Although the importance of oocyte maturation for the achievement of female meiosis has long been recognized, until recently much less was known of the significance of this process in relation to other fundamental developmental events. Studies on chromatin dynamics and integrity have extended our understanding of female meiosis. Concomitantly, cytoskeletal and organelle changes and the ancillary role of CCs have been better appreciated. This is expected to inspire novel concepts and advances in assisted reproduction technologies, such as the development of novel in vitro maturation systems and the identification of biomarkers of oocyte quality.
Oocyte in vitro maturation (IVM) has become a valuable technological tool for animal breeding and cloning and the treatment of human infertility because it does not require the administration of exogenous gonadotropin to obtain fertilizable oocytes. However, embryo development after IVM is lower compared to in vivo maturation, most likely because oocytes collected for IVM are heterogeneous with respect to their developmental competencies. Attempts to improve IVM outcome have relied upon either prematuration culture (PMC) or two-step maturation strategies in the hope of normalizing variations in developmental competence. Such culture systems invoke the pharmacological arrest of meiosis, in theory providing oocytes sufficient time to complete the acquisition of developmental competence after cumulus-enclosed oocytes isolation from the follicle. The present study was designed to test the efficiency of natriuretic peptide precursor C (NPPC) as a nonpharmacologic meiosis-arresting agent during IVM in a monoovulatory species. NPPC has been shown to maintain meiotic arrest in vivo and in vitro in mice and pigs; however, the use of this molecule for PMC has yet to have been explored. Toward this end, meiotic cell cycle reentry, gap-junction functionality, and chromatin configuration changes were investigated in bovine cumulus-enclosed oocytes cultured in the presence of NPPC. Moreover, oocyte developmental competence was investigated after IVM, in vitro fertilization, and embryo culture and compared to standard IVM-in vitro fertilization protocol without PMC. Our results suggest that NPPC can be used to delay meiotic resumption and increase the developmental competence of bovine oocytes when used in PMC protocols.
Cumulus expansion and oocyte maturation are central processes in ovulation. Knowledge gained from rodent and other mammalian models has revealed some of the molecular pathways associated with these processes. However, the equivalent pathways in humans have not been thoroughly studied and remain unidentified. Compact cumulus cells (CCs) from germinal vesicle cumulus oocyte complexes (COCs) were obtained from patients undergoing in vitro maturation (IVM) procedures. Expanded CCs from metaphase 2 COC were obtained from patients undergoing IVF/ICSI. Global transcriptome profiles of the samples were obtained using state-of-the-art RNA sequencing techniques. We identified 1746 differentially expressed (DE) genes between compact and expanded CCs. Most of these genes were involved in cellular growth and proliferation, cellular movement, cell cycle, cell-to-cell signaling and interaction, extracellular matrix and steroidogenesis. Out of the DE genes, we found 89 long noncoding RNAs, of which 12 are encoded within introns of genes known to be involved in granulosa cell processes. This suggests that unique noncoding RNA transcripts may contribute to the regulation of cumulus expansion and oocyte maturation. Using global transcriptome sequencing, we were able to generate a library of genes regulated during cumulus expansion and oocyte maturation processes. Analysis of these genes allowed us to identify important new genes and noncoding RNAs potentially involved in COC maturation and cumulus expansion. These results may increase our understanding of the process of oocyte maturation and could ultimately improve the efficacy of IVM treatment.
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