Fertility of mares after unilateral laparoscopic tubal ligation

OBJECTIVE: To develop a technique for laparoscopic tubal (oviductal) ligation and to evaluate pregnancy rates for mares that ovulated ipsilateral or contralateral to the ligated oviduct. STUDY DESIGN: Randomized prospective clinical trial comparing pregnancy rates after unilateral laparoscopic tubal ligation. ANIMALS: Twelve mares of light horse breeds. METHODS: One oviduct in each of 6 mares was surgically ligated with a laparoscopic technique; 6 other mares served as nonligated controls. Mares with unilateral tubal ligations (UTL) were inseminated with 500 million progressively motile sperm during 1 cycle when the dominant follicle was ipsilateral to the ligation site and 1 cycle when the dominant follicle was contralateral to the ligation site. Control mares were bred during 2 cycles regardless of the side of the dominant follicle. Pregnancy examinations were performed on days 12, 14, and 16 after ovulation by transrectal ultrasonography. RESULTS: None of the mares became pregnant when ovulations occurred from the ovary adjacent to the ligated oviduct. All 6 mares became pregnant on the first cycle when an ovulation occurred from the opposite ovary. Control mares became pregnant on 10 of 12 cycles (83.3 %). CONCLUSIONS: UTL was completely effective in preventing pregnancy when ovulation occurred ipsilateral to the ligation site. The surgical procedure did not interfere with the establishment of pregnancy when ovulation occurred from the contralateral ovary. CLINICAL RELEVANCE: UTL may be a clinically useful procedure for preparing a recipient mare for gamete intrafallopian transfer. The recipient mare could be allowed to ovulate and UTL would prevent fertilization of her oocyte but would not interfere with normal corpus luteum formation. The donor oocyte could be placed into the oviduct contralateral to the UTL site.     

Effects of Follicular Fluid on the Transport of Porcine Oocytes into the Oviduct at Ovulation

Contents Three experiments were conducted to determine whether follicular fluid (FF) enters the oviduct and plays any role in the transport of oocytes into the oviduct. Experiment 1: Oestrus and ovulation were synchronized in cycling gilts (n = 21) over a 15 day period of feeding Regumate^® and injections of 1000 IU pregnant mare’s serum gonadotrophin (PMSG) 24 h after the last Regumate^® feed and 500 IU human chorionic gonadotrophin (hCG) 80 h after PMSG. Ipsi-lateral aspiration of FF and salpingectomy (group 1, n = 7), aspiration of FF without salpingectomy (group 2, n = 7) or ligation of the oviduct between the ampulla and infundibulum (group 3, n = 7) was performed endoscopically prior to ovulation (34–36 h after hCG). Ipsi-lateral (group 2 and 3) and contra-lateral salpingectomy was carried out in all gilts post ovulation, 42–44 h after hCG. The oviducts were flushed with 1 ml saline and the samples as well as the aspirated FF were analysed for progesterone and estradiol by RIA methods. In group 1 both progesterone and estradiol concentrations did not differ before and after ovulation. Withdrawal of FF from the ipsi-lateral ovary by aspiration (group 2) or ligation of the oviduct (group 3) did not influence the steroid content within the oviducts. Similarly low progesterone concentrations were measured in ipsi- and contra-lateral oviducts after ovulation (group 2: 0.29 ± 0.17 versus 0.24 ± 0.35 ng/ml and group 3: 0.22 ± 0.19 versus 0.21 ± 0.22 ng/ml). The high content of progesterone of FF (269.7 ± 67.9 and 389.6 ± 226.5 ng/ml in group 1 and 2, respectively) was not reflected in the oviductal fluid. Experiment 2: In five gilts 0.06 ml ³H-progesterone (30 000 dpm) were applied via a fine 27 G injection needle into the largest three follicles of the ipsi-lateral ovary prior to ovulation (34–36 h after hCG). The oviducts were flushed following ovario-salpingectomy 42–44 h after hCG. All follicles had ovulated. The oviductal flushings and oviductal and ovarian tissue were analysed for labelled progesterone. No differences were measured in the content of ³H-progesterone of oviductal flushings and of both oviductal and ovarian tissues between the ipsi-lateral injection and contra-lateral control sides. The main part of the counts detected was within the range of background dpm values. Only 2.4% of the initial counts were recovered from fluid and tissue samples. Experiment 3: In a subsequent study FF was cautiously aspirated by endoscopy from follicles of the ipsi-lateral ovary 34–36 h after hCG (n = 12 gilts). Postovulatory (58 h after hCG), both oviducts were flushed and the oocytes were recovered. To test the influence of follicle puncture alone on the process of ovulation (n = 8 gilts), the aspiration needle alone was pricked into the follicles of the ipsi-lateral ovary, without any fluid aspiration. Despite the cautious aspiration of FF from 89 follicles, 26 oocytes were recovered together with the FF. Eighty-six postovulatory follicles were observed on the ipsi-lateral ovary. Out of 57 oocytes able to reach the oviduct, 29 oocytes were flushed from the oviduct (50.4 ± 28.1%). From the contra-lateral control oviduct 71 oocytes out of 91 ovulations (69.0 ± 33.9%) were recaptured. Puncture of follicles without aspiration did not influence ovulation compared with the control (recovery rate 68.2 and 79.6%, respectively). Results indicate (1) on the basis of the low progesterone level within the oviductal fluid that only a small amount of FF seems to reach the oviduct at ovulation, and (2) FF does not appear to be a compulsory carrier of the porcine oocyte at ovulation.     

