Cordon-bleu is a conserved gene involved in neural tube formation.

The axial midline is an important source of patterning and morphogenesis cues in the vertebrate embryo. The midline derives from a small group of cells in the gastrulating embryo, known as "the organizer" in recognition of its ability to organize an entire body plan. The mammalian organizer, the node, gives rise to axial midline structures: the notochord, dorsal foregut, and part of the floor plate of the neural tube. Only some of the genes that direct midline development are known. In this study, we present the complete coding sequence for a novel gene, cordon-bleu (cobl), expressed specifically in the node and its derivatives until organogenesis stages. The deduced sequence does not resemble any gene of known function. However, cobl is widely conserved: apparent orthologs and paralogs are found in many vertebrate species, with several sequence domains of high conservation but unknown function. We find that chicken cordon-bleu is similarly expressed in the node and its derivatives, suggesting functional conservation. We also report the sequence and nonoverlapping expression of a related mouse gene, Coblr1. Finally, we show that cobl interacts with the neurulation gene Vangl2 to facilitate midbrain neural tube closure, demonstrating roles for both cobl and Vangl2 in midbrain neurulation.

A nuclear export signal within the high mobility group domain regulates the nucleocytoplasmic translocation of SOX9 during sexual determination.

In mammals, male sex determination starts when the Y chromosome Sry gene is expressed within the undetermined male gonad. One of the earliest effect of Sry expression is to induce up-regulation of Sox9 gene expression in the developing gonad. SOX9, like SRY, contains a high mobility group domain and is sufficient to induce testis differentiation in transgenic XX mice. Before sexual differentiation, SOX9 protein is initially found in the cytoplasm of undifferentiated gonads from both sexes. At the time of testis differentiation and anti-Müllerian hormone expression, it becomes localized to the nuclear compartment in males whereas it is down-regulated in females. In this report, we used NIH 3T3 cells as a model to examine the regulation of SOX9 nucleo-cytoplasmic shuttling. SOX9-transfected cells expressed nuclear and cytoplasmic SOX9 whereas transfected cells treated with the nuclear export inhibitor leptomycin B, displayed an exclusive nuclear localization of SOX9. By using SOX9 deletion constructs in green fluorescent protein fusion proteins, we identified a functional nuclear export signal sequence between amino acids 134 and 147 of SOX9 high mobility group box. More strikingly, we show that inhibiting nuclear export with leptomycin B in mouse XX gonads cultured in vitro induced a sex reversal phenotype characterized by nuclear SOX9 and anti-Müllerian hormone expression. These results indicate that SOX9 nuclear export signal is essential for SOX9 sex-specific subcellular localization and could be part of a regulatory switch repressing (in females) or triggering (in males) male-specific sexual differentiation.