Project description:Vitrification is replacing slow freezing as the most popular method for human embryo cryopreservation in clinics world-wide. Several studies demonstrated that cryopreservation alters gene expression of mammalian embryos, but none of them analysed what happen with those embryos that get implanted and follow with the gestation. The aim of this study was to evaluate the effect of vitrification technique on rabbit embryonic and fetal development by performing a transcriptomic analysis of 6 day old embryos and 14 days old fetal placentas. Effect of vitrification on late blastocyst and fetal placenta transcriptome. Four indepent replicates were performed for each condition (control and vitrified) and for both tissues (embryo and fetal placenta).

Project description:Vitrification is not considered as ideal method for cryopreservation of human spermatozoa due to the presence of high concentrations of penetrating cryoprotectants in the vitrification medium. Several studies in the literature suggest that the outcome of semen cryopreservation is superior when cryopreserved using conventional rapid freezing protocol compared to vitrification. The present study was aimed at assessing the functional and proteomic changes in the human spermatozoa cryopreserved in vitrification medium without penetrating cryoprotectant. Leftover ejaculates (n = 71) from men visiting the andrology laboratory for routine semen analysis were used. The liquefied semen samples were cryopreserved using rapid freezing and vitrification for a minimum of seven days. Post-thaw motility, mitochondrial function, DNA integrity, and acrosome intactness of spermatozoa were similar between the cryoprotectant-free vitrification and rapid freezing methods. The head morphology of spermatozoa cryopreserved by the vitrification method was better preserved compared to rapid freezing method. Proteomic analysis led to the identification of a total of 4378 proteins in spermatozoa. However, differential proteomic profile observed in spermatozoa cryopreserved with vitrification and conventional rapid freezing methods compared to spermatozoa from the ejaculate indicates the possible differences in the functional competence of the spermatozoa cryopreserved using these two protocols. Even though vitrification of spermatozoa in medium without penetrating cryoprotectant holds promise as an attractive option owing to the simplicity and rapidity of the protocol, further studies are necessary to understand the safety of the protocol and pregnancy outcome upon using the vitrified-thawed spermatozoa for assisted conception and assisted reproductive technology.

Project description:Vitrification is replacing slow freezing as the most popular method for human embryo cryopreservation in clinics world-wide. Several studies demonstrated that cryopreservation alters gene expression of mammalian embryos, but none of them analysed what happen with those embryos that get implanted and follow with the gestation. The aim of this study was to evaluate the effect of vitrification technique on rabbit embryonic and fetal development by performing a transcriptomic analysis of 6 day old embryos and 14 days old fetal placentas.

Project description:Nowadays there is a need to improve cryopreservation protocols in both human assisted reproduction and domestic animal field. We wanted to compare the transcriptomic changes induced by two commonly used cryopreservation procedures (slow freezing and vitrification) on rabbit late blastocyst before the onset of implantation. We recovered rabbit morulae at day 3 of development, freezing or vitrified and transferred them into recipient maternal tracts till day 6 of development. In this way, we wanted to analyse if different cryopreservation techniques produce different effects on gene expression that embryos are unable to get over after three days of in vivo development.

Project description:Nowadays there is a need to improve cryopreservation protocols in both human assisted reproduction and domestic animal field. We wanted to compare the transcriptomic changes induced by two commonly used cryopreservation procedures (slow freezing and vitrification) on rabbit late blastocyst before the onset of implantation. We recovered rabbit morulae at day 3 of development, freezing or vitrified and transferred them into recipient maternal tracts till day 6 of development. In this way, we wanted to analyse if different cryopreservation techniques produce different effects on gene expression that embryos are unable to get over after three days of in vivo development. After artificially insemination morulae were recovered at day 3 of development, frozen or vitrified, and then transferred to recipient does. To assess gene expression differences between frozen and vitrified the recipients were slaughtered three days after the transfer, at day 6.

Project description:Ovarian tissue cryopreservation is an important technique for preserving fertility potential, albeit the associated tissue damage may severely impact post-thaw tissue viability. We collected human ovarian tissues from multiple samples and performed Stereo-Seq high-resolution spatial transcriptomics to comprehensively profile and compare the molecular impacts of two cryopreservation methods - slow freezing and vitrification. We identified 8 major spatial clusters and revealed their functional heterogeneity by subclustering. We then detailed cryopreservation response at both the global and subcluster levels to illustrate overall and niche specific effects. Compared to fresh samples, we observed a decrease in major metabolic pathways in frozen samples with both techniques, whereas vitrified samples have severer decrease than slow-frozen samples. The affected metabolic pathways included those related to proteins, such as ribosomal processes and proteasomal degradation; lipids, specifically sterol and cholesterol metabolism; and overall energy production, which encompassed cellular respiration and mitochondrial processes. On the other hand, slow freezing elicited a strong but balanced inflammatory and tissue remodeling state compared to vitrification. We also reported upregulated cell-cell signaling related to angiogenesis, cellular adhesion and extracellular matrix remodeling in slow-frozen tissue. These pathways were responsible for enhancing tissue repair by coordinating with certain stromal and endothelial subclusters. In summary, our study offered insights on ovarian cell response to cryopreservation, which may guide optimization of ovarian tissue cryopreservation protocols for clinical applications.

