Mammalian oocyte development: checkpoints for competence

During the lifespan of the female, biochemical changes occur in the ovarian environment. These changes are brought about by numerous endogenous and exogenous factors, including husbandry practices, production demands and disease, and can have a profound effect on ovarian oocyte quality and subsequent embryo development. Despite many investigations, there is no consensus regarding the time or period of follicular oocyte development that is particularly sensitive to insult. Here, the key molecular and morphological events that occur during oocyte and follicle growth are reviewed, with a specific focus on identifying critical checkpoints in oocyte development. The secondary follicle stage appears to be a key phase in follicular oocyte development because major events such as activation of the oocyte transcriptome, sequestration of the zona pellucida, establishment of bidirectional communication between the granulosa cells and the oocyte and cortical granule synthesis occur during this period of development. Several months later, the periovulatory period is also characterised by the occurrence of critical events, including appropriate degradation or polyadenylation of mRNA transcripts, resumption of meiosis, spindle formation, chromosome alignment and segregation, and so should also be considered as a potential checkpoint of oocyte development.

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Proteomes of Animal Oocytes: What Can We Learn for Human Oocytes in theIn VitroFertilization Programme?

BioMed Research International ◽

10.1155/2014/856907 ◽

2014 ◽

Vol 2014 ◽

pp. 1-11 ◽

Cited By ~ 11

Author(s):

Irma Virant-Klun ◽

Jeroen Krijgsveld

Keyword(s):

Assisted Reproduction ◽

Animal Studies ◽

Proteome Analysis ◽

Oocyte Quality ◽

Oocyte Development ◽

Human Oocytes ◽

Mammalian Oocyte

Oocytes are crucial cells for mammalian reproduction, yet the molecular principles underlying oocyte development are only partially understood. Therefore, contemporary proteomic approaches have been used increasingly to provide new insights into oocyte quality and maturation in various species such as mouse, pig, and cow. Especially, animal studies have helped in elucidating the molecular status of oocytes duringin vitromaturation and other procedures of assisted reproduction. The aim of this review is to summarize the literature on mammalian oocyte proteome and secretome research in the light of natural and assisted reproduction and on lessons to be learned for human oocytes, which have so far remained inaccessible for proteome analysis.

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Maternal pineal gland participates in prepubertal rats' ovarian oocyte development

The Anatomical Record ◽

10.1002/ar.1092430408 ◽

1995 ◽

Vol 243 (4) ◽

pp. 461-465 ◽

Cited By ~ 11

Author(s):

B. Fernandez ◽

E. Diaz ◽

M. D. Colmenero ◽

B. Diaz

Keyword(s):

Pineal Gland ◽

Oocyte Development ◽

Ovarian Oocyte ◽

Prepubertal Rats

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Effects of gonadotropin treatment on ovarian follicle growth, oocyte quality and in vitro fertilization of oocytes in prepubertal gilts

Theriogenology ◽

10.1016/0093-691x(96)00223-3 ◽

1996 ◽

Vol 46 (4) ◽

pp. 717-726 ◽

Cited By ~ 9

Author(s):

D. Bolamba ◽

A. Dubuc ◽

J.J. Dufour ◽

M-A. Sirard

Keyword(s):

In Vitro Fertilization ◽

Ovarian Follicle ◽

Oocyte Quality ◽

Follicle Growth ◽

Vitro Fertilization

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Role of Lipid Metabolism and Signaling in Mammalian Oocyte Maturation, Quality, and Acquisition of Competence

Frontiers in Cell and Developmental Biology ◽

10.3389/fcell.2021.639704 ◽

2021 ◽

Vol 9 ◽

Author(s):

Ranjha Khan ◽

Xiaohua Jiang ◽

Uzma Hameed ◽

Qinghua Shi

Keyword(s):

Lipid Metabolism ◽

Oocyte Maturation ◽

Oocyte Quality ◽

Oocyte Development ◽

Obese Women ◽

Oocyte Competence ◽

Metabolic Conditions ◽

Competence Acquisition

It has been found that the quality of oocytes from obese women has been compromised and subsequent embryos displayed arrested development. The compromised quality may be either due to the poor or rich metabolic conditions such as imbalance or excession of lipids during oocyte development. Generally, lipids are mainly stored in the form of lipid droplets and are an important source of energy metabolism. Similarly, lipids are also essential signaling molecules involved in various biological cascades of oocyte maturation, growth and oocyte competence acquisition. To understand the role of lipids in controlling the oocyte development, we have comprehensively and concisely reviewed the literature and described the role of lipid metabolism in oocyte quality and maturation. Moreover, we have also presented a simplified model of fatty acid metabolism along with its implication on determining the oocyte quality and cryopreservation for fertilization.

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Quercetin promotes in vitro maturation of oocytes from humans and aged mice

Cell Death and Disease ◽

10.1038/s41419-020-03183-5 ◽

2020 ◽

Vol 11 (11) ◽

Author(s):

Yongzhi Cao ◽

Haibin Zhao ◽

Zhao Wang ◽

Changming Zhang ◽

Yuehong Bian ◽

...

Keyword(s):

In Vitro Maturation ◽

Formation Rate ◽

Reproductive Technologies ◽

Oocyte Quality ◽

Chromosome Morphology ◽

Cortical Granule ◽

Success Rates ◽

Aged Mice ◽

Age Related

Abstract Maternal fertility declines irreversibly with aging, and advanced maternal age is mostly related to impaired oocyte quality. The flavonol compound quercetin is considered to be an anti-aging agent due to its cytoprotective actions as an antioxidant. However, its role and mechanisms on aged oocytes are unclear. In this study, the quercetin promotes in vitro maturation (IVM) and early embryonic development of oocytes from aged mice. It is extended these findings in human oocytes, showing that quercetin promotes the IVM rate by 19.6% and increases the blastocyst formation rate by 15.5% compared to untreated controls. The overall oocyte quality of aged mice is improved by quercetin treatment, assessed as spindle/chromosome morphology and cortical granule distribution. Mitochondria is the primary endogenous source of age-related oxidative stress, and an RNA-seq analysis of quercetin-treated oocytes reveals molecular insights including scavenged mitochondrial-ROS, reduced apoptosis, and improved autophagy. Further, this study demonstrates that quercetin reduces ROS via SIRT3-mediated acetylation of SOD2’s K68 residue. Thus, beyond demonstrating that quercetin confers beneficial mitochondria-related impacts in aged oocytes, this study illustrates a potential strategy to prevent or delay oocyte aging and to improve success rates of assisted human reproductive technologies (ART).

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