H. Dechaud

Effects of cigarette smoking on reproduction

BACKGROUND Cigarette smoking is associated with lower fecundity rates, adverse reproductive outcomes and a higher risk of IVF failures. Over the last few decades, prevalence of smoking among women of reproductive age has increased. This review focuses on current knowledge of the potential effects of smoke toxicants on all reproductive stages and the consequences of smoke exposure on reproductive functions. METHODS We conducted a systematic review of the scientific literature on the impact of cigarette smoking and smoke constituents on the different stages of reproductive function, including epidemiological, clinical and experimental studies. We attempted to create hypotheses and find explanations for the deleterious effects of cigarette smoke observed in experimental studies. RESULTS Cigarette smoke contains several thousand components (e.g. nicotine, polycyclic aromatic hydrocarbons and cadmium) with diverse effects. Each stage of reproductive function, folliculogenesis, steroidogenesis, embryo transport, endometrial receptivity, endometrial angiogenesis, uterine blood flow and uterine myometrium is a target for cigarette smoke components. The effects of cigarette smoke are dose-dependent and are influenced by the presence of other toxic substances and hormonal status. Individual sensitivity, dose, time and type of exposure also play a role in the impact of smoke constituents on human fertility. CONCLUSIONS All stages of reproductive functions are targets of cigarette smoke toxicants. Further studies are necessary to better understand the deleterious effects of cigarette smoke compounds on the reproductive system in order to improve health care, help to reduce cigarette smoking and provide a better knowledge of the molecular mechanisms involved in reproductive toxicology.

A non-invasive test for assessing embryo potential by gene expression profiles of human cumulus cells: a proof of concept study

Identification of new criteria for embryo quality is required to improve the clinical outcome of in vitro fertilization. The aim of this study was to determine the gene expression profile of cumulus cells (CC) surrounding the oocyte as biomarkers for embryo potential and to identify genes to be used as prognostic indicators of successful pregnancy. CC from single oocytes were analysed using DNA microarrays. Gene expression profiles of CC surrounding the oocyte associated with good embryonic quality and pregnancy outcome were computed. We observed that CC issued from oocytes that developed into embryos with a good morphology had differing gene expression profile according to the pregnancy outcome of the embryo. We demonstrated that the expression of BCL2L11, PCK1 and NFIB in CC is significantly correlated with embryo potential and successful pregnancy. These results were confirmed by quantitative RT-PCR. The gene expression profiling of human CC correlates with embryo potential and pregnancy outcome. BCL2L11, PCK1 and NFIB genes are proposed as biomarkers for predicting pregnancy. Our findings suggest a non-invasive approach, offering a new potential strategy for competent embryo selection. This approach should be validated in single-embryo transfer programmes.

Identification of new biomarkers of human endometrial receptivity in the natural cycle

BACKGROUND Identification of new markers assessing endometrial receptivity may help in improving the clinical outcome of IVF. This study aimed at identifying genes expressed in human endometrium during the implantation window that could be used as such markers. METHODS A series of normoresponder patients (n = 31) underwent endometrial biopsies (n = 62, 2 per patient) during the early secretory phase, 2 days after the LH surge (LH + 2) and the mid-secretory phase (LH + 7) of the same natural cycle that preceded a new ICSI attempt for male infertility factor. Samples were analyzed using DNA microarrays and gene expression profiles at the time of the implantation window were computed. Systems biology analysis allowed the identification of biological pathways that were over-represented in this signature. A new approach for class prediction applied to microarray experiments was then used to identify biomarkers putatively involved in endometrial receptiveness. RESULTS Five genes expressed during the implantation window were all up-regulated in the LH + 7 samples compared with LH + 2 [laminin beta3 (P = 0.002), microfibril-associated protein 5 (P = 0.009), angiopoietin-like 1 (P = 0.005), endocrine gland-derived vascular endothelial growth factor (P = 0.049) and nuclear localized factor 2 (P = 0.007)]. Increased expression was validated by quantitative RT-PCR. CONCLUSIONS Five genes have been identified for the first time as being up-regulated during the implantation window and are proposed as new biomarkers for exploration of endometrial receptiveness. As the endometrial biopsy procedure can be performed during a natural cycle, it would be worth testing this approach as a novel strategy in patients with poor implantation after IVF or ICSI.

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.