Project description:Cryopreservation of mature oocytes is a critical means for female fertility preservation. Despite clinical advances using vitrification preservation method, the high concentrations of toxic penetrating cryoprotectant agents (CPA, up to 4.3 M) and low throughput (only one every experiment) put forward a challenge. Here, we report a synergetic ice inhibition platform via PVA/Fe3O4/GO nanoparticles (PFG NPs), that achieves sharp ice morphology, ice recrystallization, and devitrification inhibition, thus reducing cryodamage both in cooling and warming stages. Oocyte cryopreservation experiment demonstrates the survival rate can attain 98.6% using 2.5 M penetrating CPA while ensuring the scalability (ten oocytes each cryopreservation procedure). In contrast, recovered oocytes via PFG platform show 85 gene variation compared with fresh oocytes, whereas tradition CPA (TCPA) formulation induces 1396 gene changes. Meanwhile, the PFG-cryopreservation oocytes maintain normal ability of fertilization, development, and birth of offspring.

Project description:Vitrification cryopreservation of oocytes is an enabling technology for assisted reproductive technology. However, many factors in the vitrification process, such as the toxicity of cryoprotectant, osmotic stress, ice crystal formation during rewarming, will cause fatal damage to oocytes, thus affecting the embryo developmental potential and subsequent clinical outcomes. Therefore, oocyte vitrification still faces significant challenges. Recent studies have shown that LEA protein has the potential to improve oocyte cryopreservation, while the molecular mechanism by which it exerts protective effects is still unclear. Therefore, we have systematically investigated the effects of LEA proteins on the vitrification cryopreservation and their molecular mechanisms. Results revealed that the proteins improved the developmental potential of human oocytes following cryopreservation, mostly by downregulating FOS genes and reducing oxidative stress. Moreover, the synergistic cryoprotection of LEA proteins by inhibiting the formation of ice crystals was given full play. This study provides a new strategy for high-quality cryopreservation of human oocytes.

Project description:Vitrification is a method for long-term biological sample cryopreservation without causing intra- and extra-cellular ice formation. We recently established a novel closed vitrification system to cryopreserve mouse ovarian follicles. Using the 3D alginate hydrogel encapsulated in vitro follicle growth (eIVFG) method, we have demonstrated that compared to freshly-harvested follicles, vitrified follicles have normal follicle and oocyte reproductive outcomes. Our recent study further demonstrated the faithful preservation of molecular signatures of follicle-stimulating hormone (FSH)-stimulated follicle maturation in vitrified follicles. However, it is unknown whether ovulation, another crucial gonadotropin-dependent follicular event, and involved ovulatory gene regulatory pathways are well conserved in vitrified follicles. Fresh and vitrified follicles grown for 8 days by eIVFG were collected at 0, 1, 4 and 8-hour post human chorionic gonadotropin (hCG) treatment for the single-follicle RNA sequencing. Principal component analysis (PCA) and Pearson’s correlation analysis revealed that vitrified follicles have similar transcriptomic profiles to fresh follicles. Furthermore, the expression of several genes essential for ovulation were comparable between vitrified and fresh follicles. In summary, these results demonstrate that our closed vitrification system preserves follicular transcriptomic dynamics during ex vivo ovulation. Together with our previous findings that vitrification preserves FSH-stimulated follicle maturation, the integration of vitrification of immature follicles and eIVFG has a great potential to serve as an additional fertilization preservation approach for young cancer patients and endangerers species. Moreover, follicle vitrification enables a high-content ovarian follicle biobank, which can greatly improve the throughput of eIVFG for studying ovulation biology, anovulatory disease, toxicology, and novel contraceptive drug development targeting ovulation.

Project description:Studies on embryo cryopreservation efficiency had been focused mainly on technical and embryo factors. While structural damages can be easily evaluated, physiological damages only can be estimated by analyzing their in vitro and in vivo development to later stages. In order to determine how cryopreservation process affect embryo pre-implantory development, a transcriptional microarray study has been performed comparing gene expression of 6 days old rabbit embryos, previously vitrified or frozen and transferred into recipients rabbit females, to their in vivo counterparts. For each experimental group, control, vitrified and frozen late blastocysts, total RNA was extracted from 3 pools of approximately 10 embryos and labeled with Cy3 or Cy5 dyes. Then, six competitive hybridizations were carried out including two dye-swaps to compensate dye-bias. A specifically microarray designed to study rabbit gene expression profiling, the Rabbit 44K oligonucleotide array (Agilent Technologies), was used in this study. Identification of differentially expressed transcripts from 6 day old blastocysts was achieved using the Limma algorithm, and functional annotation was performed by Blast2GO software. Compared to 6 day old in vivo derived embryos, viable vitrified embryos only present 3 differentially expressed genes, in contrast to frozen viable embryos with 24 genes upregulated and 46 genes downregulated. These results reveal that effects of cryopreservation still remain in late blastocyst pre-implantatory gene expression, and potential damage and alterations produced by vitrification and slow-freezing procedures are differentially resolved after 3 days of in vivo development. Transcriptional microarray study that compares gene expression of viable 6 day old rabbit embryos, previosly vitrified or frozen and tranferred into recipient rabbit females, to their in vivo counterparts. Experiment 1: Control embryos vs. Vitrified embryos and Experiment 2: Control embryos vs. Frozen embryos. Biological replicates used: 3 replicates for control embryos, 3 replicates for vitrified embryos and 3 replicates for frozen embryos.