Oocyte–somatic cell–endocrine interactions in pigs

Oocyte–somatic cell communication is bi-directional and essential for both oocyte and follicular granulosa and theca cell function and development. We have shown that the oocyte secretes factors that stimulate porcine granulosa cell proliferation in serum-free culture, and suppress progesterone prod...

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Bibliographic Details
Published in:Domestic animal endocrinology 2005-08, Vol.29 (2), p.371-384
Main Authors: Hunter, Morag G., Brankin, Victoria, Quinn, Ruth L., Ferguson, Elizabeth M., Edwards, Sandra A., Ashworth, Cheryl J.
Format: Article
Language:English
Subjects:
animal nutrition
Animal Nutritional Physiological Phenomena
Animals
Bone Morphogenetic Protein Receptors
bone morphogenetic proteins
Bone Morphogenetic Proteins - physiology
Cell Communication
Diet
feeding level
Female
follicular development
granulosa cells
Granulosa Cells - physiology
hormonal regulation
Hormones - physiology
literature reviews
Oocyte
Oocyte quality
oocytes
Oocytes - physiology
Ovulation
physiological regulation
Pigs
Receptors, Growth Factor - physiology
Somatic cell
swine
Theca Cells - physiology
thecal cells
transforming growth factors
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Summary:Oocyte–somatic cell communication is bi-directional and essential for both oocyte and follicular granulosa and theca cell function and development. We have shown that the oocyte secretes factors that stimulate porcine granulosa cell proliferation in serum-free culture, and suppress progesterone production, thereby preventing premature luteinisation. Possible candidates for mediating some of these effects are the bone morphogenetic proteins (BMPs) that belong to the transforming growth factor β family. They are emerging as a family of proteins critical for fertility and ovulation rate in several mammals, and they are expressed in various cell types in the ovary. We have evidence for a functional BMP system in the porcine ovary and BMP receptors are present in the egg nests in the fetal ovary and in the granulosa cells, oocytes and occasional theca cells throughout subsequent development. In addition to paracrine interactions in the ovary, the porcine oocyte and its developmental potential can also be influenced by nutritional manipulation in vivo. We have demonstrated that feeding a high plane of nutrition to gilts for 19 days prior to ovulation increased oocyte quality compared to control animals fed a maintenance diet, as determined by oocyte maturation in vitro. This was associated with a number of changes in circulating reproductive and metabolic hormones and also in the follicular fluid in which the oocyte is nurtured. Further studies showed a similar increase in prenatal survival on Day 30 of gestation, demonstrating a direct link between oocyte quality/maturation and embryo survival. Collectively, these studies emphasise the importance of the interactions that occur between the oocyte and somatic cells and also with endocrine hormones for ovarian development, and ultimately for the production of oocytes with optimal developmental potential.
ISSN:0739-7240
1879-0054
DOI:10.1016/j.domaniend.2005.02.004