scholarly journals Cryopreservation of in vitro-produced bovine embryos by vitrification: In pursuit of a simplified, standardized procedure that improves pregnancy rates to promote cattle industry use

2020 ◽  
Vol 36 (3) ◽  
pp. 251-270
Author(s):  
Van Do ◽  
Andrew Taylor-Robinson
Keyword(s):  
Slow Rate ◽  
Survival Rates ◽  
Slow Freezing ◽  
Embryo Cryopreservation ◽  
Human Embryos ◽  
Bovine Embryo ◽  
Bovine Embryos ◽  
Cattle Industry

The goal of cryopreservation is to retain the original stage of gametes and embryos after they have endured cooling and warming. Slow freezing is a standard method for in vivo-derived bovine embryo cryopreservation, threefifths of such embryos being frozen by this method globally. However, it is evident that slow freezing is not efficient for cryopreserving in vitro-produced bovine embryos. Hence, only one-third of in vitro-produced bovine embryos are cryopreserved. Vitrification is a preferred method for storage of human embryos; consequently, it has been explored as a novel means to store in vitro-produced bovine embryos, for which it shows considerable promise as an alternative to slow freezing. This is due to several reasons: vitrification is often less time-consuming than slow freezing; it does not need expensive slow rate freezing machines; and it has been proven to have comparatively higher survival rates. Yet, in the cattle industry vitrification continues to present shortcomings, such as possible toxicity of vitrification solutions and failure to standardize methods, which pose a challenge for its application to in vitro-produced bovine embryos. Therefore, determining the most suitable procedure is crucial to make vitrification more practical in commercial settings.

40 IN VITRO SURVIVAL RATES OF IN VIVO- AND IN VITRO-PRODUCED BOVINE EMBRYOS CRYOPRESERVED BY SLOW CONTROLLED FREEZING OR VITRIFICATION

2012 ◽  
Vol 24 (1) ◽  
pp. 132 ◽  
Author(s):  
P. Rodriguez Villamil ◽  
D. Lozano ◽  
G. A. Bó
Keyword(s):  
Solid Surface ◽  
Survival Rates ◽  
Slow Freezing ◽  
Embryo Cryopreservation ◽  
Bovine Embryos ◽  
Controlled Freezing ◽  
In Vitro Survival ◽  
Hatching Rates

Although slow programmable freezing is currently the standard method for bovine embryo cryopreservation, vitrification has become an alternative for in vitro-produced embryos. A study was designed to compare the in vitro survival rates of in vivo- and in vitro-produced bovine embryos with 1 of 2 commercially available methods of cryopreservation: slow freezing and solid surface vitrification. In vivo-produced Grade 1 blastocysts (n = 210) collected from superovulated donor cows 7 days post-insemination and in vitro-produced Grade 1 blastocysts (n = 122) from slaughterhouse oocytes, produced with the procedure described by Chaubal et al. (2007 Theriogenology 67, 719–728) were randomly allocated in 2 groups. Group 1 (slow freezing) embryos were exposed to 1.5 M ethylene glycol (ViGro EG; Bioniche Animal Health USA Inc., Pullman, WA, USA) for 5 min and loaded in 0.25-mL plastic straws. The straws were placed in a Freeze Control CL 5500 freezer (CryoLogic, Victoria, Australia) at –6.5°C, seeded and after 10 min of equilibration, cooled at –0.6°C min–1 until –CE°C, before plunging into liquid nitrogen. Group B (vitrification) embryos were exposed to a AE% EG+0.BEM trehalose solution for A min and then into C0% EG+AM trehalose solution for C0 sec at room temperature to be vitrified using the CVM system (CryoLogic). The CVM used a cryohook and the solutions with the embryos are exposed to a metal solid surface cooled at –AIF°C. The vitrification solution was chosen after a toxicity test in which several EG and trehalose combinations were tested (Rodriguez Villamil et al. Ith IRAC Symposium, Argentina B0AA). After at least 1 wk of storage, embryos in the slow freezing groups were thawed in water bath at C0°C for AB s, placed in holding medium for E min and then cultured in SOF. Vitrified embryos were placed directly in a 0.BE M sucrose solution for E min (at CG°C) and then cultured in SOF medium. Re-expansion and hatching rates were evaluated at BD and GB h, respectively. Data was analyzed by nonparametric tests with type of embryo and cryopreservation procedure as main effects, using the software Infostat (UNC, Argentina, B0A0). In vivo-produced embryos had higher (P < 0.0A) re-expansion (AGI/BB0, HA% vs FI/ABB, EF%) and hatching rates (AEI/BB0, GB% vs EC/ABB, DC%) than in vitro-produced embryos, regardless of cryopreservation method. However, re-expansion (DE/FC, GA%) and hatching (CI/FC, FB%) rates were higher (P < 0.0A) with in vitro-produced vitrified embryos than in vitro-produced embryos in the slow freezing group (re-expansion: BD/EI, D0% and hatching: AD/EI, BD%). Although similar re-expansion rates (IC/AA0, HE% vs HF/A00, HF%) were obtained with in vivo- produced embryos cryopreserved by the 2 systems, hatching rates tended to be lower (P = 0.0I) with in vivo-produced embryos that were vitrified compared with slow freezing (GH/AA0, GA% vs HA/AA0, HA%). In conclusion, solid surface vitrification improved the cryosurvival rates of in vitro-produced embryos compared with the conventional slow, controlled freezing procedure.