Tumor necrosis factor alpha system in the bovine oviduct: a possible mechanism for embryo transport

Active contractile pattern of the oviduct occurs during the periovulatory period for the movement of the gamete/embryo, which is strictly regulated by endocrine and paracrine/autocrine factors. In this review, an involvement of tumor necrosis factor alpha (TNFalpha) in the regulation of cow oviductal contraction is discussed. Oviductal epithelial cells express TNFalpha ligand and it's both receptor types; high expression during the follicular and postovulatory stages, while low expression during luteal stage and thus, TNFalpha system in the cow oviduct is most active during the periovulatory period. The immune cells present in large numbers in the oviduct during the periovulatory period of the estrus cycle, and these cells are also considered as another potential source for the TNFalpha in the oviduct. Using in vitro models, TNFalpha clearly stimulated local production and release of contraction related substances such as prostaglandins (PGs), endothelin-1 (ET-1) and angiotensin II (Ang II). Since these substances have been shown to activate directly the oviductal contraction in vitro, TNFalpha appears to stimulate the oviductal contraction during the periovulatory period and contribute to create an optimal local environment suitable for gamete/embryo transport. In addition, the ability of embryo to act as a source of TNFalpha in the oviduct cannot be excluded. To support this idea, the embryo at 2-4 cells stages indeed express TNFalpha, so that the minute quantities of TNFalpha secreted by the embryo may further acts locally to enhance the production of PG, ET-1 and Ang II in the oviduct, which may result in an active oviductal contraction in the microenvironment around the embryo. This may ensure the embryo to migrate into the uterus at the optimal time.     

Effects of Retinoids on the In Vitro Development of Capra Hircus Embryos to Blastocysts in Two Different Culture Systems

The objective of this study was to evaluate the effect of retinol (RT) and retinoic acid (RA) on the in vitro development of pre‐implantation goat embryos cultured in potassium simplex optimized medium or synthetic oviduct fluid or cocultured in oviductal cells monolayer either in potassium simplex optimized medium or synthetic oviduct fluid. A total of 2407 cumulus‐oocyte complexes were aspirated from 2 to 6 mm ovarian follicles from slaughtered animals. Selected cumulus‐oocyte complexes were subjected to in vitro maturation in TCM 199 for 24 h at 39°C in an atmosphere of 5% (v/v) CO₂ in humidified air. In vitro fertilization was performed in modified defined medium. Eighteen hours after in vitro fertilization, cumulus cells were removed and presumptive zygotes were randomly distributed into experimental groups. In Experiment 1, presumptive zygotes were cultured in potassium simplex optimized medium, potassium simplex optimized medium + RT, potassium simplex optimized medium + retinoic acid, synthetic oviduct fluid, synthetic oviduct fluid + RT and synthetic oviduct fluid + RA at 39°C in a humidified atmosphere of 5% (v/v) CO₂, 5% (v/v) O₂ and 90% (v/v) N₂. In Experiment 2, presumptive zygotes were cocultured in potassium simplex optimized medium + oviductal cells monolayer, potassium simplex optimized medium + RT + oviductal cells monolayer, potassium simplex optimized medium + RA + oviductal cells monolayer, synthetic oviduct fluid + oviductal cells monolayer, synthetic oviduct fluid + RT + oviductal cells monolayer and synthetic oviduct fluid + RA + oviductal cells monolayer in an atmosphere of 5% (v/v) CO₂ in humidified air. In both experiments, media were partially changed on day 2 after in vitro fertilization and unfertilized oocytes were excluded from the experiment. Embryos were cultured or cocultured for 8 days. In Experiment 1, there was no effect of RT or RA supplementation on the proportion of oocytes that reached the morula or blastocyst stages. By contrast, Experiment 2 demonstrated that the addition of 0.28 μg/ml RT and 0.5 μm RA to the embryo culture media stimulated (p < 0.05) development to the morula and blastocyst stages under the coculture conditions tested. In conclusion, retinoids play an important role in pre‐implantation development of goat embryos and can be used to enhance in vitro embryo production.     

