scholarly journals Energy metabolism in pig oocytes and early embryos

Reproduction ◽  
2003 ◽  
pp. 197-204 ◽  
Author(s):  
RG Sturmey ◽  
HJ Leese
Keyword(s):  
Embryo Development ◽  
In Vitro Maturation ◽  
Tricarboxylic Acid Cycle ◽  
Lactate Production ◽  
Glucose Consumption ◽  
Blastocyst Stage ◽  
Early Embryo ◽  
Vitro Fertilization ◽  
Triglyceride Content

Pig oocytes and embryos differ from those of other species in having a large quantity of endogenous lipid, a potential role for which has yet to be identified. In the present study, the hypothesis that endogenous triglyceride acts as a metabolic substrate during in vitro maturation and early embryo development was tested. Embryos were produced by in vitro fertilization (IVF) of in vitro-matured, abattoir-derived immature oocytes, cultured in medium NCSU23 up to the blastocyst stage. The triglyceride content of single oocytes and embryos was measured throughout development. Oxygen and glucose consumption and the formation of lactate were measured non-invasively over the same period, enabling total ATP production to be calculated. The triglyceride content of oocytes before maturation (135+/-4.9 ng) decreased by 13 ng (P<0.05) during in vitro maturation, but there was no apparent change in triglyceride content during embryo development (117.68 ng). Oxygen consumption was low throughout embryo cleavage before reaching a peak at the blastocyst stage (P<0.01), a pattern similar to that seen in other mammals studied. Glucose consumption and lactate production were also at a maximum at the blastocyst stage (P<0.05). These data indicate that pig oocytes may use endogenous triglyceride as an energy source during in vitro maturation and that most (91-97%) of the ATP produced during embryo development comes from oxidative phosphorylation. The high exogenous glucose concentration in NCSU23 (5.5 mmol l(-1)) may be needed to form pyruvate, which in turn, produces oxaloacetate, which is required to prime the tricarboxylic acid cycle. However, the reason for the high lipid content in early pig embryos remains to be elucidated.

ТРАНСВАГИНАЛЬНАЯ АСПИРАЦИЯ ФОЛЛИКУЛОВ И СПОСОБНОСТЬ OPU-ООЦИТОВ КОРОВ К ЭМБРИОНАЛЬНОМУ РАЗВИТИЮ В УСЛОВИЯХ IN VITRO

2019 ◽  
pp. 17-19
Author(s):  
G.N. SINGINA ◽  
V. HAVLICEK ◽  
N.P. TARADAYNIK ◽  
R.Y. CHINAROV ◽  
T.E. TARADAYNIK ◽  
...  
Keyword(s):  
In Vitro Fertilization ◽  
Embryo Development ◽  
In Vitro Maturation ◽  
Blastocyst Stage ◽  
Vitro Fertilization ◽  
Maturation In Vitro ◽  
Transvaginal Aspiration ◽  
Cattle Reproduction ◽  
Ovarian Follicular Growth

