Oocyte nucleus controls progression through meiotic maturation

We analyzed progression through the meiotic maturation in oocytes manipulated to replace the prophase oocyte nucleus with the nucleus from a cumulus cell, a pachytene spermatocyte or the pronucleus from a fertilized egg. Removal of the oocyte nucleus led to a significant reduction in histone H1 kina...

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Bibliographic Details
Published in:Developmental biology 2005-05, Vol.281 (2), p.184-195
Main Authors: Polanski, Zbigniew, Hoffmann, Steffen, Tsurumi, Chizuko
Format: Article
Language:English
Subjects:
Animals
Cell Nucleus - physiology
Chromosome Aberrations
Chromosomes, Mammalian - physiology
Cyclin B - metabolism
Female
In Vitro Techniques
Male
Maturation-Promoting Factor - metabolism
Meiosis - physiology
Meiotic maturation
Metaphase - physiology
Mice
Mice, Inbred C57BL
MPF
Nuclear transfer
Nuclear Transfer Techniques
Oocyte nucleus
Oocytes - physiology
Pronucleus
Prophase - physiology
Prophase oocyte
Protein Kinases - metabolism
Spermatocytes - physiology
Spermatocytes - ultrastructure
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Summary:We analyzed progression through the meiotic maturation in oocytes manipulated to replace the prophase oocyte nucleus with the nucleus from a cumulus cell, a pachytene spermatocyte or the pronucleus from a fertilized egg. Removal of the oocyte nucleus led to a significant reduction in histone H1 kinase activity. Replacement of the oocyte nucleus by a pronucleus followed by culture resulted in premature pseudomeiotic division and occasional abnormal cytokinesis; however, histone H1 kinase activity was rescued, microtubules formed a bipolar spindle, and chromosomes were condensed. In addition to the anomalies observed after pronuclear transfer, those after transfer of the nucleus from a cumulus cell or spermatocyte included a dramatically impaired ability to form the bipolar spindle or to condense chromosomes, and histone H1 kinase activity was not rescued. Expression of a cyclin B-YFP in enucleated oocytes receiving the cumulus cell nucleus rescued histone H1 kinase activity, but spindle formation and chromosome condensation remained impaired, indicating a pleiotropic effect of oocyte nucleus removal. However, when the cumulus cell nucleus was first transformed into pronuclei (transfer into a metaphase II oocyte followed by activation), such pronuclei supported maturation after transfer into the oocyte in a manner similar to that of normal pronuclei. These results show that the oocyte nucleus contains specific components required for the control of progression through the meiotic maturation and that some of these components are also present in pronuclei.
ISSN:0012-1606
1095-564X
DOI:10.1016/j.ydbio.2005.02.024