70 ONE-STEP CRYOPROTECTANT DILUTION FOLLOWING VITRIFICATION OF IN VITRO-PRODUCED BOVINE EMBRYOS

2013 ◽  
Vol 25 (1) ◽  
pp. 182
Author(s):  
R. Morató ◽  
T. Mogas
Keyword(s):  
Embryo Transfer ◽  
Statistical Significance ◽  
Survival Rates ◽  
Blastocyst Stage ◽  
Slow Freezing ◽  
Embryo Cryopreservation ◽  
Dilution Method ◽  
Bovine Embryo ◽  
One Step

Although slow freezing continues to be the most widely used technique of cryopreservation for bovine in vivo- and in vitro-produced embryos, vitrification has been tested in different species with good results, especially when dealing with in vitro-produced embryos. Vitrification represents a minor expense in time and equipment associated with cryopreservation compared with conventional slow freezing. However, vitrification, which is the most common method for human embryo cryopreservation, has not been widely adopted by embryo-transfer practitioners for commercial use in cattle. In general, vitrification requires gradual cryoprotectant dilution in a laboratory setting, and it is difficult to perform in the field. The objective of this study was to develop a one-step dilution method suitable for one-step bovine embryo transfer using the cryotop vitrification method. Embryos produced in vitro by standard procedures were vitrified at the blastocyst stage at Day 7 post-insemination in a mixture of 15% ethylene glycol + 15% dimethyl sulfoxide + 0.5 M sucrose using cryotop devices. Embryos were randomly assigned to 1 of 3 warming methods: (1) W3: warming was carried out following the cryotop method (1 M sucrose for 1 min, 0.5 M sucrose for 3 min, and 0 M sucrose for 6 min); (2) W1/0.5: embryos were warmed directly in 0.5 M sucrose for 3 min; and (3) W1/0: embryos were warmed directly in 0 M sucrose for 5 min. Survival rates were assessed in terms of blastocyst re-expansion, hatching, and hatched status at 3 and 24 h after warming. Data were analyzed using the statistical analysis systems package (SAS, v9.1). Data from at least 3 replicates were collected. Comparisons of vitrified–warmed blastocyst survival rates between groups were performed using the chi-squared test. The level of statistical significance was set at P < 0.05. When embryo survival was evaluated at 3 h postwarming, embryos warmed using the 3-step dilution protocol and those warmed directly in 0.5 M sucrose showed higher percentages of survival (W3: 89.8%, n = 98; W1/0.5: 87.5%, n = 64; P < 0.05) than those blastocysts that were warmed directly in 0 M sucrose (W1/0: 66.4%, n = 146). However, similar rates irrespective of the warming procedure were observed at 24 h postwarming (W3: 85.7%, W1/0.5: 88.2%, W1/0: 70.5%). Warmed in vitro-produced embryos exposed to W3 (47.6%) and W1/0.5 (35.6%) achieved higher percentages of embryos developing to the hatched blastocyst stage after 24 h of culture than those embryos warmed in W1/0 (20.4%; P < 0.05). Our results indicate that direct warming and dilution of cyotop-vitrified embryos in 0.5 M sucrose for 3 min may enable one-step bovine embryo transfer without requirement of a microscope or other laboratory equipment, simplifying the embryo-transfer procedure of vitrified embryos on farm at the same level of complexity as carrying out AI. Support came from Spanish MEC (RZ2010-00015-0-00; AGL2010-19069) and Generalitat de Catalunya (2009 SGR 621).

