Development of equine endometrial glands from fetal life to ovarian cyclicity.
Abstract: Branched tubular endometrial glands are key features of the uterine lining in mares. The epithelium in the neck regions of the glands is similar to that lining the lumen of the uterus, whereas the epithelium in the deeper, coiled portions of the glands secretes protein rich histotrophe or 'uterine milk' during dioestrus and pregnancy. The present study was performed to characterize endometrial histology in perinatal and peripubertal fillies and to investigate the influences of specific steroid treatments on endometrial gland development in the prepubertal period. Uteri obtained from equine fetuses (n=5) between days 150 and 320 of gestation, and from foals (n=5) during the first 2 months of life, were compared histologically with endometrial biopsies taken from yearling fillies (n = 8) around the onset of ovarian cyclicity. In addition, biopsies were obtained from two prepubertal fillies that were treated for sequential periods with injections of progesterone or oestradiol benzoate each day to mimic the peripheral hormone changes associated with puberty. At day 250 of gestation the luminal epithelium was starting to invaginate into the underlying stroma and, by day 300 of gestation, the first cross-sections of very simple tubular gland structures were visible. These tubular gland structures developed into clusters of rudimentary gland cross-sections during the early postnatal period but, thereafter, gland development was arrested until the epithelial invaginations became more obvious during the first oestrus at the onset of puberty. However, final differentiation and maturation of the secretory portions of the glands occurred only after the first ovulation. Furthermore, in prepubertal fillies this maturation process could not be elicited by treatment with progesterone only and an initial period of oestrogen priming was essential to induce full differentiation of the endometrial glands.
Publication Date: 2000-01-01 PubMed ID: 20681143
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- Journal Article
Summary
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This research paper explores the development of endometrial glands in female horses from fetal life to puberty. It investigates how specific hormone treatments during the prepuberal period can influence gland development.
Overview of Endometrial Glands in Mares
- Endometrial glands are vital parts of the uterine lining in female horses or mares. These branched tubular glands have similar epithelium linings to that of the uterus.
- The coiled, deeper parts of the glands secrete a protein-rich substance called ‘uterine milk’ during dioestrus and pregnancy phases.
Research Methodology
- The study examined endometrial histology in females horses around birth (‘perinatal’) and puberty (‘peripubertal’).
- Uteri from horse fetuses and foals were histologically compared with biopsies from yearlings experiencing their first ovarian cycles.
- Additionally, the researchers tried to mimic the hormonal changes that come with puberty by treating prepuberal fillies with progesterone or oestradiol benzoate.
Results and Findings
- On the 250th day of gestation, the luminal epithelium began to invade the underlying stroma. By the 300th day, the first sections of tubular gland structures were visible.
- These structures evolved into clusters of rudimentary gland sections following birth. However, the development halted until the onset of puberty when epithelial invaginations became clear during the first oestrus.
- The final maturation and differentiation of the glands happened after the first ovulation, indicating successful completion of puberty.
Hormonal Influence on Gland Development
- Interestingly, this process of maturation could not be triggered by progesterone alone in prepuberital fillies.
- Initial estrogen priming was essential to induce full differentiation of endometrial glands.
- The finding suggests a critical role of estrogen in the development of endometrial glands during puberty in equine females.
Cite This Article
APA
Gerstenberg C, Allen WR.
(2000).
Development of equine endometrial glands from fetal life to ovarian cyclicity.
J Reprod Fertil Suppl(56), 317-326.
Publication
Researcher Affiliations
- University of Cambridge Department of Clinical Veterinary Medicine, Equine Fertility Unit, Mertoun Paddocks, Woodditton Road, Newmarket, Suffolk CB8 9BH, UK.
MeSH Terms
- Animals
- Endometrium / embryology
- Endometrium / growth & development
- Estrous Cycle / physiology
- Female
- Fetus / embryology
- Horses / embryology
- Horses / growth & development
- Ovary / physiology
- Pregnancy
Citations
This article has been cited 2 times.- Teixeira NS, Martins BB, Volpato R, Ramos JLG, Freitas PMC, Laufer-Amorim R, Lopes MD, Luz MR. Partial ablation of endometrial glands in dogs after exposure to progestin during the neonatal period. Anim Reprod 2018 Aug 16;15(1):45-50.
- Kendziorski JA, Belcher SM. Strain-specific induction of endometrial periglandular fibrosis in mice exposed during adulthood to the endocrine disrupting chemical bisphenol A. Reprod Toxicol 2015 Dec;58:119-30.
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