Abstract
The aim of the present study was to determine whether mesenchymal stem cell-conditioned medium (MSC-CM) modulates apoptotic and stress-related gene expression, and ameliorates maturation and developmental potential of immature human oocytes after artificial activation. A total of 247 surplus immature germinal vesicle (GV) oocytes obtained from infertile women were allocated into two in vitro maturation (IVM) groups: 1: GV oocytes (n = 116) matured in vitro (fIVM), and 2: GV oocytes (n = 131) that were vitrified, then in vitro matured (vIVM). Also, two maturation media were used: Alpha-minimum essential medium (α-MEM) and human umbilical cord-derived MSCs (hUCM). After 36 h of incubation, the IVM oocytes were examined for nuclear maturation. In IVM-matured oocytes, cytoplasmic maturation was evaluated after artificial activation through Ionomycin. Moreover, the quantitative expressions of B-cell CLL/lymphoma 2 (BCL2), BCL2-associated X protein (BAX), superoxide dismutase (SOD), and Heat shock proteins (HSP70) in matured oocytes were assessed by quantitative Real-time polymerase chain reaction (qRT-PCR) and compared with fresh and vitrified in vivo matured oocytes, which were used as fIVM and vIVM controls, respectively. The highest maturation rate was found in hUCM in fIVM, and the lowest maturation rate was found using α-MEM in vIVM (85.18% and 71.42%, respectively). The cleavage rate in fIVM was higher than that in vIVM (83.4% vs. 72.0%). In addition, the cleavage rate in α-MEM was lower than that in the hUCM (66.0% vs. 89.4%). Furthermore, the difference between parthenote embryo arrested in 4–8 cells (p < 0.04) and the quality of embryo arrested in 8-cell (p < 0.007) were significant. The developmental stages of parthenote embryos in hUCM versus α-MEM were as follows: 2–4 cell (89.45% vs. 66.00%, respectively), 4–8 cell (44.31% vs. 29.11%, respectively), morula (12.27% vs. 2.63%, respectively), and blastocysts (2.5% vs. 0%, respectively). The messenger RNA (mRNA) expression levels of BCL2, BAX and SOD were significantly different (p < 0.05) between the matured IVM oocytes. Overall, hUCM showed potential efficacy in terms of ameliorating oocyte maturation and in promoting the development and mRNA expression of BAX, BCL2, and SOD.
Highlights
Oocyte cryopreservation and the in vitro maturation (IVM) of immature oocytes are vital techniques for female fertility preservation in assisted reproductive technology (ART)
Fresh and vitrified germinal vesicle (GV) oocytes were used, and IVM was randomly performed in two conditioned media for 36 h; all oocytes were assessed for maturity under an inverted microscope
The GV oocytes were divided into two groups: fresh IVM and vitrified IVM
Summary
Oocyte cryopreservation and the in vitro maturation (IVM) of immature oocytes are vital techniques for female fertility preservation in assisted reproductive technology (ART). Meiotic spindle damage and the risk of aneuploidy in embryos are increased in the cryopreservation of mature oocytes. In the germinal vesicle (GV) stage, chromatin is carefully enveloped in the nucleus, decreasing the risk of meiotic spindle damage [1]. 20% of the retrieved oocytes are immature following controlled ovarian hyper-stimulation, and immature oocytes are routinely discarded. The IVM of immature oocytes may prevent further cycles, thereby reducing the cost and negative side effects of using gonadotropins. Oocyte cryopreservation is useful in fertility preservation, especially in countries with ethical limitations regarding the freezing of embryos [2,3]
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