Eggs Forever?

Overview

Journal Differentiation

Publisher Elsevier

Specialties Cell Biology
Reproductive Medicine

Date 2005 Dec 15

PMID 16351687

Citations 30

Authors

Anne Grete Byskov

Malcolm J Faddy

Josephine G Lemmen

Claus Yding Andersen

Affiliations

Soon will be listed here.

Abstract

A group of scientists from Harvard Medical School (Johnson et al., 2004) claims to have "established the existence of proliferative germ cells that sustain oocyte and follicle production in the postnatal mammalian ovary," expressing no doubts about their methods, results and conclusion. Johnson et al. based their conclusions of oocyte and follicular renewal from existing germline stem cells (GSC) in the postnatal mouse ovary on three types of observations: (1) A claimed discordance in follicle loss versus follicle atresia in the neonatal period and in the following pubertal and adult period; (2) immunohistochemical detection of proliferating GSC with meiotic capacity using combined markers for meiosis, germline, and mitosis; and (3) neo-folliculogenesis in ovarian chimeric grafting experiments with adult mice. Oogenesis is the process that transforms the proliferative oogonium into an oocyte through meiosis, followed by folliculogenesis and follicular and oocyte maturation. The most crucial part in producing a functional oocyte is firstly, initiation and completion of the first meiotic prophase, and secondly, enclosure of the resulting diplotene oocyte in a follicle. Neither of these two events has been shown to take place in Johnson et al.'s study of the postnatal mouse ovary. We hereby address the observations underpinning their hypothesis and conclude that it is premature to replace the paradigm that adult mammalian neo-oogenesis/folliculogenesis does not take place.

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Enhanced method to select human oogonial stem cells for fertility research.

Sequeira R, Sittadjody S, Criswell T, Atala A, Jackson J, Yoo J Cell Tissue Res. 2021; 386(1):145-156.

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Estrogen regulation of germline stem cell differentiation as a mechanism contributing to female reproductive aging.

Satirapod C, Wang N, MacDonald J, Sun M, Woods D, Tilly J Aging (Albany NY). 2020; 12(8):7313-7333.

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Extracellular matrix signaling activates differentiation of adult ovary-derived oogonial stem cells in a species-specific manner.

MacDonald J, Takai Y, Ishihara O, Seki H, Woods D, Tilly J Fertil Steril. 2019; 111(4):794-805.

PMID: 30871765 PMC: 6462309. DOI: 10.1016/j.fertnstert.2018.12.015.