M. Z. Tahir

Folliculogenesis, Ovulation and Endocrine Control of Oocytes and Embryos in the Dog

Reproductive physiology in dogs is quite unusual compared with that in other mammalian species. The peculiarities include the presence of numerous polyoocyte follicles, the ovulation of an immature oocyte (GV stage, non-fertilizable) and a peri-ovulatory period during which concentrations of circulating progesterone are particularly high. The aim of this review is to examine the unusual aspects of the reproductive physiology of dogs and how this relates to the clinical biology of this species.

Progesterone Plays a Critical Role in Canine Oocyte Maturation and Fertilization

ABSTRACT Canine oocyte maturation and fertilization take place within the oviducts under increasing plasma levels of progesterone (P4). In order to investigate the role of P4 in these processes, 51 beagle bitches were treated with the P4 receptor antagonist aglepristone at the end of proestrus and 32 females were kept untreated. Fifteen treated and 13 control bitches were inseminated at Days +1 and +2 after ovulation (Day 0). Stages of oocyte maturation and embryo development were determined after ovariectomy at different time points after ovulation. Aglepristone did not prevent ovulation but delayed the resumption of oocyte meiosis and inhibited its progression: first metaphase I (MI) stage was observed at 173 h postovulation and 39% of oocytes reached MII as late as 335 h postovulation in treated females whereas first MI occurred at 76 h and 100% of oocytes were in MII at 109 h postovulation in controls. Aglepristone extended the stay of morphologically normal oocytes within the oviducts: first signs of oocyte degeneration were observed at 335 h in treated versus 100- to 110-h postovulation in control bitches. In inseminated females, aglepristone prevented sperm progression toward the oviducts and fertilization, although motile spermatozoa were observed in the uterine tip flush and within the cranial uterine glands. A proteomic analysis of the tubal fluid from treated and control noninseminated bitches at Day +4 found evidence of 79 differential proteins potentially involved in the oocyte phenotype. In conclusion, P4 plays key roles in postovulatory canine oocyte maturation, aging, and in fertilization.

Expression of nuclear and membrane progesterone receptors in the canine oviduct during the periovulatory period

Important reproductive events take place in the canine oviduct in the presence of increasing concentrations of progesterone (P4). To investigate the potential effects of P4 on the canine oviduct, the expression of nuclear (PR) and membrane (PGRMC1 and 2, mPRα, β and γ) P4 receptors was studied by quantitative RT-PCR and immunohistochemistry. Oviducts were collected from Beagle bitches after the onset of pro-oestrus and before the LH peak (Pre-LH), after the LH peak and before ovulation (Pre-ov) and on Days 1, 4 and 7 post-ovulation (n=6 bitches/stage). PR mRNA concentrations decreased from Pre-LH to Day 7 in the ampulla and isthmus, whereas both PGRMC1 and 2 mRNA levels increased over the same period. The main change in mPR expression was an increase in mPRβ and γ mRNAs at Day 7 in the isthmus. Furthermore, PR proteins were expressed in the nuclei of luminal epithelial, stromal and muscular cells, whereas the expression of PGRMCs and mPRs was primarily cytoplasmic and localised in the luminal epithelium. The immunostaining for PR decreased at Day 4 in the stroma and muscle, whereas it remained strong in the epithelium from Pre-LH to Day 7. PGRMC1 staining was strong at Days 4 and 7 whereas PGRMC2 was highly expressed from Pre-ov to Day 7. The most intense immunostaining signals for all three mPRs were observed at Day 7. Our results strongly support the hypothesis that P4 is an important regulator of oviductal functions in the bitch through complementary classical and non-classical P4 pathways.

Effect of blood handling conditions on progesterone assay results obtained by chemiluminescence in the bitch

Assay of blood progesterone (P4) is commonly practiced to determine the time of ovulation, diagnose luteal insufficiency, and predict time of parturition in bitches. Because of practical constraints, most blood samples cannot be assayed on site immediately after collection. The aim of this work was to evaluate the effects of various sampling and storage conditions on concentrations of P4 as determined by chemiluminescence immunoassay. The blood of 5 Beagle bitches was collected from the jugular vein to study the effect of the type of collection tube (silicone, lithium heparin, EDTA), the storage time of unseparated or separated plasma (2 h to 14 d), and the number of freeze-thaw cycles (1-10) on P4. The effect of each factor was tested within one assay session. None of the factors significantly affected P4. Thus, P4 appears to remain relatively stable in canine blood samples exposed to various processing and storage conditions.