Представлены результаты трансвагинальной аспирации ооцитов коров, а также оценен их потенциал к эмбриональному развитию после оплодотворения в условиях in vitro. Донорами яйцеклеток являлись половозрелые телки симментальской породы в возрасте 1619 мес. Животныедоноры (n7) перед проведением процедуры Ovum Pickup (OPU) были гормонально обработаны с целью стимуляции роста фолликулов. Количество выделенных ооцитов от индивидуальных доноров составило в среднем 7,7 ооциткумулюсных комплексов (ОКК), что соответствовало степени извлечения 54,57,7. Доля ОКК хорошего качества, рассчитанная от общего числа извлеченных ОКК, между отдельными животными существенно не различалась (значения варьировали от 60,0 до 75,0) и в среднем составила 67,21,9. ОКК с признаками нормальной морфологии подвергали in vitro процедурам созревания, оплодотворения и последующего культивирования до стадии бластоцисты. Доля раздробившихся ооцитов и выход бластоцист после in vitro осеменения яйцеклеток коров равнялась 75,7 и 24,3, соответственно. В целом от одного донора за сессию OPU было получено 1,3 эмбриона на стадии бластоцисты, содержащих в среднем 89,8 ядра. Оцененный способ экстракорпорального оплодотворения OPUооцитов коров позволяет получать эмбрионы, пригодные для замораживания и трансплантации реципиентам и может быть использован в программах по воспроизводству желаемых генотипов у крупного рогатого скота.In the present work, we report the data on transvaginal aspiration of bovine ovarian follicles and estimation of in vitro embryo development competence of collected oocytes. The oocytes were collected by ovum pickup OPU from seven 1619 monthold Simmental heifers, previously hormonallytreated in order to stimulate ovarian follicular growth. In average, 7.7 oocytecumulus complexes (OCCs) per heifer per OPU session were collected that corresponded to 54.57.7 of recovery rate. Morphologically, 60.075.0 of OCCs were the good quality and this rate did not significantly differ between the animals. Good quality OCCs (total n37) were then subjected to in vitro maturation, in vitro fertilization and in vitro embryo development up to blastocyst stage. Cleavage and blastocyst rates were 75.7 и 24.3 , respectively. In total, 1.3 blastocysts were obtained per cow per OPU session in average these blastocysts contained 89.9 cells. In conclusion, we developed the methodology of in vitro fertilization of bovine OPUcollected oocytes that allowed obtaining the blastocysts potentially suitable for freezing and transplantation to recipients. This approach can be used to multiply desired genotypes in cattle reproduction.

161 EFFECT OF OVIDUCTAL FLUID ON BOVINE OOCYTE ZONA PELLUCIDA HARDENING AND SPERM BINDING, AND ON EARLY EMBRYO DEVELOPMENT

2016 ◽  
Vol 28 (2) ◽  
pp. 210
Author(s):  
P. Hugon ◽  
J. Lamy ◽  
E. Corbin ◽  
P. Mermillod ◽  
M. Saint-Dizier
Keyword(s):  
Corpus Luteum ◽  
Embryo Development ◽  
Zona Pellucida ◽  
Developmental Stages ◽  
Early Embryo ◽  
Developmental Competence ◽  
Control Group ◽  
Vitro Fertilization ◽  
Oviductal Fluid

This study was designed to evaluate the effects of oviductal fluid at different periovulatory times on oocyte maturation, modification of the zona pellucida (ZP), fertilization and embryo development. Bovine oviducts were collected at a slaughterhouse and classified as preovulatory (pre-ov: 1 pre-ov follicle and a regressing corpus luteum) or post-ovulatory (post-ov: a corpus haemorrhagicum or recent corpus luteum; n = 10 cows/stage). Both oviducts were flushed with 1 mL of sterile TCM-199, and oviductal flushes (OF) were aliquoted and stored at –80°C. Abattoir-derived bovine ovaries were aspirated and cumulus‐oocyte complexes (COC) with at least 3 cumulus layers and homogeneous oocyte cytoplasm were in vitro matured for 22 h in standard maturation medium (control group, n = 319) or in standard medium with 2× concentrated additives supplemented (50% v/v) with pre-ov OF (n = 255) or post-ov OF (n = 248). After in vitro maturation (IVM), subgroups of COC were denuded, and the time of digestion of the ZP by pronase 0.1% (v/v in TCM-199) was determined to evaluate ZP hardening. After IVM, COC were fertilised in vitro for 18–20 h at a final concentration of 1.106 million spermatozoa (spz)/mL. After in vitro fertilization (IVF), COC were denuded, washed twice and cultured for 8 days more under standard conditions. After IVM, IVF, and embryo culture, oocytes/embryos were fixed with ethanol, stained with Hoescht, and examined under fluorescence microscopy for determination of (1) maturation and developmental stages, (2) numbers of fertilised and polyspermic oocytes, and (3) spz bound to the ZP. Percentages were compared between groups by chi-square. Times of ZP digestion were compared by Kruskal‐Wallis test. Numbers of spz bound to the ZP were compared by ANOVA on normalised data followed by Newman-Keuls tests. Data are presented as mean ± SEM. A P < 0.05 was considered significant. Addition of OF during IVM had no effect on maturation rates compared with the control. However, the digestion time of the ZP by pronase was reduced after IVM with pre-ov OF (313 ± 21 s; n = 26) compared with post-ov OF (459 ± 23 s; n = 23) but not with the control (416 ± 30 s; n = 25). After IVF, the number of spermatozoa bound to the ZP was increased after IVM with pre-ov OF (57 ± 5 spz/oocyte; n = 67) and decreased after IVM with post-ov OF (34 ± 3 spz/oocyte; n = 76) compared with the control (42 ± 5 spz/oocyte; n = 60). Addition of OF during IVM had no effect on rates of IVF and polyspermia. However, the rate of development to the blastocyst stage was less after IVM with post-ov OF (10%, n = 97 cleaved oocytes) compared with control (24%, n = 130) and pre-ov OF (29%, n = 101). In conclusion, the OF collected before ovulation decreased the resistance of the ZP to protease digestion and increased its ability to bind spz, whereas it was the opposite for the post-ov OF. Furthermore, the post-ov OF decreased the developmental competence of fertilised oocytes.

