Influência da diminuição da temperatura sobre o fuso meiótico de oócitos de camundongas e de mulheres maturados in vitro / Low temperature influence on meiotic oocyte spindle of mice and humans after maturation in vitro

Claudia Messias Gomes

Introduction: The meiotic spindle of most mammals is sensitive to cooling and depolymerizes even after a slight reduction in temperature. This is well described and studied on matured oocytes at metaphase II (MII). However, little is known about the influence of low temperatures under meiotic spindle of imature oocytes. In this way, we sougth to evaluate: 1) the influence of low temperatures on mice oocyte meiotic spindle matured in vitro e 2) the oocyte meiotic spindle from human oocytes matured in vitro and cryopreserved by slow-rate freezing or vitrification at GV stage. Methods: Two experiments were done: the first one on mice and the second one on women.At experiment 1, immature mice oocytes at metaphase I (MI), telophase I (TI) and MII were cultured at 37º C (control), room temperature (22oC) and 4º C for 0, 10, 30 and 60 minutes and then spindle analysis was made with polarized light microscopy (PLM) (LC-Polscope-Oosight image software) or immunocytochemistry (ICC). At experiment 2, GV oocytes retrieved from women submitted to ovulation induction and in vitro fertilization were randomly divided in three groups: fresh oocytes (A), cryopreserved by slow-freezing (B) and cryopreserved by vitrification (C). Fresh, thawed and warmed oocytes were matured in vitro to metaphase II oocytes (MII). A meiotic spindle analysis was done by polarized light microscopy (ICSI Guard Octax). Results: Experiment 1: At time 0 min and 37º C, all oocytes had polymerized spindles both at PLM or ICC. At 4º C, the number of MI oocytes with detectable spindles at PLM was smaller than those analysed by ICC, and it decreased with time, which had also occured with TI oocytes at a smaller proportion. However, at 4º C, TI meiotic spindle recognition with polarized light microscopy and ICC was comparable. When MII oocytes were cultured at 4º C, the spindle visualization decreased proportionally in correlation with culture time at PLM, and the same happened with ICC in a less pronounced manner. At room temperature there was a little descrease regarding visualization of meiotic spindle, both at PLM and ICC, altought it was not significant for TI oocytes. Experiment 2: Oocyte survival immediately after thawing/warming were 44.6% for group B and 79% for group C. After 24 hours of culture, oocyte survival was 29.2% and 69%, respectively. The median time for maturation was 26 hours for groups A and C, and 27 hours for group B. The percentage of MII after maturation in vitro were smaller in group B and similar between groups A and C. The same oocured for spindle visualization which were lower in group B and similar between groups A and C. Conclusions: There was a difference on the percentages of meiotic spindle depolymerization in response to cooling in mice oocytes at different stages of meiotic division. Spindle depolymerization was lower in TI. Also, meiotic spindle depolimerization was proportional to culture time, except for TI oocytes at room temperature.Vitrified GV oocytes had a better survival when warmed, compared to slow-rate frozen oocytes. Vitrified GV oocytes had similar maturation in vitro rates and polymerized spindles detection when compared to fresh oocytes

Influência da diminuição da temperatura sobre o fuso meiótico de oócitos de camundongas e de mulheres maturados in vitro / Low temperature influence on meiotic oocyte spindle of mice and humans after maturation in vitro

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