The management of broodstock Atlantic halibut (Hippoglossus hippoglossus) and the influence of nutrition, holding conditions and hormonal manipulation of spawning on gamete quality

De Quero, Carlos Mazorra

January 2000

No description available.

639.8

Oocyte growth

Aktivita mikroRNA v savčích vajíčkách / MicroRNA pathway activity in mammalian oocytes

Kataruka, Shubhangini

January 2021

(English) Oocyte-to-embryo transition (OET) is one of the most complex developmental events where a differentiated oocyte gives rise to a totipotent zygote. During the growth phase an oocyte prepares for fertilization and progression to zygotic genome activation. It does so by transcribing and storing the necessary mRNAs till a fully-grown oocyte attains transcriptional quiescence. Therefore, transcriptome regulation in a fully-grown oocyte is of utmost importance. Study of post-transcriptional regulatory pathways revealed that the small-RNA mediated regulatory pathways exist in a unique conformation in mouse oocytes. Endogenous RNAi pathway is essential for mouse female germline while miRNA pathway which is ubiquitously present in most cell types is dispensable for oocyte maturation and fertilization. My PhD project was aimed at understanding the constraints of the miRNA pathway in the oocyte which makes it non-functional. As a fully-grown oocyte is a huge cell with a proportionally large maternal transcriptome we analysed the miRNA: mRNA stoichiometry changes that occur from growing to the fully-grown mouse oocyte. Inability of miRNAs to accumulate during oocyte growth phase leads to their dilution in fully-grown oocyte rendering them inactive. Low miRNA concentrations were also observed in rat,...

oocyte; oocyt; RISC; miRNA

INTERACTIONS AND LOCALIZATION OF PROTEIN PHOSPHATASES, YWHA PROTEINS AND CELL CYCLE CONTROL PROTEINS IN MEIOSIS

Gilker, Eva Adeline, Gilker

15 August 2018

No description available.

Biology

Cellular Biology

Oocyte maturation

Meiosis

YWHA

PP1

CDC25B

Oocyte

Studies of phosphatidylinositol 3 kinase (PI3K) signaling pathway in mammalian ovarian follicle activation and development

Rajareddy, Singareddy

January 2007

The intra-oocyte signaling pathways that control oocyte growth and early follicular development are largely unknown. The aim of this thesis was to investigate the regulation and functions of phosphatidylinositol 3 kinase (PI3K) pathway in the oocyte, focusing in the roles of Foxo3a, p27, and Pten (phosphatase and tensin homolog deleted on chromosome ten). The physiological significance of Foxo3a in oocytes had been investigated by generating a transgenic mouse, whereby constitutively active Foxo3a is maintained in oocytes using the oocyte-specific ZP3 (Zona pellucida) promoter. The expression of the constantly active “negative” molecule Foxo3a in mouse oocytes was found to cause retardation of oocyte growth, resulting in a significant reduction in oocyte volume in secondary follicles. The transgenic mice also showed arrested follicular development and were infertile. In addition, when Foxo3a was overexpressed in oocytes of primary follicles, oocyte growth and follicular development were retarded. One of the causes of this phenotype may be the retained expression of the cyclin-dependent kinase (Cdk) inhibitor 1B (Cdkn1b), commonly known as p27kip1 or p27, in the nuclei of oocytes. The role and related mechanisms of p27 in controlling early follicular development and oocyte growth were then investigated using wild-type and p27-deficient (p27-/-) mice, and we demonstrated that (i) p27 suppresses follicle endowment/formation and activation, (ii) p27 induces follicle atresia that occurs prior to sexual maturity, and (iii) the overactivated follicles in p27-/- ovaries are depleted in early adulthood, causing premature ovarian failure (POF). In this thesis, we also provide genetic evidence that in mice with conditional deletion of Pten a major negative regulator of PI3K in oocytes, the entire pool of primordial follicles becomes activated, and subsequently all activated follicles are depleted in young adulthood, causing POF. Further mechanistic studies revealed that loss of Pten in oocytes resulted in elevated Akt signaling, which led to upregulation of both expression and activation of ribosomal protein S6 (rpS6) in oocytes. The results thus show that the mammalian oocyte serves as the headquarters of programming of the occurrence of follicle activation, and that the PI3K pathway of the oocyte governs follicle activation through control of initiation of oocyte growth.

oocyte

follicular development

P13K pathway

Oxygen concentration during oocyte maturation in the mouse.