224 LOCALIZATION OF NITRIC OXIDE SYNTHASE ACTIVITY IN BUFFALO (BUBALUS BUBALIS) OOCYTES AND EMBRYOS

2011 ◽  
Vol 23 (1) ◽  
pp. 211
Author(s):  
K. R. Babu ◽  
R. Sharma ◽  
K. P. Singh ◽  
A. George ◽  
M. S. Chauhan ◽  
...  
Keyword(s):  
Nitric Oxide ◽  
Embryo Development ◽  
In Vitro Maturation ◽  
Cumulus Cells ◽  
Epifluorescence Microscopy ◽  
Rt Pcr ◽  
Cell Stage ◽  
Vitro Fertilization ◽  
Nos Isoforms

Ovarian nitric oxide (NO) and that produced within the oocytes and embryos have been reported to play important roles in oocyte meiotic maturation and embryo development. Production of NO is catalyzed by NO synthase (NOS), which exists in 3 isoforms, the constitutive endothelial (eNOS) and neuronal (nNOS) isoforms and the inducible (iNOS) isoform. We have previously shown that low concentrations of NO stimulate and high concentrations inhibit embryo development, and that endogenous NO produced by iNOS is necessary for optimal embryo development in the buffalo. The present study was aimed at localizing different isoforms of NOS and examining their relative mRNA abundance in buffalo oocytes and embryos. Oocytes from slaughterhouse ovaries were subjected to in vitro maturation in 100-μL droplets (10 to 15 oocytes/droplet) of in vitro maturation medium (TCM-199 + 10% FBS + 5 μg mL–1 of pFSH + 1 μg mL–1 of oestradiol-17β + 0.81 mM sodium pyruvate + 10% buffalo follicular fluid + 50 μg mL–1 of gentamicin) for 24 h in a CO2 incubator (5% CO2 in air) at 38.5°C. In vitro fertilization was carried out by incubating in vitro-matured oocytes with 2 to 4 million spermatozoa mL–1 for 18 h. The presumed zygotes were cultured on original beds of cumulus cells in in vitro culture medium (mCR2aa + 0.6% BSA + 10% FBS) for up to 8 days post-insemination. Immature and in vitro-matured oocytes and embryos at the 2-cell, 4-cell, 8- to 16-cell, morula, and blastocyst stages were examined for the presence of NOS isoforms by indirect immunofluorescence staining using epifluorescence microscopy and RT-PCR. Each experiment was repeated in triplicate, and data were analysed using one-way ANOVA, after arcsine transformation of percentage values. Expression of all 3 NOS isoforms was detected inside the cytoplasm, in all the stages of oocytes and embryos examined, by both immunofluorescence and RT-PCR. Abundance of the iNOS transcript was significantly higher (P ≤ 0.01) in the morula and blastocyst stages compared with that in immature and in vitro-matured oocytes and in embryos at the 2-cell, 4-cell, and 8- to 16-cell stages, indicating that its expression was up-regulated at the 8- to 16-cell stage. The expression of eNOS was significantly higher (P ≤ 0.05) in the immature and mature oocytes and in 8- to 16-cell stage embryos, morulae, and blastocysts than in the early-cleavage embryos at the 2- and 4-cell stages, indicating that it was down-regulated after fertilization and was up-regulated again at the 8- to 16-cell stage. Abundance of the nNOS transcript was not significantly different among all the stages of oocytes and embryos examined. These results demonstrate that different NOS isoforms are expressed in a dynamic manner during embryonic development in the buffalo. The role of an increase in expression of iNOS and eNOS at the 8- to 16-cell stage, at which a developmental block occurs in this species, needs to be examined.

