Portrait of an oocyte: our obscure origin
Roger Gosden, Bora Lee
Roger Gosden, Bora Lee
Published April 1, 2010
Citation Information: J Clin Invest. 2010;120(4):973-983. https://doi.org/10.1172/JCI41294.
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Portrait of an oocyte: our obscure origin

Abstract

Oocytes play a pivotal role in the cycle of human life. As we discuss here, after emerging from germline stem cells in the fetus, they grow in a follicular niche in which development is harmonized for timely ovulation and hormone secretion after puberty. Most human oocytes have poor developmental competence and are peculiarly vulnerable to chromosomal malsegregation, especially as women pass the optimal years of fertility and may begin to turn to assisted reproductive technologies (ARTs) and egg donation. Research needs to focus on the molecular factors involved and the environmental niche required for optimal development of oocytes, with the aim of increasing their numbers and quality for ARTs, since these are the factors that so often limit human fertility.

Authors

Roger Gosden, Bora Lee

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Figure 5

Schematic illustration of molecular and cellular maturation of human oocytes.

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Schematic illustration of molecular and cellular maturation of human ooc...
Stages of development from initiation of oocyte growth in small follicles through meiotic maturation and fertilization to cleavage. Competence to resume meiosis is reached in fully grown oocytes several days before ovulation. Transcription becomes silent after the resumption of meiosis until the 4- to 8-cell stage, and gene expression is dependent on translation of stored mRNAs until embryonic genome activation occurs 3–4 days later. Protein synthesis increases to a plateau when the oocyte is fully grown. Progression through stages of meiosis depends on phosphorylation changes in MPF and MAPK. When the oocyte is cytoplasmically mature, oscillations of [Ca2+]i released from stores in the ER are triggered by the fertilizing sperm.