Does previous salpingectomy improve implantation and pregnancy rates in patients with severe tubal factor infertility who are undergoing in vitro fertilization? A pilot prospective randomized study

OBJECTIVE To evaluate the implantation rate and pregnancy rate (PR) in patients with severe tubal factor infertility who were undergoing IVF. Patients who had undergone salpingectomy were compared with those who had not. DESIGN A prospective randomized study. SETTING A department of obstetrics and gynecology at a university hospital. PATIENT(S) Thirty patients who previously had undergone salpingectomy and 30 patients who had not undergone salpingectomy before IVF treatment. INTERVENTION(S) Laparoscopy with or without salpingectomy followed by IVF with the use of combined GnRH agonist and hMG therapy in a long stimulation protocol. MAIN OUTCOME MEASURE(S) Embryo implantation rate and ongoing PR per transfer. The cumulative PRs were compared for the two groups of patients. RESULT(S) After the first IVF attempt, the implantation rate was 10.4% in the group with salpingectomy and 4.6% in the group without salpingectomy. For all IVF attempts, the respective embryo implantation rates in the two groups were 13.4% and 8.6%. The ongoing PR per transfer was 34.2% in the group with salpingectomy compared with 18.7% in the group without salpingectomy. After four IVF attempts, the probability of becoming pregnant was greater in the group of patients with salpingectomy (75%) than in the group without salpingectomy (63%). CONCLUSION(S) Previous salpingectomy in patients with severe tubal factor infertility who are undergoing IVF seems to increase the embryo implantation rate and the PR per cycle of IVF. This monocentric study must be followed by other similar studies to allow for a metaanalysis and confirm this clear trend with definitive evidence.

Dynamic changes in gene expression during human early embryo development: from fundamental aspects to clinical applications

BACKGROUND The first week of human embryonic development comprises a series of events that change highly specialized germ cells into undifferentiated human embryonic stem cells (hESCs) that display an extraordinarily broad developmental potential. The understanding of these events is crucial to the improvement of the success rate of in vitro fertilization. With the emergence of new technologies such as Omics, the gene expression profiling of human oocytes, embryos and hESCs has been performed and generated a flood of data related to the molecular signature of early embryo development. METHODS In order to understand the complex genetic network that controls the first week of embryo development, we performed a systematic review and study of this issue. We performed a literature search using PubMed and EMBASE to identify all relevant studies published as original articles in English up to March 2010 (n = 165). We also analyzed the transcriptome of human oocytes, embryos and hESCs. RESULTS Distinct sets of genes were revealed by comparing the expression profiles of oocytes, embryos on Day 3 and hESCs, which are associated with totipotency, pluripotency and reprogramming properties, respectively. Known components of two signaling pathways (WNT and transforming growth factor-β) were linked to oocyte maturation and early embryonic development. CONCLUSIONS Omics analysis provides tools for understanding the molecular mechanisms and signaling pathways controlling early embryonic development. Furthermore, we discuss the clinical relevance of using a non-invasive molecular approach to embryo selection for the single-embryo transfer program.

Controlled Ovarian Hyperstimulation for In Vitro Fertilization Alters Endometrial Receptivity in Humans: Protocol Effects

The impact of gonadotropin-releasing hormone (GnRH) agonist long compared with GnRH antagonist protocols, under in vitro fertilization conditions on endometrial receptivity, is still debated. Therefore, we compared the effect of both GnRH antagonist and agonist long protocols on the endometrial receptivity by analyzing, to our knowledge for the first time, the global gene expression profile shift during the prereceptive and receptive stages of stimulated cycles under the two GnRH analogue protocols compared with natural cycles in the same patients. For the same normal-responder patients, endometrial biopsies were collected on the day of oocyte retrieval and on the day of embryo transfer after human chorionic gonadotropin administration of a stimulated cycle with either GnRH agonist long or GnRH antagonist protocols and compared with the prereceptive and receptive stages of a natural cycle. Samples were analyzed using DNA microarrays. Gene expression profiles and biological pathways involved during the prereceptive stage to the receptive endometrial transition of stimulated and natural cycles were analyzed and compared for each patient. Both protocols affect endometrial receptivity in comparison with their natural cycle in the same patients. Major differences in endometrial chemokines and growth factors under stimulated cycles in comparison with natural cycles were observed. Such an effect has been associated with gene expression alterations of endometrial receptivity. However, the endometrial receptivity under the GnRH antagonist protocol was more similar to the natural cycle receptivity than that under the GnRH agonist protocol.

Slow freezing and vitrification differentially modify the gene expression profile of human metaphase II oocytes.

