Description

The first aim of the project is to define the incidence of Maternal-Effect Genes (MEGs) and specifically of SCMC pathogenic variants as a cause of differences in reproductive outcomes in the infertile female population and mothers of BWS children. To this aim, three cohorts of patients will be recruited: healthy women with offspring affected by BWS and peculiar reproductive history from our population of clinically and molecularly diagnosed BWS families (Cohort 1), women under 35 undergoing ART for infertility (defined as failure to achieve a pregnancy after 12 months or more of regular unprotected sexual intercourses) and unable to obtain a live birth after three completed cycles or after the transfer of at least 6 blastocysts (Cohort 2), and women under 35, with RPL (Recurrent Pregnancy Loss defined as the loss of two or more pregnancies before 24 weeks of gestation) (Cohort 3).

To identify pathogenic variants, whole-exome sequencing (WES) will be performed as the first approach in all the recruited patients. WES analysis will be carried out following various steps. First, the investigators will analyze different subsets of genes, belonging to:

1. Maternal effect genes as SCMC components and other related genes;
2. Genes essential in the maturation of the oocyte and zygote progression through the early phases of the embryogenesis or highly expressed at different stages of oocyte maturation;
3. Genes with known and potential roles in the establishment and control of genomic imprinting and involved in DNA methylation reactions.

Subsequently, variants with a high pathogenicity score will be analyzed, to identify any genes that may be associated with the phenomenon, but do not belong to the previously described categories of genes. Finally, the investigators will conduct a whole genome sequencing (WGS) analysis on a selected subgroup of BWS mothers with peculiar clinical histories and negative WES analysis, to explore all the noncoding and regulatory regions not targeted by WES.

The second aim of this project is to employ whole-genome methylation analysis to identify methylation changes in women with reproductive problems including those with offspring affected by BWS. Specific tasks will be:

1. Determining the whole-genome methylation of blood leukocytes of the cohorts of women described in Aim 1 and comparing it with that of a similar number of sex- and age-matched controls;
2. Determining the whole-genome methylation of unfertilized oocytes derived from unsuccessful ART cycles of the same cohorts and comparing it with that of control oocytes (derived from either donation for research or public datasets).

DNA methylation will be determined in blood leukocytes by methylation array analysis and in unfertilized oocytes by single cell Bisulfite sequencing (scBS-Seq).

The third aim of the project is to determine the molecular mechanisms underlying female infertility and imprinting disorder associated with damaging SCMC gene variants by employing a mouse model. Specific tasks will be:

1. Determining the whole-genome methylation and RNA profiles of the Padi6 mut/mut oocytes and pre-implantation embryos obtained after IVF with wild-type sperm;
2. Transfer of the blastocysts derived from the IVF described in a) into pseudopregnant females and analysis of whole genome DNA methylation and RNA in the derived mid-gestation embryos by BS-seq and RNA-seq;
3. Mini-screening of epigenetics compounds on the 2-cell Padi6 mut/mut embryos. DNA methylation and RNA expression of the mouse oocytes and embryos will be determined by whole-genome scBS-seq and scRNA-seq.