44 IN VITRO AND IN VIVO SURVIVABILITY ON VITRIFIED EMBRYOS OBTAINED BY BOVINE SOMATIC CELL NUCLEAR TRANSFER

2006 ◽  
Vol 18 (2) ◽  
pp. 131
Author(s):  
K. Kaneyama ◽  
S. Kobayashi ◽  
S. Matoba ◽  
Y. Hashiyada ◽  
K. Imai ◽  
...  
Keyword(s):  
Somatic Cell ◽  
Somatic Cell Nuclear Transfer ◽  
Nuclear Transfer ◽  
Survival Rates ◽  
Calf Serum ◽  
Cumulus Cells ◽  
Nuclear Transplantation ◽  
Embryo Cryopreservation

Although many studies have been conducted on somatic cell nuclear transfer, there are only a few reports on cryopreservation of reconstructed embryos after nuclear transplantation. The objective of this study was to examine in vitro or in vivo development of vitrified blastocysts obtained by nuclear transfer. Nuclear transfer was carried out according to the procedure of Goto et al. (1999 Anim. Sci. J. 70, 243–245), and conducted using abattoir-derived oocytes and cumulus cells derived by ovum pickup from Holstein and Japanese Black cows. Embryos were vitrified as described by Saito et al. (1998 Cryobiol. Cryotech. 43, 34–39). The vitrification solution (GESX solution) was based on Dulbecco's PBS containing 20% glycerol (GL), 20% ethylene glycol (EG), 0.3 M sucrose (Suc), 0.3 M xylose (Xyl), and 3% polyethylene glycol (PEG). The blastocysts were equilibrated in three steps, with 10% GL, 0.1 M Suc, 0.1 M Xyl, and 1% PEG for 5 min (1); with 10% GL, 10% EG, 0.2 M Suc, 0.2 M Xyl, and 2% PEG for 5 min (2) and GESX solution (3). After transfer to GESX, equilibrated embryos were loaded to 0.25-mL straws and plunged into liquid nitrogen for 1 min. The vitrified blastocysts were warmed in water (20°C) and diluted in 0.5 M and 0.25 M sucrose for 5 min each. Equilibration and dilution procedures were conducted at room temperature (25–26°C). After dilution, the vitrified blastocysts were cultured in TCM-199 supplemented with 20% fetal calf serum and 0.1 mM β-mercaptoethanol at 38.5°C under gas phase of 5% CO2 in air. In Experiment 1, survival rates after vitrification were compared between the nuclear transfer and the IVF blastocysts. Survival rates of vitrified nuclear transfer blastocysts (n = 60, Day 8) at 24 and 48 h were 70.0% and 56.7%, respectively, and those of vitrified IVF blastocysts (n = 41) were 82.9% and 82.9%, respectively. There were no significant differences in survival rates at 24 and 48 h between the two groups. In Experiment 2, one (VIT-single) or two (VIT-double) vitrified and one (nonVIT-single) or two (nonVIT-double) nonvitrified reconstructed blastocysts per animal were transferred into Holstein dry cows. The result of Experiment 2 is shown in Table 1. This experiment demonstrated that the vitrification method in this study can be used for cloned embryo cryopreservation but the production rate should be improved. Table 1. Comparison of survival rates of vitrified or nonvitrified cloned embryos after transfer