Banwell, Kelly Michelle

January 2009

Follicular antral oxygen tension is thought to influence subsequent oocyte developmental competence. Despite this, in vitro maturation (IVM) is routinely performed in either 5 or 20% oxygen and while low oxygen has been shown to be beneficial to embryo development in many species, the effects of altering oxygen concentration during IVM have not been adequately investigated. Here we investigated the effects of a range of oxygen concentrations (2, 5, 10 & 20% oxygen) during IVM of mouse oocytes on a range of oocyte and embryonic parameters as well as fetal/placental outcome measures and cumulus cell gene expression. While common short term measures of oocyte developmental competence such as maturation, fertilisation, and embryonic development rates were not affected over the range of oxygen levels used, more in depth investigations found several striking differences. Following IVM at 5% oxygen, the oocyte mitochondria were found to have altered patterns of both membrane potential (a measure of mitochondrial activity) and distribution suggesting altered oocyte metabolism. Following IVF, the cellular make up of embryos was investigated. In blastocysts derived from low IVM oxygen (2%) there was found to be an increased number of trophectoderm cells, an increased level of apoptosis (although this was not of sufficient magnitude to account for the cell number difference) and more cells positive for both Cdx2 and Oct4 (markers of trophectoderm and inner cell mass cell types respectively) suggesting a less differentiated cell type. Furthermore, following embryo transfer, the ability of the embryos to implant or develop was not altered by IVM oxygen concentration; however, fetal and placental weights were reduced in the 5% oxygen group. Cumulus cell gene expression was also examined and was found to be altered both across IVM oxygen treatment groups and when compared to cells isolated from in vivo derived complexes. This change in gene expression elucidates some of the many ways in which oxygen concentration during IVM may be affecting the cumulus-oocyte complex (COC) and its future development. Together, this data highlights the importance of looking past common outcome measures when determining the effects of IVM culture conditions. The results of this study also suggest that while IVM oxygen concentration contributes to the perturbing nature of current IVM systems, it is only one of many constituents that require proper investigation, understanding and optimisation. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1368831 / Thesis (Ph.D.) -- University of Adelaide, School of Paediatrics and Reproductive Health, 2009

Oocyte numbers and follicular development in the immature mammallan ovary /

Padung Vongpayabal.

January 1969

Thesis (M.Sc. (Anatomy)) -- Mahidol University, 1969.

Dlouhé nekódující RNA během přeměny vajíčka na embryo / Long Non-Coding RNAs in Oocyte-to-Embryo Transition

Ganesh, Sravya

January 2018

(English) Oocyte-to-embryo transition (OET) is one of the most complex developmental events, during which a differentiated oocyte gives rise to a totipotent zygote. During OET a transcriptionally silent oocyte undergoes massive reprogramming of gene expression, which transforms it into a transcriptionally active zygote. Although numerous studies have contributed to understanding the mechanism of OET, many genes involved in OET are yet to be identified. A whole new level of possible regulation of OET came with the discovery of long non-coding RNAs (lncRNA). LncRNAs are pol II transcripts longer than 200 nucleotides, that are typically spliced and polyadenylated but do not encode proteins. While lncRNAs have been studied in many model systems including embryonic stem cells, their expression in oocytes and early embryos and contribution to OET were largely unexplored at the beginning of this project. In my PhD project, I aimed to identify, annotate, and analyze lncRNAs expressed during OET. First, using RNA-Seq, 1600 highly reliable lncRNAs were identified and annotated in mouse oocytes and early embryos. Majority of lncRNAs were novel with expression exclusively at OET stages. A significant fraction of these lncRNAs was found associated with LTR retrotransposons, contributing to their novelty and...

