1. Follistatin is essential for normal postnatal development and function of mouse oviduct and uterus.
- Author
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Holdsworth-Carson SJ, Craythorn RG, Winnall WR, Dhaliwal K, Genovese R, Nowell CJ, Rogers PA, de Kretser DM, Hedger MP, and Girling JE
- Subjects
- Animals, Cell Proliferation genetics, Endometrium growth & development, Endometrium metabolism, Estrogens pharmacology, Female, Follistatin metabolism, Gene Expression Regulation, Developmental, Mice, Mice, Knockout, Mice, Transgenic, Myometrium growth & development, Myometrium metabolism, Ovariectomy, Oviducts diagnostic imaging, Oviducts metabolism, Uterus drug effects, Uterus metabolism, Follistatin genetics, Oviducts growth & development, Uterus growth & development
- Abstract
Female mice lacking the follistatin gene but expressing a human follistatin-315 transgene (tghFST315) have reproductive abnormalities (reduced follicles, no corpora lutea and ovarian-uterine inflammation). We hypothesised that the absence of follistatin-288 causes the abnormal reproductive tract via both developmental abnormalities and abnormal ovarian activity. We characterised the morphology of oviducts and uteri in wild type (WT), tghFST315 and follistatin-knockout mice expressing human follistatin-288 (tghFST288). The oviducts and uteri were examined in postnatal Day-0 and adult mice (WT and tghFST315 only) using histology and immunohistochemistry. Adult WT and tghFST315 mice were ovariectomised and treated with vehicle, oestradiol-17β (100ng injection, dissection 24h later) or progesterone (1mg×three daily injections, dissection 24h later). No differences were observed in the oviducts or uteri at birth, but abnormalities developed by adulthood. Oviducts of tghFST315 mice failed to coil, the myometrium was disorganised, endometrial gland number was reduced and oviducts and uteri contained abundant leukocytes. After ovariectomy, tghFST315 mice had altered uterine cell proliferation, and inflammation was maintained and exacerbated by oestrogen. These studies show that follistatin is crucial to postnatal oviductal-uterine development and function. Further studies differentiating the role of ovarian versus oviductal-uterine follistatin in reproductive tract function at different developmental stages are warranted.
- Published
- 2015
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