BACKGROUND Cryopreservation is now considered as an efficient way to store human oocytes to preserve fertility. However, little is known about the effects of this technology on oocyte gene expression. The aim of this study was to examine the effect of the two cryopreservation procedures, slow freezing and vitrification, on the gene expression profile of human metaphase II (MII) oocytes. METHODS Unfertilized MII oocytes following ICSI failure were cryopreserved either by slow freezing or by the Cryotip method for vitrification. After thawing, total RNA was extracted and analyzed using Affymetrix Human Genome U133 Plus 2.0 GeneChip arrays. The gene expression profiles and associated biological pathways in slowly frozen/thawed and vitrified MII oocytes were determined and compared with those of non-cryopreserved MII oocytes used as controls. RESULTS Both cryopreservation procedures negatively affected the gene expression profile of human MII oocytes in comparison with controls. However, slowly frozen and vitrified MI oocytes displayed specific gene expression signatures. Slow freezing was associated with down-regulation of genes involved in chromosomal structure maintenance (KIF2C and KIF3A) and cell cycle regulation (CHEK2 and CDKN1B) that may lead to a reduction in the oocyte developmental competence. In vitrified oocytes, many genes of the ubiquitination pathway were down-regulated, including members of the ubiquitin-specific peptidase family and subunits of the 26S proteasome. Such inhibition of the degradation machinery might stabilize the maternal protein content that is necessary for oocyte developmental competence. CONCLUSIONS The low pregnancy rates commonly observed when using human MII oocytes after slow freezing-thawing may be explained by the alterations of the oocyte gene expression profile.

MicroRNAs: new candidates for the regulation of the human cumulus–oocyte complex

STUDY QUESTION What is the expression pattern of microRNAs (miRNAs) in human cumulus-oocyte complexes (COCs)? SUMMARY ANSWER Several miRNAs are enriched in cumulus cells (CCs) or oocytes, and are predicted to target genes involved in biological functions of the COC. WHAT IS KNOWN ALREADY The transcriptional profiles of human MII oocytes and the surrounding CCs are known. However, very limited data are available about post-transcriptional regulators, such as miRNAs. This is the first study focussing on the identification and quantification of small RNAs, including miRNAs, in human oocytes and CCs using a deep-sequencing approach. STUDY DESIGN, SIZE, DURATION MII oocytes and CCs were collected from women who underwent IVF. PARTICIPANTS/MATERIALS, SETTING, METHODS Using the Illumina/deep-sequencing technology, we analyzed the small RNAome of pooled MII oocytes (n = 24) and CC samples (n = 20). The mRNA targets of CC and MII oocyte miRNAs were identified using in silico prediction algorithms. Using oligonucleotide microarrays, genome-wide gene expression was studied in oocytes (10 pools of 19 ± 3 oocytes/each) and 10 individual CC samples. TaqMan miRNA assays were used to confirm the sequencing results in independent pools of MII oocytes (3 pools of 8 ± 3 oocytes/each) and CC samples (3 pools of 7 ± 3 CCs/each). The functional role of one miRNA, MIR23a, was assessed in primary cultures of human CCs. MAIN RESULTS AND THE ROLE OF CHANCE Deep sequencing of small RNAs yielded more than 1 million raw reads. By mapping reads with a single location to the human genome, known miRNAs that were abundant in MII oocytes (MIR184, MIR100 and MIR10A) or CCs (MIR29a, MIR30d, MIR21, MIR93, MIR320a, MIR125a and the LET7 family) were identified. Predicted target genes of the oocyte miRNAs were associated with the regulation of transcription and cell cycle, whereas genes targeted by CC miRNAs were involved in extracellular matrix and apoptosis. Comparison of the predicted miRNA target genes and mRNA microarray data resulted in a list of 224 target genes that were differentially expressed in MII oocytes and CCs, including PTGS2, CTGF and BMPR1B that are important for cumulus-oocyte communication. Functional analysis using primary CC cultures revealed that BCL2 and CYP19A1 mRNA levels were decreased upon MIR23a overexpression. LIMITATIONS, REASONS FOR CAUTION Only known miRNAs were investigated in the present study on COCs. Moreover, the source of the material is MII oocytes that failed to fertilize. WIDER IMPLICATIONS OF THE FINDINGS The present findings suggest that miRNA could play a role in the regulation of the oocyte and CC crosstalk. STUDY FUNDING/COMPETING INTEREST(S) This work was partially supported by a grant from Ferring Pharmaceuticals. The authors of the study have no conflict of interest to report. TRIAL REGISTRATION NUMBER Not applicable.

Human Cumulus Cells Molecular Signature in Relation to Oocyte Nuclear Maturity Stage

The bi-directional communication between the oocyte and the surrounding cumulus cells (CCs) is crucial for the acquisition of oocyte competence. We investigated the transcriptomic profile of human CCs isolated from mature and immature oocytes under stimulated cycle. We used human Genome U133 Plus 2.0 microarrays to perform an extensive analysis of the genes expressed in human CCs obtained from patients undergoing intra-cytoplasmic sperm injection. CC samples were isolated from oocyte at germinal vesicle, stage metaphase I and stage metaphase II. For microarray analysis, we used eight chips for each CC category. Significance analysis of microarray multiclass was used to analyze the microarray data. Validation was performed by RT-qPCR using an independent cohort of CC samples. We identified differentially over-expressed genes between the three CC categories. This study revealed a specific signature of gene expression in CCs issued from MII oocyte compared with germinal vesicle and metaphase I. The CC gene expression profile, which is specific of MII mature oocyte, can be useful as predictors of oocyte quality.