骨形态发生蛋白15基因mRNA在牛不同组织中的表达分析

由于BMP15基因对卵泡发育、优势卵泡的选择及排卵等雌性生殖过程的许多环节都起着关键作用,因此该研究应用RT-PCR技术检测了BMP15基因mRNA在蒙古牛卵巢、子宫、输卵管和肾脏组织中的表达情况.结果表明,BMP15基因在这4种组织中均有表达,只是在不同组织中的表达丰度不同,蒙古牛BMP15基因在卵巢组织中的mRNA水平极显著高于子宫组织(P＜0.01),显著高于肾脏组织(P＜0.05);说明BMP15基因在卵巢和输卵管中高度表达,在子宫和肾脏组织中表达丰度较低.     

Detection of the Matrix Metalloproteinases MMP‐2 and MMP‐9 and Tissue Inhibitors of Metalloproteinases TIMP‐1 and TIMP‐2 in Llama (Lama glama) Oviduct

Matrix metalloproteinases (MMPs) and their inhibitors (TIMPs) are involved in several reproductive events like oocyte–spermatozoa interaction and semen liquefaction. In order to study their role in the llama oviductal reproductive process, MMP activity in oviductal fluid (OF) was assayed. Considering that llama genome sequences are partially known, a strategy to procure cDNA sequences of MMP‐2, MMP‐9, TIMP‐1 and TIMP‐2 was designed. Afterwards, their expression patterns in the different llama oviductal segments were assayed. Gelatine zymograms detected 62 and 94 kDa protease activities that matched MMP‐2 and pro‐MMP‐9, respectively. Expression pattern analysis showed that MMP and TIMP mRNAs were present in ampulla, isthmus, utero‐tubal junction (UTJ) and papilla. Altogether, these findings support the argument that MMPs/TIMPs are produced in the oviduct and secreted into the oviductal lumen. Our results encourage further studies to elucidate the role of these proteins in reproductive oviductal events.     

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 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 beta 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.     

Acute stimulation of a smooth muscle constrictor by oestradiol‐17β via GPER1 in bovine oviducts

Oviducts play roles in reproductive processes, including gametes transport, fertilization and early embryo development. Oviductal transport is controlled by various factors such as endothelins (EDNs) and nitric oxide (NO), smooth muscle contracting and relaxing factor, respectively. EDNs and NO production depend on an ovarian steroid hormone, oestradiol‐17β (E2) and E2 quickly exerts their biological functions through G protein‐coupled oestrogen receptor 1 (GPER1), which mediates rapid intracellular signalling. Because follicular fluid which contains a high concentration of E2 enters the oviduct, we hypothesized that E2 in the follicular fluid participates via GPER1 in producing EDNs and NO. To test this hypothesis, we investigated 1) the expression and localization of GPER1 in bovine oviductal tissues and 2) rapid effects of E2 via GPER1 on EDN1, EDN2 and inducible NO synthase (iNOS) expression in cultured bovine oviductal isthmic epithelial cells. GPER1 was observed in the oviductal epithelium, stroma and smooth muscle, and its expression was highest in the isthmus. Short‐term treatments (≤1 hr) of E2 increased EDN2 mRNA expression in the isthmic epithelial cells, although E2 did not affect EDN1 and iNOS mRNA expressions. Results of GPER1‐selective agonist G‐1 and GPER1‐selective antagonist G‐15 treatments revealed acute stimulation by E2, which is mediated via GPER1. The overall findings suggested that E2 in follicular fluid rapidly stimulates EDN2 expression via GPER1 in the isthmic epithelial cells. Follicular fluid may play a role in retention of the ovulated oocyte in the end of ampulla by contracting the isthmus for successful fertilization.     