Immunolocalization of progesterone receptors in the canine oviduct around ovulation

In the bitch, oocyte maturation, sperm storage, fertilization and early embryo development take place within the oviducts under high and increasing circulating progesterone concentrations. To investigate the potential effects of progesterone on the canine oviduct, nuclear progesterone receptors (PR) were localized. Oviducts were collected by ovariectomy from adult Beagle bitches during anestrus, after the onset of proestrus but prior to the Luteinizing Hormone (LH) peak (Pre-LH), after the LH peak but before ovulation (Pre-ov) and on Days 1, 4 and 7 after ovulation (n = 3 bitches per stage). The cellular distribution of PR was studied by immunohistochemistry (IHC) in the ampulla, isthmus and tubal part of the utero-tubal junction (UTJ). Plasma progesterone and 17β-oestradiol were assayed on the day of surgery. PR were specifically expressed in the nuclei of epithelial, stromal and muscular cells in the ampulla, isthmus and UTJ. The IHC scores did not vary from one oviductal region to another. However, the epithelium displayed higher scores than the stroma at anestrus, Pre-ov, Days 4 and 7, and also higher scores than muscle at Days 4 and 7 (p < 0.05). Immunohistochemistry scores in the stroma and muscle decreased at Days 4 and 7 compared with previous stages (p < 0.05). Furthermore, muscular IHC scores were positively correlated with circulating 17β-oestradiol concentrations and negatively correlated with circulating progesterone concentrations (p < 0.05). In conclusion, PR were identified in the canine oviduct, with differences in expression between tissues and times around ovulation, suggesting that progesterone may regulate tubal functions and reproductive events in this species.

Comparison of different membrane supports for monolayer culture of bovine oviduct epithelial cells

Background The oviduct epithelium consists of ciliated and secretory cells which play an important role in key reproductive processes such as sperm capacitation, fertilization and early embryonic development. Bovine oviduct epithelial cells have been widely used in co-culture experiments to condition culture media and improve early embryonic development [1]. However, these cells dedifferentiate during in vitro culture and manifest alterations like loss of cilia and secretory granules, reduction of cell height and flattening on the culture surface [2]. The trials for long term culture of oviduct cells, ensuring a better polarization and differentiation of the cells, include culture of oviduct cells on matrigel supports or collagen filter inserts. In this study, we have compared three different membrane supports for their potential to maintain ultrastructural features and monolayer integrity of bovine oviduct epithelial cells during in vitro culture.

OVGP1 Is Expressed in the Canine Oviduct at the Time and Place of Oocyte Maturation and Fertilization

In the dog, oocyte maturation, fertilization, and early embryo development take place within the oviduct in the presence of increasing circulating progesterone (P4) levels. Expression of the oviduct‐specific glycoprotein 1 (OVGP1), known in other species to be estrogen‐dependent, was explored by real‐time quantitative reverse‐transcriptase PCR, Western blotting, and immunohistochemistry in oviducts from adult Beagle bitches during anestrus and at five specific time periods around ovulation: during pro‐estrus before the luteinizing hormone (LH) peak (Pre‐LH); after the LH peak and before ovulation (Pre‐ov); and at Days 1, 4, and 7 after ovulation (n = 6 bitches per stage). Plasma estradiol‐17β (E2) and P4 were assayed at all stages. The expression of canine OVGP1 (cOVGP1) was undetectable during anestrus, increased significantly from Pre‐LH to Day 1 in parallel with a decrease in plasma E2‐to‐P4 levels, remained high at Day 4, then decreased at Day 7 in parallel with an increase in plasma P4 levels. In contrast to other mammals, the expression of cOVGP1 was higher in the isthmus than in the ampulla at all stages. In order to explore the potential regulation of cOVGP1 expression by steroids, the 5′‐flanking region of the corresponding gene was analyzed for the presence of estrogen‐ (ERE) and P4‐response‐element (PRE). An imperfect ERE and three half‐ERE were found in this region, but no PREs. In conclusion, cOVGP1 is highly expressed at the time and site of oocyte maturation and fertilization, and is probably under E2 regulation. Further studies are needed to identify the potential roles of cOVGP1 in each process. Mol. Reprod. Dev. 81: 972–982, 2014.