Abstract
BackgroundIn vitro maturation (IVM) of immature oocytes retrieved from unstimulated ovaries may avoid side effects connected to hyperstimulation during IVF procedures, including the risk of cancer recurrence. In humans, the scarce availability of immature oocytes limits morphological studies. The monovular ovine may represent an experimental model for IVM studies.MethodsTo assess if the scarce developmental competence of prepubertal oocytes (PO) is related to morphological changes we analyzed, by light and transmission electron microscopy, cumulus-oocyte-complexes (COCs) from lambs (30-40 days old) and sheep (4-6 years old) at sampling and after 7 h, 19 h, 24 h of IVM. Meiotic progression was determined at the same time points.ResultsAt sampling, the germinal vesicle (GV) of PO was round and centrally or slightly eccentrically located, whereas in adult oocytes (AO) it was irregularly shaped and flattened against the oolemma. PO, differently from AO, showed numerous trans-zonal projections. Organelles, including cortical granules (CGs), were more abundant in AO. After 7 h, the percentage of AO that underwent GVBD-MI transition increased significantly. In PO, the oolemma was juxtaposed to the ZP; in AO, it showed several spikes in correspondence of cumulus cells (CC) endings. In PO, organelles and isolated CGs were scattered in the ooplasm. In AO, groups of CGs were also present under the oolemma. After 19 h, PO underwent GVBD-MI transition; their oolemma showed several spikes, with CC projections retracted and detached from the ZP. AO underwent MI-MII transition; their oolemma regained a round shape. CGs were located beneath the plasmalemma, arranged in multiple, continuous layers, sometime discontinuous in PO. After 24 h, both groups reached the MII-stage, characterized by a regular oolemma and by expanded CCs. PO showed CGs distributed discontinuously beneath the oolemma, while AO showed a continuous monolayer of CGs.ConclusionsEven if PO were able of reaching morphological maturation after 24 h of IVM, our ultrastructural analysis allowed detecting the presumptive sequence of cytoplasmic alterations connected with the delay of nuclear maturation, that might explain the reduced developmental competence of such oocytes. Data from the sheep model are of interest for zootechny, and provide an experimental basis for improving human IVM technology.
Highlights
In vitro maturation (IVM) of immature oocytes retrieved from unstimulated ovaries may avoid side effects connected to hyperstimulation during in vitro fertilization (IVF) procedures, including the risk of cancer recurrence
Analysis of meiotic progression during IVM At sampling (IVM: 0 hours) all the oocytes were arrested at germinal vesicle (GV)-stage in lambs and adults
prepubertal oocytes (PO) showed MII-stage rates comparable with adult oocytes (AO) only after 24 hours of IVM (95.1% vs. 96.7%), with the remaining oocytes arrested at GV-stage (Table 1)
Summary
In vitro maturation (IVM) of immature oocytes retrieved from unstimulated ovaries may avoid side effects connected to hyperstimulation during IVF procedures, including the risk of cancer recurrence. The scarce availability of immature oocytes limits morphological studies. In vitro maturation (IVM), followed by in vitro fertilization (IVF) and embryo transfer (ET) may restore fertility in humans, even in combination with cryopreservation [1,2]. IVM may be useful as rescue measure in conventional IVF protocols by maturing retrieved GV-stage oocytes in vitro (rescue IVM). IVF cycles often make available a mixed cohort of MII, metaphase I (MI), and post mature, including immature germinal vesicle (GV) oocytes. Defective cytoplasmic maturation seems to be at the basis of the low maturation rates of IVM oocytes [4]
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