197 DOES DURATION OF BOVINE OOCYTE MATURATION IN VITRO AFFECT THE SPEED OF EMBRYO DEVELOPMENT IN VITRO AND SEX RATIO AT THE TWO-CELL OR BLASTOCYST STAGE?

2008 ◽  
Vol 20 (1) ◽  
pp. 177
Author(s):  
P. Bermejo-Álvarez ◽  
A. Gutiérrez-Adán ◽  
P. Lonergan ◽  
D. Rizos
Keyword(s):  
Sex Ratio ◽  
Embryo Development ◽  
Blastocyst Stage ◽  
Early Embryo ◽  
Blastocyst Development ◽  
Maturation In Vitro ◽  
Maturational Stage ◽  
Development In Vitro ◽  
Oviduct Fluid

The faster-developing blastocysts in IVC systems are generally considered more viable and better able to survive following cryopreservation or embryo transfer than those that develop more slowly. However, evidence from several species indicates that embryos that reach the blastocyst stage earliest are more likely to be males than females. The aim of this study was to determine whether the duration of maturation could affect early embryo development and, furthermore, the sex ratio of early- or late-cleaved embryos and blastocysts. Cumulus–oocyte complexes were matured in vitro for 16 h (n = 2198) or 24 h (n = 2204). Following IVF, presumptive zygotes from each group were examined every 4 h between 24 and 48 h postinsemination (hpi) for cleavage, and all embryos were cultured to Day 8 in synthetic oviduct fluid to assess blastocyst development. Two-cell embryos at each time point and blastocysts on Days 6, 7, and 8 from both groups were snap-frozen individually for sexing. Sexing was performed with a single PCR using a specific primer BRY. There was a significantly lower number of cleaved embryos from the 16-h compared with the 24-h maturation group at 28 (10.0 � 1.51 v. 28.8 � 3.57%), 32 (35.3 � 1.48 v. 57.6 � 3.33%), 36 (54.8 � 1.76 v. 67.4 � 2.81%), 40 (63.3 � 1.82 v. 72.0 � 2.54%), and 48 (70.6 � 1.78 v. 77.1 � 2.18%) hpi, respectively (mean � SEM; P d 0.05). However, the blastocyst yields on Day 6 (17.1 � 3.11 v. 16.4 � 2.11%), 7 (30.6 � 4.10 v. 34.6 � 3.51%), or 8 (34.1 � 3.90 v. 39.4 � 4.26%) were similar for both groups (mean � SEM; 16 v. 24 h, respectively). Significantly more 2-cell early cleaved embryos (up to 32 hpi) were male compared with the expected 1:1 ratio from both groups (16 h: 1.24:0.76 v. 24 h: 1.17:0.83, P ≤ 0.05); however, the overall sex ratio among 2-cell embryos was significantly different from the expected 1:1 in favor of males only for the 16-h group (1.18:0.82, P ≤ 0.05). The sex ratio of blastocysts on Day 6, 7, or 8 from both groups was not different from the expected 1:1. However, the total number of male blastocysts obtained after 8 days of culture from the 24-h group was significantly different from the expected 1:1 (1.19:0.81, P ≤ 0.05) and approached significance in the 16-h group. These results show that the maturational stage of the oocyte at the time of fertilization has an effect on the kinetics of early cleavage divisions but not on blastocyst yield. Furthermore, irrespective of the duration of maturation, the sex ratio of early-cleaving 2-cell embryos was weighted in favor of males, and this observation was maintained at the blastocyst stage.