oocyte; zygota; oocyt; lncRNA; zygote

Vitrification of Bovine Oocytes

Anchamparuthy, Vahida Muhammed Ismail

19 February 2008

Cryopreservation of oocytes is a challenge. Studies were conducted to vitrify mouse zygotes and cumulus-intact bovine oocytes from follicles of different diameters, small (≤ 4 mm) and medium (4 to 10 mm), using nylon mesh. The specific goals were to assess changes in apoptotic gene expression (Fas-FasL, Bax, Bcl-2, and survivin) in conjunction with terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) and caspase assays. Mouse zygotes were exposed to increasing concentrations of ethylene glycol (EG), Ficoll-70 and sucrose in phosphate buffered saline (PBS) for vitrification on nylon mesh and plunged into liquid nitrogen. Warming resulted in 81.7% morphological survival. The rate of blastocyst formation was 59.9% for vitrified zygotes but, this was significantly lower than that of non vitrified embryos (66.2%). There was no difference in the hatching rates between groups. Both Fas and FasL mRNA were detected at the 4-cell and morula stages, suggesting Fas signaling was operational in early embryos. The level of expression of Bax mRNA tended to increase, while expression of survivin mRNA was not different for 2- and 4-cell embryos. Fragmented embryos showed an increase in Bax mRNA levels, while survivin mRNA level was reduced. In the second experiment, vitrification of bovine oocytes was carried out. Pre-cooled cryovials resulted in 98.9% morphological survival. The oocytes from small and medium size follicles had a significant impact on cleavage (53.7 ± 1.6% vs. 43.8 ± 1.6%, respectively) and blastocyst rates were 16.9 ± 1.0% and 11 ± 1.2%, respectively. Follicle size for oocytes had no impact on the expression of apoptotic genes. The Fas-FasL and Bax-Bcl-2 mRNA showed increased expression after vitrification, but tended to decrease after 9 h of maturation. Yet, results from TUNEL and caspase assays did not support the evidence of the downstream apoptotic signaling pathway in embryos. The semen utilized for in vitro fertilization in both vitrified and control oocytes responded differently in the 4 tested bulls than their field fertility record. The altered transcriptional activities of apoptotic genes, Fas-FasL and Bax-Bcl-2, and survivin were indicative of possible apoptotic activity in vitrified embryos and oocytes subjected to in vitro fertilization. / Ph. D.

caspase

gene

mRNA

oocyte

TUNEL

Influence of Growth Factors on Bovine Embryo Development

Lott, Whitney Meghan

08 September 2008

Many attempts have been made to improve the in vitro production of cattle embryos by refining in vitro maturation (IVM) and culture systems. Cysteine supplementation to IVM media of bovine oocytes increases cellular glutathione production, which reduces reactive oxygen species (ROS). Similarly, beneficial effects of growth factors for improving the rate of blastocyst development have been reported, but combined effects are unknown. This study was conducted to determine the additive effect of the antioxidant cysteine with epidermal growth factor (EGF) and/or insulin-like growth factor-I (IGF-I) on subsequent embryo development. Bovine oocytes from slaughterhouse ovaries were matured in TCM-199 (control), with or without the addition of 0.6 mM cysteine (C) at 0 or 12 h of maturation. After in vitro fertilization, embryos were allocated to culture treatments containing synthetic oviductal fluid medium. Culture treatments included fetal calf serum (FCS, 4%) alone; IGF-I (100 ng/mL); EGF (10 ng/mL); and IGF-I+EGF (100 ng/mL+10 ng/mL) for all IVM treatments. Although rates for blastocysts development were not different among treatments, an increased proportion of embryos attaining morula formation was achieved when cysteine was added to the IVM media (12 h C IGF-I+EGF, 41.4%; 0 h C EGF, 40.0%) as compared to control (FCS: 34.6%). When cysteine treatments were combined, percent cleavage was greater for IGF-I+EGF (70.8%) compared to FCS (61.2%). The abundance of mRNA from the apoptotic genes, Bax and Bcl-2, and the oxidative stress genes, copper (Cu)-zinc (Zn) superoxide dismutase (SOD; SOD1) and manganese (Mn) SOD (SOD2) in embryos was assessed. No significant treatment effect was observed on the expression of apoptotic and oxidative stress genes. Bax was expressed strongly (4-fold) in morulae with the addition of IGF-I, but was less prevalent in all other morula and blastocyst groups relative to FCS. There was slightly less expression of both SOD1 and SOD2 with treatments compared to FCS in morulae and blastocysts, indicative of low mitochondrial activity and/or a low level of oxidative stress in treatments. There was no significant treatment effect on total cell number, apoptotic nuclei, or apoptotic index. In conclusion, supplementation of cysteine during IVM of oocytes, in conjunction with growth factors could effectively be used as a replacement for FCS. / Master of Science

