Differential mitochondrial distribution in human pronuclear embryos leads to disproportionate inheritance between blastomeres: relationship to microtubular organization, ATP content and competence

doi:10.1093/humrep/15.12.2621

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Human Reproduction, Vol. 15, No. 12, 2621-2633, December 2000
© 2000 European Society of Human Reproduction and Embryology

Differential mitochondrial distribution in human pronuclear embryos leads to disproportionate inheritance between blastomeres: relationship to microtubular organization, ATP content and competence

Jonathan Van Blerkom¹^,2^,3, Patrick Davis¹^,2 and Samuel Alexander²

¹ Department of Molecular, Cellular and Developmental Biology, University of Colorado, Boulder, CO 80302 and ² Colorado Reproductive Endocrinology, Rose Medical Center, Denver, CO, 80220, USA

It has been suggested that mitochondrial DNA defects that effectmetabolic capacity may be a proximal cause of failures in oocytematuration, fertilization, or early embryonic development. Here,the distribution of mitochondria was examined by scanning laserconfocal microscopy in living human pronuclear oocytes and cleavagestage embryos, followed either by measurements of the net ATPcontent of individual blastomeres or anti-tubulin immunofluorescenceto determine the relationship between mitochondrial distributionand microtubular organization. The results indicate that specificpatterns of perinuclear mitochondrial aggregation and microtubularorganization are related, and that asymmetrical mitochondrialdistributions at the pronuclear stage can result in some proportionof blastomeres with reduced mitochondrial inheritance and diminishedATP generating capacity. While the inability to divide appearsto be a development consequence for an affected blastomere,for the embryo, reduced competence may occur during cleavageif several blastomeres inherit a mitochondrial complement inadequateto support normal cellular functions. The findings provide apossible epigenetic explanation for the variable developmentalability expressed within cohorts of morphologically normal earlycleavage stage human embryos obtained by in-vitro fertilization.

Key words: cleavage stage embryos/metabolism/mitochondria/microtubules/pronuclear embryos

³ To whom correspondence should be addressed at: Department ofMolecular, Cellular and Developmental Biology, University ofColorado, Boulder, CO 80302, USA E-mail: vanblerk{at}spot.colorado. edu

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