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Abstract
Oocyte mitochondrial dysfunction has been proposed as a
cause of high levels of developmental retardation and
arrest that occur in human preimplantation embryos
generated using assisted reproductive technology in the
treatment of some causes of female infertility. To
investigate this, a model of mitochondrial dysfunction was
developed in mouse oocytes using a method of
photosensitization of the mitochondrion-specific dye,
rhodamine-123. After in vitro fertilization, dye loaded
and photosensitized oocytes showed developmental arrest in
proportion to irradiation time. Morphological and
metabolic assessments of zygotes indicated an increase in
mitochondrial permeability that subsequently resulted in
apoptotic degeneration. Development was partially
restored by inhibition of mitochondrial permeability
transition pore formation by oocyte pretreatment with
cyclosporin A. Oocyte mitochondria are therefore
physiological regulators of early embryo development and
potential sites of pathological insult that may perturb
oocyte and subsequent preimplantation embryo viability.
These findings have important implications for the
treatment of clinically infertile women using assisted
reproductive technologies.
Key words:
Embryo •
Assisted Reproductive Technology •
Apoptosis •
In vitro fertilization •
Oocyte development
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