growth factor

embryo

cysteine

oocyte

Factors affecting the quality and function of the bovine periovulatory follicle

Harl, Audra Whitney

15 November 2018

For many cattle operations, profitability depends on the success of reproductive management programs. Opportunities for improving fertility exist within the numerous challenges related to reproductive management. Non-conventional, creative tools for reproductive management could help producers overcome these challenges. In an effort to produce information that could be used to improve reproductive performance of cattle, the following studies were undertaken. The objectives of these studies were threefold: to determine whether GnRH administered as an epidural injection causes ovulation in healthy cows and heifers, to evaluate whether the follicular environment (specifically, follicle fluid) surrounding the oocyte during the maturation phase affects the ability of the cumulus-oocyte complex to progress through early embryonic development, and to investigate the relative effects of estradiol and progesterone on oocyte maturation and early embryo development. Ability of GnRH to elicit an ovulatory response when administered as an epidural was evaluated in crossbred angus cows and heifers. The preliminary study evaluated this route of administration in crossbred angus cows. Animals were assigned randomly to either intramuscular or epidural administration, and ovaries were visualized via transrectal ultrasound every 6 h until ovulation of the dominant follicle. Results indicated that epidural administration of GnRH was able to trigger an ovulatory response, but timing of ovulation was not measured. The main experiment evaluated incidence of ovulation, time to ovulation, and ovulatory follicle size in crossbred angus heifers administered GnRH either epidurally or intramuscularly. Heifers were randomly assigned to treatment and ovaries were visualized every 4 h via transrectal ultrasound until ovulation of the dominant follicle. Results indicated that epidural administration of GnRH was able to elicit an ovulatory response in heifers, and the timing of ovulation and ovulatory follicle size was not different between administration route. Further investigation is needed to determine if characteristics of the ovulatory response (such as the luteinizing hormone surge) and circulating concentrations of GnRH are altered by epidural administration, which may impact fertility. GnRH administration is standard practice in many estrous synchronization programs. For fixed-time artificial insemination programs, the detection of estrus prior to insemination has been shown to improve conception and decrease early embryonic loss. The impact of behavioral estrus expression on the oocyte and early embryo were evaluated. Oocytes were matured in vitro in follicle fluid collected from synchronized cows who were classified as having expressed behavioral estrus or not expressing estrus. Embryo cleavage was not affected by estrus expression, but there was a tendency for improved blastocyst development in embryos matured in follicle fluid from animals who had expressed estrus. Cell number was not affected by estrus expression, but future research is needed as to the effect on oocyte acquisition of competence and early embryonic development. Despite the progress that has been made in culture conditions for in vitro produced embryos, developmental capacity following fertilization is limited at best, with only around one-third of oocytes placed into maturation resulting in viable embryos. During in vivo maturation, the oocyte undergoes final maturation within the follicle, surrounded by a changing microenvironment of estradiol and progesterone. Although the effects of steroids on oocyte development in vitro have been studied on an individual basis, a direct comparison between the ratio of estrogen and progesterone relative to follicle size has not been investigated Effects of steroid hormones estradiol and progesterone on oocyte maturation and early embryonic development were evaluated. Oocytes were matured in vitro in media supplemented with either estradiol, progesterone, or a combination of estradiol and progesterone. Oocytes were fertilized after maturation and cultured for 7 d until development to blastocyst stage. Addition of estradiol alone did not support oocyte maturation or early embryonic development in vitro, and a combination of estradiol and progesterone exhibited an inhibitory effect on oocyte maturation and early embryonic development. Addition of progesterone alone resulted in improved development when compared with estradiol alone or a combination of estradiol and progesterone. These results indicate that efficiency of reproductive