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Structure and function of the human oocyte-cumulus-corona cell complex before and after ovulation

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Summary

The fine structure of the human cumulus oophorus has been reviewed on the basis of scanning and transmission electron microscopic observations as well as of immunofluorescence data. Tissues sampled from preovulatory ovarian follicles and cumulus-enclosed oocytes and fertilized eggs (collected from the oviduct or obtained during in vitro fertilization procedures) have been evaluated from a microtopographic and morphodynamic point of view in order to better clarify the possible role of this population of cells. In particular, the following aspects have been studied and discussed: the presence of multiple close contacts (modulated by the interposition of the zona pellucida) between the oocyte surface and the long microvillous evaginations projecting from the inner aspect of corona cells surface (through these structures the intraovarian cumulus oophorus may control oocyte growth and metabolism up until the time of ovulation); the occurrence of different subpopulations of cells (steroid-synthetic cells, cells producing adhesive proteins, leukocytes, macrophages) in the postovulatory, extraovarian cumulus oophorus surrounding oocytes, zygotes and early developing embryos. All these elements found in the cumulus mass may positively act, through their paracrine activities, on the chemical composition of the microenvironment in which fertilization occurs.

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Authors and Affiliations

  1. Department of Anatomy, University of Rome “La Sapienza”, Via A. Borelli 50, I-00161, Rome, Italy

    P. M. Motta, S. A. Nottola, G. Familiari, G. Macchiarelli & S. Correr

  2. Department of Obstetrics and Gynecology, Toho University, Tokyo

    S. Makabe

Authors
  1. P. M. Motta
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  2. S. A. Nottola
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  3. G. Familiari
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  4. G. Macchiarelli
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  5. S. Correr
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  6. S. Makabe
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Motta, P.M., Nottola, S.A., Familiari, G. et al. Structure and function of the human oocyte-cumulus-corona cell complex before and after ovulation. Protoplasma 206, 270–277 (1999). https://doi.org/10.1007/BF01288215

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  • DOI: https://doi.org/10.1007/BF01288215

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