168 INHIBITION OF BOVINE OOCYTE CUMULUS CELL PROGESTERONE SYNTHESIS DURING IN VITRO MATURATION AFFECTS CHROMOSOME ALIGNMENT AND SPINDLE INTEGRITY IN FERTILIZED EGGS AND EARLY EMBRYOS

2014 ◽  
Vol 26 (1) ◽  
pp. 198
Author(s):  
E. Daly ◽  
A. G. Fahey ◽  
M. M. Herlihy ◽  
T. Fair
Keyword(s):  
Embryo Development ◽  
Cumulus Cell ◽  
Cumulus Cells ◽  
Early Embryo ◽  
Developmental Competence ◽  
Bovine Oocyte ◽  
Spindle Formation ◽  
Vitro Fertilization ◽  
Time Treatment

We have previously demonstrated the importance of progesterone (P4) synthesis by cumulus cells during oocyte maturation in vitro (IVM) for bovine oocyte acquisition of developmental competence and subsequent embryo development (Aparicio et al. 2011 Biol. Reprod. 84). The aim of this study was to identify key processes that may be deregulated by the inhibition of P4 signalling in the cumulus–oocyte complex (COC) during IVM. To this end, good quality immature COC were placed in IVM medium [TCM-199 supplemented with 10% (vol/vol) FCS and 10 ng mL–1 epidermal growth factor] and cultured at 39°C for 22 h in a humidified atmosphere containing 5% CO2, in the presence or absence of 10 μM trilostane (which blocks P4 synthesis by inhibiting 3 β-hydroxysteroid dehydrogenase; Stegram Pharmaceuticals Ltd., Surrey, UK). Matured COC were washed and placed in 250 μL of fertilization medium (25 mM bicarbonate, 22 mM Na-lactate, 1 mM Na-pyruvate, 6 mg mL–1 fatty acid-free BSA, and 10 mg mL–1 heparin). In vitro fertilization (IVF) was performed with 250 μL of frozen–thawed semen at a final concentration of 1 × 106 spermatozoa mL–1 at 39°C under 5% CO2 during 20 h. Presumptive zygotes were denuded, washed, and transferred to 25-μL culture droplets (SOF + 5% FCS) at 39°C under 5% CO2, 90% of N2, and 5% O2 atmosphere with maximum humidity. Subsets of presumptive fertilized eggs and developing embryos were recovered at 6, 72, 120, and 192 h postinsemination (hpi) and processed for confocal whole-mount immunocytochemistry. The meiotic and mitotic spindles and chromosomes were visualised by immunofluorescent labelling of α-tubulin and 4′,6-diamindino-2-phenylindole (DAPI), respectively, and classified as normal if the chromosomes were correctly aligned or appropriately segregated, or abnormal if lagging chromosomes or abnormal chromosome segregation were observed. Samples were collected from 5 replicates (n = 50 zygotes/embryos per treatment, per timepoint) and a total of 157 spindles were observed. Logistic regression analysis was conducted to determine the probability of abnormal spindle formation. The incidence of spindle abnormality was regressed on time, treatment, and treatment by time. For all time points, there was significant reduction in the odds of abnormal spindle formation in control samples versus trilostane-treated samples (P < 0.001). In conclusion, our data imply a role for P4 signalling in maintaining spindle integrity during oocyte meiotic maturation and progression through the initial mitotic divisions of early embryo development in cattle.

45 THE EFFECT OF MEIOTIC STAGE OF BOVINE OOCYTES ON THE SURVIVAL OF VITRIFIED CUMULUS–OOCYTE COMPLEXES

2012 ◽  
Vol 24 (1) ◽  
pp. 135 ◽  
Author(s):  
J. R. Prentice ◽  
J. Singh ◽  
M. Anzar
Keyword(s):  
Embryo Development ◽  
Culture System ◽  
In Vitro Maturation ◽  
Germinal Vesicle ◽  
Early Embryo ◽  
Time Intervals ◽  
Early Embryo Development ◽  
In Vitro Culture System ◽  
Bovine Oocytes

