Karyomapping allows preimplantation genetic diagnosis of a de-novo deletion undetectable using conventional PGD technology.

Preimplantation genetic diagnosis (PGD) was carried out for a couple carrying a de-novo deletion in the TSC2 gene, responsible for tuberous sclerosis. Karyomapping, a method employing genome-wide analysis of single nucleotide polymorphisms (SNP), was used as PGD protocol. Analysis of DNA from the affected parent using karyomapping confirmed the region covered by the deletion and revealed more than 30 SNP located within the affected region. These SNP were subsequently used for embryo diagnosis (deletion revealed by hemizygosity and/or reduced probe intensity). Seven blastocyst embryos underwent trophectoderm biopsy followed by vitrification. Biopsied cells were subjected to comprehensive aneuploidy screening using microarray comparative genomic hybridization (aCGH), with karyomapping for the detection of embryos carrying the mutant TSC2 gene carried out in tandem. Two embryo transfers were performed, the second of which resulted in the birth of a child. This study highlights that karyomapping may be applicable to a subset of de-novo mutations undetectable using standard PGD strategies. Additionally, karyomapping results were in complete concordance with aCGH, both methods revealing the same aneuploidies in the embryos tested. It was concluded that karyomapping may represent a valuable advance in cases of PGD for monogenic diseases.

Double-factor preimplantation genetic diagnosis: monogenic and cytogenetic diagnoses analyzing a single blastomere.

OBJECTIVE: Enhancing implantation rates in preimplantation genetic diagnosis (PGD) cycles is still a challenging aspect to address. As aneuploidy can be one of the factors influencing the low implantation rates obtained, the aim of this work was to combine monogenic analysis with comprehensive aneuploidy screening (double factor) in order to transfer the selected (healthy and euploid) embryos in the same in-vitro fertilization (IVF) cycle. METHOD: In the present double-factor PGD (DF-PGD) approach, a single blastomere was biopsied from each embryo, and the whole genome amplification DNA product obtained was successfully used for both monogenic analysis and metaphase comparative genomic hybridization cytogenetic screening. The developed DF-PGD was applied to 62 embryos from seven families at risk for monogenic-inherited diseases in a total of seven IVF-DF-PGD cycles. RESULTS: While 68.2% of the diagnosed embryos were healthy for the monogenic diseases, only 43.3% of them were chromosomally normal considering aneuploidies and/or segmental chromosome imbalances. Six out of seven families had transferrable embryos according to DF-PGD results. Two healthy babies were born from the 11 selected embryo transfers. CONCLUSION: In families at risk for monogenic diseases, the DF-PGD is a useful tool to select healthy and potentially viable embryos for transfer, according to their chromosome complement.

TMT-Based Proteomic Analysis of Human Spermatozoa from Unexplained Recurrent Miscarriage Patients before and after Oral Antioxidant Treatment.

Recently, sperm quality and the presence of double-stranded breaks (DSB) has been pointed out as a possible cause of recurrent miscarriage, and the use of antioxidants has expanded as a treatment for male infertility. The aim of the present study was to analyze the proteomic effects of antioxidants on sperm from RM patients with high incidence of DSB. Proteomic analysis was performed using a tandem mass tag labeling technique, and subsequently compared with the PANTHER database for DEPs, and the STRING database for protein-protein interactions (PPI). Differentially expressed proteins (DEPs) both before and after antioxidant oral treatment were identified. PPI involving DEPs clustered into networks related to cell metabolism, cytoskeleton, and DNA damage. Results show that the sperm proteomic profiles before and after antioxidant treatment do not significantly differ from each other. However, some DEPs found after the antioxidant treatment shifted towards a DEPs profile typical of fertile donors. This indirect measurement suggests an improvement caused by antioxidants on the expression of several proteins. Among them were proteins involved in sperm DNA remodeling (LMO7, MMP28, BNC2, H2B, and PRDM2). The results presented here represent the first approach in the analysis and repair of the proteomic change caused by antioxidants in recurrent miscarriage patients, elucidating biomarkers that may be useful for the diagnosis and further sperm selection in this type of patient. Further studies should be conducted to validate the usefulness of these biomarkers in larger study groups.

Novel Double Factor PGT strategy analyzing blastocyst stage embryos in a single NGS procedure.