Characterisation of lymphocyte subsets in the equine oviduct

REASONS FOR PERFORMING STUDY: The equine oviduct is the site of fertilisation and location of embryonic development during the first 5 or 6 days. It therefore has an important influence on mare fertility. Although histopathological changes have been described previously, there is limited information regarding lymphocyte subtypes present in the mucosa of the normal equine oviduct. OBJECTIVES: To characterise the distribution of CD3+, CD4+, CD8+ and B lymphocytes in the equine oviduct from inseminated mares during oestrus and dioestrus, and from noninseminated mares during the immediate post ovulatory period. METHODS: Oviductal tissues were collected from noninseminated mares at oestrus (> 30 mm follicle, n = 4), at Day 1 post ovulation (n = 3) and at dioestrus (Day 7 post ovulation; n = 4). Oviducts were also collected from inseminated mares at Days 1, 2, and 3 post ovulation (n = 4 for each period). Cross-sections of tissues from the ampullar-isthmic junction from each oviduct were snap frozen and cryostat sections stained by the immunoperoxidase technique with monoclonal antibodies directed against equine lymphocyte surface markers for B cells as well as CD3+, CD4+ and CD8+ cells. RESULTS: In all oviductal sections examined, B cells were rare whereas T cells were relatively abundant. The predominant cell type found was the CD8+ phenotype, with a lesser number of CD4+ cells. Among mares, individual variation was large; therefore, although breeding status and stage of oestrous cycle appeared to alter lymphocyte populations, these differences were not significant. CONCLUSIONS AND POTENTIAL RELEVANCE: A population of CD3+, CD4+ and CD8+ cells exists within the mucosal region of the equine oviduct. The density of these cells is similar to that described in the human oviduct. Their function is not currently known, but they may be involved with modulation of the maternal response to the presence of spermatozoa or the early conceptus within the equine oviduct. As our capacity to differentiate these cell types improves, along with the ability to identify the specific cytokines they produce, their functional significance will become more apparent.     

Role of the oviduct in early embryo development

This review highlights the role of the oviduct in early embryo development, which has to fulfil many aligned and well-tuned tasks during early embryogenesis. The oviductal lining is subjected to dynamic changes to timely accomplish gamete transport, fertilization and embryo development and to deliver a competent and healthy conceptus to the endometrium which can implant and develop to term. Although knowledge about the role of the oviduct is limited, we know that embryos are very sensitive to the environment in which they develop. The success of in vitro embryo production techniques demonstrates that it is possible to bypass the oviduct during early development and, to a certain extent, replicate the conditions in vitro. However, comparative studies show that embryos developed in vivo are superior to their in vitro produced counterparts, underlining our relatively poor knowledge of the biology of the oviduct. Oviduct activity is orchestrated by various factors, depending on cyclic dynamics, which crucially affect the success of tubal transfer and/or (re-)collection of embryos in embryo transfer studies. This paper reviews data which demonstrate that in vivo culture of embryos in the bovine oviduct is a useful tool for the assessment of embryos developed under various conditions (e.g. superovulation vs single ovulation, lactating dairy cows vs non-lactating cows). It is concluded that more work in the field of early embryo development within the oviduct would contribute to improved ART protocols leading to healthy pregnancies and offspring.     

Reproductive tract vasculature of the female emu (dromaius novaehollandiae)

The arterial supply of the ovary and oviduct is provided by the ovarian artery, cranial oviductal artery, accessory cranial oviductal artery, middle oviductal artery, caudal oviductal artery and the medial and lateral vaginal arteries. These arteries supply various regions of the oviduct and are branches of either the left cranial renal artery, left external iliac artery, left middle renal artery, left lateral caudal artery or the left pudendal artery. The veins that drain the reproductive tract are satellite vessels to each artery that supplied the tract.     

Observations on the Right Ovary of Birds of Prey: A Histological and Immunohistochemical Study

In most avian species, only the left ovary and oviduct are developed in the adult bird. Right ovaries and oviducts usually do not mature further after hatching and remain only rudimentary. However, occurrence of a functional right ovary is frequently found in several species of birds of prey. In this study, we investigated the occurrence of the right ovaries and their morphology in these bird species. Four examined wild bird species possessed a right ovary: long‐eared owl, common buzzard, sparrow hawk and goshawk. We used histological and immunohistochemical techniques to evaluate structural differences of the gonads and tried to correlate the findings with folliculogenesis and endocrine functions. The right ovaries showed different sizes and shapes. Cytoskeletal elements (tubulin and vimentin) and α‐smooth muscle actin have been detected in different structures of the right ovaries, but their staining intensity was weaker compared with the left ovary. This shows that also the right ovary is mechanically able to ovulate. We could also demonstrate the expression of oestrogen receptor α and progesterone receptor in the right ovaries, which indicates that also the right ovary can respond to steroid hormone stimuli. We assume that the expression of steroid hormone receptors in the presumptive gonad is still sufficient to mediate the development of a right ovary in the studied species. We conclude that the expression of steroid hormone receptors in the right ovary is involved in its post‐natal development. The histological and immunohistochemical data also imply that in the right ovary, folliculogenesis and ovulation can occur.     

