History, origin, and function of transzonal projections: the bridges of communication between the oocyte and its environment

Clarke, Hugh J.

doi:10.21451/1984-3143-ar2018-0061

Cited by 20 publications

(20 citation statements)

References 53 publications

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“…1) In vivo growing oocytes collected from early antral follicles (0.5-0.7 mm) and fully grown oocytes collected from antral follicles (4-6 mm). 2) DOs collected from early antral follicles cultured for 12 and 24 hours. 3) DOs cocultured with MGCs 24 hours after denudation, for 24-120 hours.…”

Section: Discussionmentioning

confidence: 99%

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Reestablishment of transzonal projections and growth of bovine oocytes in vitro

Fushii

Yamada

Lee

et al. 2021

Journal of Reproduction and Development

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Section: Discussionmentioning

confidence: 99%

“…1) DOs collected from early antral follicles cultured for 24 hours. 2) DOs cultured with MGCs hours after denudation, for 13 days and OCGCs cultured for 14 days. 3) In vivo fully grown oocytes collected from antral follicles (4-6 mm).…”

Section: Discussionmentioning

confidence: 99%

Reestablishment of transzonal projections and growth of bovine oocytes in vitro

Fushii

Yamada

Lee

et al. 2021

Journal of Reproduction and Development

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“…Oocytes and cumulus cells communicate bilaterally, thereby promoting oocyte growth. Previous studies have suggested that this communication is mediated by paracrine signals and gap junctions existing at the end of transzonal projections (TZPs) as well as extracellular vesicles [ 18 , 19 , 20 ]. Thus, it is assumed that the connections between oocytes and cumulus cells are maintained during in vitro growth culture.…”

Section: Discussionmentioning

confidence: 99%

In vitro growth of bovine oocytes in oocyte-cumulus cell complexes and the effect of follicle stimulating hormone on the growth of oocytes

Fushii

Yamada

Miyano

2021

Journal of Reproduction and Development

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Several successful in vitro culture experiments have used oocyte-cumulus cell-mural granulosa cell complexes (OCGCs) from early antral follicles (0.5–0.7 mm) for the growth of bovine oocytes. However, in studies related to in vitro oocyte maturation and in vitro embryo production, oocyte-cumulus cell complexes (OCCs) that have no mural granulosa cells have been widely used instead of OCGCs. The purpose of this study was to determine whether cumulus cells alone support oocyte growth. First, OCCs and OCGCs were cultured in vitro for 14 days to compare the integrity of the complexes as well as antrum formation. After 14 days, the diameter and meiotic competence of oocytes in OCCs and OCGCs were examined. Oocytes in OCCs grew fully and acquired meiotic competence similar to OCGCs, whereas antrum formation occurred later in OCCs as compared to OCGCs. Subsequently, the effects of follicle stimulating hormone (FSH) on in vitro growth of OCCs were examined for 14 days. When FSH was added to the culture medium, OCCs formed antrum-like structures one day earlier than those cultured without FSH. Oocytes cultured with 1 mIU/ml FSH grew fully and acquired meiotic competence. In contrast, when oocytes were cultured in media containing high concentrations of FSH, some of the OCCs collapsed and the number of degenerated oocytes increased. In conclusion, bovine oocytes in OCCs grow and acquire meiotic competence similar to OCGCs and, 1 mIU/ml FSH supports the development of OCCs and oocyte growth as observed in our culture system.

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“…More recently, the intimate relationship between the oocyte and cumulus cells has been investigated to better define the role of TZPs [ 76 , 77 ]. Although more research needs to be done to determine how the physiology, distribution and retraction of TZPs impacts IVEP outcomes in both prepubertal and adult oocytes, TZPs are known to facilitate communication and the transport of essential molecules between granulosa cells and the oocyte [ 76 , 78 ]. Despite differences observed in the organization of TZPs in COCs from lambs compared to adult ewes, the impact on embryo development remains unclear [ 79 ].…”

Section: Understanding Developmental Competence Of Oocytesmentioning

confidence: 99%

In Vitro Production of Embryos from Prepubertal Holstein Cattle and Mediterranean Water Buffalo: Problems, Progress and Potential

Currin

Baldassarre

Bordignon

2021

Animals

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Laparoscopic ovum pick-up (LOPU) coupled with in vitro embryo production (IVEP) in prepubertal cattle and buffalo accelerates genetic gain. This article reviews LOPU-IVEP technology in prepubertal Holstein Cattle and Mediterranean Water Buffalo. The recent expansion of genomic-assisted selection has renewed interest and demand for prepubertal LOPU-IVEP schemes; however, low blastocyst development rates has constrained its widespread implementation. Here, we present an overview of the current state of the technology, limitations that persist and suggest possible solutions to improve its efficiency, with a focus on gonadotropin stimulations strategies to prime oocytes prior to follicular aspiration, and IVEP procedures promoting growth factor metabolism and limiting oxidative and endoplasmic reticulum stress.

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History, origin, and function of transzonal projections: the bridges of communication between the oocyte and its environment

Cited by 20 publications

References 53 publications

Reestablishment of transzonal projections and growth of bovine oocytes <i>in vitro</i>

Reestablishment of transzonal projections and growth of bovine oocytes <i>in vitro</i>

<i>In vitro</i> growth of bovine oocytes in oocyte-cumulus cell complexes and the effect of follicle stimulating hormone on the growth of oocytes

In Vitro Production of Embryos from Prepubertal Holstein Cattle and Mediterranean Water Buffalo: Problems, Progress and Potential

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