Vitrification is a rapid freezing method in which cells/tissues are frozen in a glass state without ice crystal formation. However, vitrification of bovine oocytes is challenging due to their complex structure and sensitivity to chilling. Oocytes at the germinal vesicle (GV) stage of maturation are thought to be less prone to chromosomal and microtubular damage during cryopreservation because no spindle is present and genetic material is contained within the nucleus. However, immature oocytes are thought to be more sensitive to osmotic stress and have lower cell membrane stability than mature, metaphase II (MII) stage oocytes. The present studies aimed to validate the in vitro culture system used in our laboratory and to evaluate the effect of vitrification of bovine cumulus-oocyte complexes (COC) at different meiotic stages on their in vitro maturation (IVM), cleavage and early embryo development. Analyses were conducted on each dataset with PROC GLIMMIX in SAS using binary distribution (for yes/no response variable) and considering replicate as a random factor. In Experiment 1, meiotic progression of oocytes was evaluated at different time intervals during IVM. The following COC stages were predominantly found at different IVM time intervals: GV (89%) at 0 h, GV (47%) and germinal vesicle breakdown (GVBD; 44%) at 6 h, metaphase I (MI; 90%) at 12 h and MII (84%) at 22 h (n > 62 oocytes at each time group). In Experiment 2, bovine COC at 0, 6, 12 and 22 h of IVM were exposed to vitrification solution (15% dimethyl sulfoxide + 15% ethylene glycol + 0.5 M sucrose + 20% CS in TCM-199), loaded onto a cryotop device and vitrified by plunging in liquid nitrogen. Following warming (1 min in 0.5 M sucrose + 20% CS in TCM-199), COC completed 22 h of IVM and the nuclear stage was evaluated with lamin A/C-4′6-diamidino-2-phenylindole staining. Upon completion of 22 h of IVM, 23, 23, 35 and 89% of oocytes from 0-, 6-, 12- and 22-h groups, respectively were detected at MII (P < 0.0001). In Experiment 3, cleavage and embryo development of oocytes vitrified at 0, 12 and 22 h of IVM were evaluated. The cleavage rate did not differ among vitrification groups (i.e. 14% at 0 h, 17% at 12 h and 14% at 22 h; P = 0.825). Cleavage and blastocyst rates were higher (P < 0.0001) in the non-vitrified (control) group than in vitrified groups (i.e. 73 vs 15% and 22 vs 0.3%, respectively). In conclusion, the maturation kinetics validated our in vitro culture system and vitrification adversely affected the ability of bovine oocytes to undergo in vitro maturation to the MII stage, in vitro fertilization and early embryo development. Vitrification of oocytes at GV, MI and MII stages of nuclear maturation did not differ in their subsequent survivability. This study was supported by the Canadian Animal Genetic Resources Program, Agriculture and Agri-Food Canada.

160 Exposure to Cadmium Affects Oocyte and Embryo Competence in Cattle

2018 ◽  
Vol 30 (1) ◽  
pp. 219
Author(s):  
C. De Canditiis ◽  
N. Pagano ◽  
V. Franco ◽  
I. Paradiso ◽  
É. C. Dos Santos ◽  
...  
Keyword(s):  
Embryo Development ◽  
Cumulus Cells ◽  
Early Embryo ◽  
Dapi Staining ◽  
Vitro Fertilization ◽  
Nuclear Maturation ◽  
Significant Difference ◽  
Vitro Model ◽  
Hoechst Staining