management programs is controlled by multi-faceted factors and opportunities for improvement of reproductive outcomes exist in all of these factors. Although ovulation can be elicited via epidural administration, the impact of this ovulatory trigger on fertility requires further investigation. Display of estrus after synchronization for fixed-time artificial insemination improves conception and decreases early embryonic loss and has a may improve blastocyst development. This effect on early embryo development could be the focus of future research, further improving fertility and possibly the efficacy of in vitro embryo production. Steroid hormones play crucial roles in oocyte competency and the addition of progesterone during in vitro maturation improves development compared with estradiol alone or a combination of estradiol and progesterone. / Ph. D. / Reproductive success is critical for economic sustainability for many cattle operations. Creative tools for fertility management could help cattle producers overcome many challenges to fertility. In an effort to produce information that could be used to improve reproductive performance of cattle, the following studies were undertaken. The objective of these studies was to determine whether hormone administration as an epidural injection causes ovulation in healthy cattle (young and mature cattle assessed). Additionally, the second study evaluated whether the follicle (fluid-filled compartment surrounding the egg on the ovary) environment affects the female egg prior to ovulation, and the early embryo after fertilization. Finally, the third study looked at the impact of follicle fluid and specific hormones on embryo growth. An experiment was conducted in cows and heifers to determine if administering a hormone as an epidural injection, as opposed to conventional methods, could cause ovulation of the follicle. Animals received either an intramuscular or epidural hormone injection, and the ovaries of the animals were observed on an ultrasound until the follicle ruptured, releasing the egg. Epidural administration of the hormone was indeed able to trigger the rupture of the follicle. Hormone administration is standard practice in many cattle fertility programs. To maximize fertility, animals need to come into “heat” or estrus (period of sexual receptivity). Coming into heat is important for fertility in the female as it is indicative of impending ovulation and preparation of the egg for fertilization. In some reproductive management systems, reproductive cycles can be controlled in ways that deemphasize the need for behavioral estrus. Recent reports have suggested that animals in these systems that exhibit behavioral estrus are more fertile, as it makes it more likely for the female to conceive and stay pregnant compared to females who do not come into heat. The impact of heat on the female egg and early embryo of the cow has not been investigated. To evaluate the impact of heat on embryos, eggs were taken from the ovary of the cow and matured in a cell culture lab overnight in media containing fluid taken from the follicles of animals who came into heat, and animals that did not come into heat. The eggs were then fertilized, and embryos developed. There was only a tendency for improvement in embryo development for those matured in fluid from animals in heat compared with animals not in heat. When growing embryos in a culture lab, success rates are lower than embryos developing in the animal. When the egg is being prepared for release, it goes through important maturation steps to enable fertilization and eventual growth into a calf. Hormones in the follicle fluid facilitate maturation, and the conditions in the follicle are not easily replicated in the lab. The addition of these critical hormones to the lab conditions may help facilitate improved development in lab-produced embryos. Two hormones (estrogen and progesterone) were added to follicle fluid that was used in the lab culture environment to determine their effect on embryo growth. When progesterone was added, embryos grew well, matching the development rate of the control medium. When estrogen was added, embryos experienced poor development. Neither resulted in embryo development that exceeded the control medium. These results indicate that control of reproduction in cattle is complex, and multiple opportunities exist to improve fertility. Future research on how the oocyte and embryo react to their environment is needed and will facilitate further improvement of reproductive management systems in cattle. Improved reproductive management will enhance efficiency, sustainability and profitability of cattle production systems.

Estrus

follicle

ovulation

oocyte

blastocyst