The Role of the Endometrial Oxytocin Receptor in Determining the Length of the Sterile Oestrous Cycle and Ensuring Maintenance of Luteal Function in early Pregnancy in Ruminants

The oxytocin receptor, a seven transmembrane domain, G protein-linked receptor molecule, plays a central role in determining the endocrine function of the ruminant uterine endometrium. During non- pregnant cycles the control of this molecule by circulating steroid hormones leads to regression of the...

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Bibliographic Details
Published in:Philosophical transactions of the Royal Society of London. Series B. Biological sciences 1994-05, Vol.344 (1309), p.291-304
Main Authors: Flint, A. P. F., Lamming, G. E., Stewart, H. J., Abayasekara, D. R. E.
Format: Article
Language:English
Subjects:
Animals
Corpus luteum
Corpus Luteum Maintenance - drug effects
Corpus Luteum Maintenance - physiology
Dinoprost - metabolism
Endometrium
Endometrium - drug effects
Endometrium - metabolism
Estrus - drug effects
Estrus - physiology
Female
Flint
Interferon Type I - pharmacology
Luteolysis
Oxytocin - metabolism
Oxytocin receptors
Pregnancy
Pregnancy Proteins - pharmacology
Prostaglandins
Receptors
Receptors, Oxytocin - drug effects
Receptors, Oxytocin - metabolism
Secretion
Sheep
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Summary:The oxytocin receptor, a seven transmembrane domain, G protein-linked receptor molecule, plays a central role in determining the endocrine function of the ruminant uterine endometrium. During non- pregnant cycles the control of this molecule by circulating steroid hormones leads to regression of the corpora lutea. The kinetics of the mechanisms involved determine the time at which luteolysis occurs, and therefore the length of the oestrous cycle. In pregnancy, secretions of the trophoblast block endometrial oxytocin receptor gene expression and lead to luteal maintenance. An understanding of the molecular mechanisms involved in the steroidal control of oxytocin receptor gene expression will provide an explanation for the relative constancy of oestrous cycle lengths in non-pregnant animals. Unravelling the way in which trophoblast products block expression of the oxytocin receptor gene will lead to a better understanding of the reasons for the high rate of embryonic loss in domestic ruminants.
ISSN:0962-8436
1471-2970
DOI:10.1098/rstb.1994.0067