Biological Functions of TLRs in Mammalian Ovulation Processes

Toll-like receptors (TLRs) is the main category of pattern recognition receptors.It is not only expressed in classical immune cells,but also expressed in the ovary and the genital tract of a variety of mammals.It plays an important role in ovarian activities.Biological functions of TLRs in the ovulation processes is the main research content in the field of reproductive immunology because that ovulation is a core event in ovarian activities and the key to determine the success or failure of reproductive.This review will concentrate on expression and distribution of TLRs in mammalian ovary,regulation mechanisms of TLRs expression and function,and the functions and significance of the ovulation process.Then we analyze briefly its possible functions in ovulation-related diseases.We want to provide a reference in research areas of reproductive immunology.     

Toll样受体在哺乳动物排卵过程中的生物学作用

Toll样受体(Toll-like receptors,TLRs)是模式识别受体的主要类别,除表达于经典免疫细胞外,多种哺乳动物的卵巢和生殖道同样存在此类受体分子,其在卵巢活动中发挥着重要作用。TLRs在排卵过程中的生物学功能是生殖免疫学领域研究的主要内容之一。文章主要从TLRs在哺乳动物卵巢中的表达与分布、表达与功能的调节机制及在排卵过程中所发挥的作用及意义等方面进行了综述,并对其在排卵相关疾病中的可能作用进行了简要分析,以期为生殖免疫学相关领域研究提供参考。     

The bovine oviduct and its role in reproduction: a review of the literature

The bovine oviduct provides the environment for sperm transport and capacitation, oocyte transport and maturation, fertilization and early embryonic cleavage. Gamete interactions in the tube occur in contact with both the tubal epithelium and the oviduct fluid secreted by these cells. Current research continues to reveal the active role of the oviduct and its products play in normal fertilization and embryo development. This paper reviews the anatomy and physiology of the oviduct of the cow, including the specific events of reproduction which occur in this organ.     

新生儿卵巢同源盒基因在猪卵巢中的表达研究

新生儿卵巢同源盒基因(newborn ovary homeobox gene,NOBOX)是母源基因的一种,在早期卵子发生中起重要作用。为了明确NOBOX基因在猪卵巢等组织中的表达情况,本研究首先采用实时荧光定量PCR方法检测了NOBOX基因在猪不同组织中的表达,然后构建了NOBOX基因的原位杂交探针,采用原位杂交技术检测NOBOX基因在猪卵巢中的表达定位情况。结果显示,NOBOX基因在猪卵巢中的表达最高,极显著高于肾脏、肝脏、乳腺、肌肉及肾上腺等组织(P<0.01),而在肾脏、肝脏、乳腺、肌肉和肾上腺中,NOBOX基因表达差异不显著(P>0.05)。在猪卵巢中NOBOX基因的表达定位于卵母细胞胞质中,在颗粒细胞中未检测NOBOX基因的表达。以上结果表明,NOBOX基因仅在猪的卵母细胞胞质中高表达,预示NOBOX基因很可能在卵母细胞发生和胚胎的早期发育过程中发挥调节作用。     

Study on Expression of Newborn Ovary Homeobox Gene in Porcine Ovary

Newborn ovary homeobox gene (NOBOX) is one of maternal genes,which is important in early oogenesis.In order to know the expression pattern of NOBOX gene in porcine tissues,Real-time fluorescence quantitative PCR was used to detected the expression of NOBOX gene in porcine tissues,and then the probe of NOBOX gene was generated and in-situ hybridization were used to detect NOBOX gene localization in porcine ovary.The results showed that NOBOX gene expression was significantly higher in ovary than in other tissues (P<0.01).There was no significant difference in NOBOX gene expression among kidney,liver,mammary gland,muscle and adrenal (P>0.05).In ovary,NOBOX gene was localized in oocyte cytoplasm specifically,but not in granulosa cell.All these results revealed that NOBOX gene was highly expressed in the cytoplasm of procine oocyte,indicating that it played an important role in porcine oocyte and early embryo development.     

牦牛NGF基因克隆及其在生殖器官中的表达定位

旨在探究NGF基因的生物学特性及其在母牦牛生殖器官中的表达特性.本研究收集黄体期母牦牛的心、肝、脾、肺、肾以及胎牛期、卵泡期、黄体期、妊娠期母牦牛的卵巢、子宫和输卵管(n=3),利用RT-PCR克隆牦牛NGF基因,并对其序列进行生物信息学分析,利用RT-qPCR技术分析NGF基因的组织表达特性,利用免疫组化技术(IHC...