In families at risk from monogenic diseases affected offspring, it is fundamental the development of a suitable Double Factor Preimplantation Genetic Testing (DF-PGT) method for both single-gene analysis and chromosome complement screening. Aneuploidy is not only a major issue in advanced-maternal-age patients and balanced translocation carriers, but also the aneuploidy rate is extremely high in patients undergoing in vitro fertilization (IVF), even in young donors. To adequate NGS technology to the DF-PGT strategy four different whole genome amplification systems (Sureplex, MALBAC, and two multiple displacement amplification systems-MDA) were tested using TruSight One panel on cell lines and blastocyst trophectoderm biopsies-TE. Embryo cytogenetic status was analyzed by Nexus software. Sureplex and MALBAC DNA products were considered not suitable for PGT diagnosis due to inconsistent and poor results on Trusight one (TSO) panel. Results obtained with both MDA based methods (GEH-MDA and RG-MDA) were appropriate for direct mutation detection by TSO NGS platform. Nevertheless, RG-MDA amplification products showed better coverage and lower ADO rates than GEH-MDA. The present work also demonstrates that the same TSO sequencing data is suitable not only for the direct mutation detection, but also for the indirect mutation detection by linkage analysis of informative SNPs. The present work also demonstrates that Nexus software is competent for the detection of CNV by using with TSO sequencing data from RG-MDA products, allowing for the whole cytogenetic characterization of the embryos. In conclusion, successfully development of an innovative and promising DF-PGT strategy using TSO-NGS technology in TE biopsies, performed in-house in a single laboratory experience, has been done in the present work. Additional studies should be performed before it could be used as a diagnostic alternative in order to validate this approach for the detection of chromosomal aneuploidies.

Non-meiotic chromosome instability in human immature oocytes.

Aneuploidy has been a major issue in human gametes and is closely related to fertility problems, as it is known to be present in cleavage stage embryos and gestational losses. Pre-meiotic chromosome abnormalities in women have been previously described. The aim of this study is to assess the whole-chromosome complement in immature oocytes to find those abnormalities caused by mitotic instability. For this purpose, a total of 157 oocytes at the germinal vesicle or metaphase I stage, and discarded from IVF cycles, were analysed by CGH. Fifty-six women, between 18 and 45 years old (mean 32.5 years), including 32 IVF patients (25-45 years of age) and 24 IVF oocyte donors (18-33 years of age), were included in the study. A total of 25/157 (15.9%) of the oocytes analysed, obtained from three IVF clinics, contained chromosome abnormalities, including both aneuploidy (24/157) and structural aberrations (9/157). Independently of the maternal age, the incidence of abnormal oocytes which originated before meiosis is 15.9%, and these imbalances were found in 33.9% of the females studied. This work sheds light on the relevance of mitotic instability responsible for the generation of the abnormalities present in human oocytes.

Adrenomedullin and vascular endothelial growth factor production by follicular fluid macrophages and granulosa cells.

BACKGROUND: Human follicular fluid contains several substances, such as cytokines and growth factors, which may affect follicular growth and maturation. The present study examines the relative contribution of macrophages and granulosa cells in the production of vascular endothelial growth factor (VEGF) and adrenomedullin in the human ovulatory follicle. METHODS: Both follicular fluid samples and blood samples were obtained at the time of oocyte retrieval following ovarian stimulation from 20 women undergoing IVF treatment because of male infertility. Human follicular fluid macrophages and luteinized granulosa cells were obtained from pooled follicular fluid of individual patients. Accumulation of VEGF and adrenomedullin in the culture medium of the isolated macrophages and human granulosa cells was determined at variable time intervals ranging from 0 to 48 h. Plasma and follicular fluid concentrations of VEGF and adrenomedullin were also measured. RESULTS: The follicular fluid concentrations of VEGF and adrenomedullin were significantly higher than those found in plasma. After 48 h, accumulation of VEGF in the culture medium of follicular fluid macrophages was significantly higher than that released in the culture medium of luteinized granulosa cells. In contrast, the production rate of adrenomedullin by follicular fluid macrophages was similar to that found in granulosa cells. VEGF secreted by follicular fluid macrophages increased progressively within 48 h of cell culture. A similar response pattern was observed with the culture medium of luteinized granulosa cells, but with lower production rates. CONCLUSIONS: This study suggests for the first time that both luteinized granulosa cells and macrophages actively secrete VEGF and adrenomedullin into follicular fluid in the human ovary.