There is a growing worldwide concern regarding the increased release of the heavy metal cadmium (Cd) in the environment, due to several industrial processes, as it is known to affect health. Among other heavy metals, Cd is widely recognised to influence the reproductive system at different levels, interfering with both gametes and embryo functions in several species (Thompson and Bannigan, 2008 Reprod. Toxicol. 25, 304-315). The in vitro model can be used to mimic environmental conditions allowing us to evaluate their effect on oocyte maturation and early embryo development. Therefore, the aim of this study was to evaluate the influence of different Cd concentrations on nuclear maturation, apoptosis in cumulus cells, and cleavage and blastocyst yields in cattle. For this purpose, abattoir-derived bovine oocytes were in vitro matured, fertilized, and cultured according to standard procedures (Rubessa et al. 2011 Theriogenology 76, 1347-1355). In particular, oocytes were matured with 0 (control; n = 126), 0.1 μM (n = 139), 1 μM (n = 134), and 10 μM of Cd (n = 135), at 39°C under humidified air with 5% CO2, 7% O2, and 88% N2. For each replicate, after 22 h of maturation, a representative sample of oocytes (n = 10 per each group) was used to evaluate nuclear maturation by 4′,6-diamidino-2-phenylindole (DAPI) staining and another sample (n = 10 per each group) to assess cumulus-cells complex apoptosis by TUNEL/Hoechst staining (Pocar et al. 2005 Reproduction 130, 857-868). The remaining oocytes were in vitro fertilized and cultured with 0 (n = 106), 0.1 μM (n = 119), 1 μM (n = 114), and 10 μM (n = 115) Cd. The experiment was repeated 3 times. On Day 8 post-IVF, the blastocyst yields were recorded. Differences among groups were analysed by ANOVA, with the least significant difference method used as a post hoc test. Data are presented as means ± SE. Unexpectedly, the exposure of oocytes to Cd during IVM did not affect the percentage of oocytes undergoing nuclear maturation (on average 96.3 ± 2.3). In contrast, concentrations of 1 and 10 μM Cd increased the percentage of apoptotic cumulus-cells in cumulus–oocyte complexes (COC) compared with the control (3.4 ± 0.4, 10.6 ± 1.8, 15.0 ± 0.9, 16.7 ± 4.0, respectively, with 0, 0.1, 1, and 10 μM; P < 0.05). It is worth pointing out that with the highest concentration, cumulus expansion did not occur and cumulus cells appeared detached from the oocyte. Likewise, 1 and 10 μM Cd decreased cleavage rates compared with the control (68.7 ± 1.8, 54.3 ± 5.0, 58.5 ± 4.2 and 2.8 ± 2.6, respectively, with 0, 0.1, 1, and 10 μM Cd; P < 0.01). Finally, blastocyst yields decreased when oocytes were treated with 0.1 μM Cd and no development to blastocyst was observed at the 2 higher concentrations (35.1 ± 1.7, 26.2 ± 3.1, 0, 0, respectively, with 0, 0.1, 1, and 10 μM; P < 0.01). In conclusion, exposure to Cd during maturation negatively affects bovine COC, as indicated by the increased apoptotic index in cumulus cells, without influencing the nuclear maturation process. Furthermore, the presence of Cd during in vitro fertilization and culture severely impairs both the fertilization and post-fertilization embryo development.

The sperm phospholipase C-ζ and Ca2+ signalling at fertilization in mammals

2016 ◽  
Vol 44 (1) ◽  
pp. 267-272 ◽  
Author(s):  
Karl Swann ◽  
F. Anthony Lai
Keyword(s):  
Phospholipase C ◽  
Embryo Development ◽  
Early Embryo ◽  
Egg Activation ◽  
Stable Form ◽  
Ph Domain ◽  
Vitro Fertilization ◽  
Sperm Factor ◽  
Internal Sources

A series of intracellular oscillations in the free cytosolic Ca2+ concentration is responsible for activating mammalian eggs at fertilization, thus initiating embryo development. It has been proposed that the sperm causes these Ca2+ oscillations after membrane fusion by delivering a soluble protein into the egg cytoplasm. We previously identified sperm-specific phospholipase C (PLC)-ζ as a protein that can trigger the same pattern of Ca2+ oscillations in eggs seen at fertilization. PLCζ appears to be the elusive sperm factor mediating egg activation in mammals. It has potential therapeutic use in infertility treatments to improve the rate of egg activation and early embryo development after intra-cytoplasmic sperm injection. A stable form of recombinant human PLCζ could be a prototype for use in such in vitro fertilization (IVF) treatments. We do not yet understand exactly how PLCζ causes inositol 1,4,5-trisphosphate (InsP3) production in eggs. Sperm PLCζ is distinct among mammalian PI-specific PLCs in that it is far more potent in triggering Ca2+ oscillations in eggs than other PLCs, but it lacks a PH domain that would otherwise be considered essential for binding to the phosphatidylinositol 4,5-bisphosphate (PIP2) substrate. PLCζ is also unusual in that it does not appear to interact with or hydrolyse plasma membrane PIP2. We consider how other regions of PLCζ may mediate its binding to PIP2 in eggs and how interaction of PLCζ with egg-specific factors could enable the hydrolysis of internal sources of PIP2.

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