Structural and endocrine aspects of equine oocyte maturation in vivo.
Abstract: The objectives were to describe the ultrastructure of equine oocytes aspirated from small and preovulatory follicles, and to relate the ultrastructural features to follicle size and follicular fluid steroid concentrations. Mares were examined every second day by transrectal ultrasonography, and follicles measuring > 30 mm were aspirated (in vivo) using a 20-cm-long 12-gauge needle through the flank. Following slaughter, both large and small follicles were aspirated (in vitro) from six mares. The oocytes were isolated under a stereomicroscope and processed for transmission electron microscopy, and the follicular fluid was assayed for progesterone (P4) amd estradiol-17 beta (E2). A total of 29 oocytes (32% recovery rate) were aspirated in vivo, and 15 oocytes were recovered in vitro. According to the stage of nuclear maturation, the oocytes could be divided into the following six categories: 1) the central oocyte nucleus (CON) stage, 2) the peripheral spherical oocyte nucleus (PON-I) stage, 3) the peripheral flattened oocyte nucleus (PON-II) stage, 4) the oocyte nucleus breakdown (ONBD) stage, 5) the metaphase I (M-I) stage, and 6) the metaphase II (M-II) stage. The maturation of the preovulatory follicle was reflected by alterations in the follicular fluid concentrations of steroid hormones. E2 was high in all preovulatory follicles, whereas P4 concentration exhibited a 10-fold increase during follicle maturation, particularly associated with the progression from M-I- to M-II-stage oocytes. The nuclear oocyte maturation included flattening of the spherical oocyte nucleus, followed by increasing undulation of the nuclear envelope, formation of the metaphase plate of the first meiotic division, and, finally, the extrusion of the first polar body and the subsequent formation of the metaphase plate of the second meiotic division. The cytoplasmic oocyte maturation changes comprised breakdown of the intermediate junctions between the cumulus cell projections and the oolemma, enlargement of the perivitelline space, the formation and arrangement of a large number of cortical granules immediately beneath the oolemma, the rearrangement of mitochondria from a predominantly peripheral distribution to a more central or semilunar domain, and the rearrangement of membrane-bound vesicles and lipid droplets from an even distribution to an often semilunar domain, giving the ooplasm a polarized appearance. It is concluded that the final equine oocyte maturation includes a series of well-defined nuclear and cytoplasmic changes that are paralleled by an increase in P4 concentration in the follicular fluid, whereas E2 concentration remains constantly high.
Publication Date: 1995-09-01 PubMed ID: 8562057DOI: 10.1002/mrd.1080420113Google Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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The research article investigates the maturation process of equine oocytes (egg cells) in relation to their structure, the size of their follicles, and certain hormonal levels within the follicular fluid. More specifically, the authors examine the ultrastructure of oocytes and changes in progesterone and estradiol hormone concentrations within the follicular fluid during maturation.
Methodology
- The study involved examining mares every other day using transrectal ultrasonography to monitor follicle size.
- Large follicles measuring over 30mm were aspirated in vivo (from a living organism) using a 20cm long needle.
- Following this, both large and small follicles were aspirated in vitro (outside an organism) upon slaughter.
- Oocytes were isolated under a stereomicroscope and prepared for transmission electron microscopy to examine their ultrastructure.
- The follicular fluid was assayed for measurements of progesterone (P4) and estradiol-17 beta (E2).
Findings and Observations
- The study categorized the oocytes into six stages based on their nuclear maturity: central oocyte nucleus (CON), peripheral spherical oocyte nucleus (PON-I), peripheral flattened oocyte nucleus (PON-II), oocyte nucleus breakdown (ONBD), metaphase I (M-I), and metaphase II (M-II).
- P4 concentration in follicular fluid exhibited a 10-fold increase during the maturation of preovulatory follicle, especially from M-I to M-II stage oocytes.
- E2 concentrations remained consistently high in all preovulatory follicles.
- Nuclear maturation involved the flattening of the spherical oocyte nucleus, undulation of the nuclear envelope, formation of a metaphase plate, extrusion of the first polar body, and the formation of the second meiotic division’s metaphase plate.
- Cytoplasmic maturation changes encompassed breakdown of junctions between cumulus cell projections and the oocyte’s exterior membrane (oolemma), perivitelline space enlargement, cortical granules’ rearrangement, repositioning of membrane-bound vesicles and lipid droplets, and the overall appearance of a polarized ooplasm.
Conclusions
- The final stage of equine oocyte maturation includes specific nuclear and cytoplasmic changes supported by an increase in P4 concentration in the follicular fluid, while E2 concentration consistently remains high.
- This research provides valuable insight and detailed understanding into the structural and hormonal aspects of equine oocyte maturation.
Cite This Article
APA
Grøndahl C, Hyttel P, Grøndahl ML, Eriksen T, Gotfredsen P, Greve T.
(1995).
Structural and endocrine aspects of equine oocyte maturation in vivo.
Mol Reprod Dev, 42(1), 94-105.
https://doi.org/10.1002/mrd.1080420113 Publication
Researcher Affiliations
- Department of Anatomy and Physiology, Royal Veterinary and Agricultural University, Frederiksberg, Denmark.
MeSH Terms
- Animals
- Body Fluids / chemistry
- Cell Membrane / ultrastructure
- Cell Nucleus / ultrastructure
- Cytoplasm / ultrastructure
- Estradiol / analysis
- Female
- Horses / physiology
- Microscopy, Electron
- Nuclear Envelope / ultrastructure
- Oocytes / ultrastructure
- Oogenesis
- Ovarian Follicle / chemistry
- Progesterone / analysis
Citations
This article has been cited 5 times.- Pollard CL, Younan A, Swegen A, Gibb Z, Grupen CG. Insights into the NAD(+) biosynthesis pathways involved during meiotic maturation and spindle formation in porcine oocytes. J Reprod Dev 2022 Jun 1;68(3):216-224.
- Lewis N, Hinrichs K, Leese HJ, McG Argo C, Brison DR, Sturmey R. Energy metabolism of the equine cumulus oocyte complex during in vitro maturation. Sci Rep 2020 Feb 26;10(1):3493.
- Kafi M, Mesbah SF, Davoodian N, Kadivar A. Fine Structures of the Oocyte in Relation to Serum, Follicular Fluid Steroid Hormones and IGF-I in the Ovulatory-Sized Follicles in One-Humped Camel (Camelus dromedarius). Avicenna J Med Biotechnol 2014 Jan;6(1):57-61.
- Lange Consiglio A, Dell'Aquila ME, Fiandanese N, Ambruosi B, Cho YS, Bosi G, Arrighi S, Lacalandra GM, Cremonesi F. Effects of leptin on in vitro maturation, fertilization and embryonic cleavage after ICSI and early developmental expression of leptin (Ob) and leptin receptor (ObR) proteins in the horse. Reprod Biol Endocrinol 2009 Oct 16;7:113.
- Bresnahan DR, Catandi GD, Peters SO, Maclellan LJ, Broeckling CD, Carnevale EM. Maturation and culture affect the metabolomic profile of oocytes and follicular cells in young and old mares. Front Cell Dev Biol 2023;11:1280998.
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