193 IMPROVED POST-THAW SURVIVAL OF BOVINE EMBRYOS PRODUCED IN SERUM-FREE IN VITRO PRODUCTION SYSTEM

2016 ◽  
Vol 28 (2) ◽  
pp. 227
Author(s):  
M. Nõmm ◽  
E. Mark ◽  
O. Sarv ◽  
S. Kõks ◽  
Ü. Jaakma
Keyword(s):  
Survival Rates ◽  
Slow Freezing ◽  
In Vitro Fertilisation ◽  
Ministry Of Education ◽  
In Vitro Production ◽  
Freezing And Thawing ◽  
Embryo Survival ◽  
Serum Free

Over a few decades the bovine in vitro embryo production (IVP) systems have been improving rapidly. Still, the goal to produce the same quality embryos in vitro as in vivo has not yet been reached. The FCS is usually added to media during IVP to provide growth factors and energy sources. Currently, serum-free culture systems are often preferred due to the lower risk of contamination and prevention of the development of large offspring syndrome. The aim of this study was to establish whether complete elimination of FCS from the bovine IVP system has an effect on blastocyst rates, embryo quality, and embryo survival rates after slow freezing. We replaced our conventional in vitro maturation (IVM) medium [tissue culture medium-199, 10% (v/v) FCS, 10 µg mL–1 epidermal growth factor (EGF), 1500 U mL–1 serum gonadotropin and chorionic gonadotropin (PG600), Na-pyruvate 0.5 mM, gentamycin sulfate 50 µg mL–1 and l-glutamine 1 mM] with SOF (SOFaaci) supplemented with 0.4% fatty acid-free BSA fraction V, 10 µg mL–1 EGF, and 1500 U mL–1 PG600. Matured cumulus-oocyte complexes (COC) from both experimental groups (total of 1145 from serum-free IVP and 687 from our conventional IVP system) were used for in vitro fertilisation and culture. Blastocyst rates were similar in the serum-free and our usual IVP protocol, 18 and 22%, respectively. Seventy-seven Grade 1 (according to IETS) Day 7 blastocysts from the serum-free IVP system and 80 Grade 1 Day 7 blastocysts from our conventional IVP system were frozen in 1.5 M ethylene glycol and 0.1 M sucrose containing cryopreservation medium. The post-thaw survival rates after 24 h of culture and evaluated as percentages of re-expanded embryos were 63.6% for the serum-free IVP and 46.3% for the conventional IVP system (P < 0.05, Z Test for 2 population proportions). These results indicate that it is possible to have a completely serum-free bovine IVP system and based on the slow freezing and thawing results the quality of serum-free IVP embryos might be better than of the embryos matured in our conventional maturation media. However, more experiments and increased sample sizes are needed to confirm the results. This study was supported by Project 3.2.0701.12–0036 of Archimedes Foundation, AP 2.4 of CCRMB, and institutional research funding (IUT 08–01) of the Estonian Ministry of Education and Research.

scholarly journals Genetic influence on the reduction in bovine embryo lipid content by L-carnitine

2016 ◽  
Vol 28 (8) ◽  
pp. 1172 ◽  
Author(s):  
Luis Baldoceda ◽  
Dominic Gagné ◽  
Christina Ramires Ferreira ◽  
Claude Robert
Keyword(s):  
Lipid Content ◽  
Culture Medium ◽  
Cell Damage ◽  
Mitochondrial Activity ◽  
Bovine Embryo ◽  
Bovine Embryos ◽  
Intracellular Lipid ◽  
Embryo Culture Medium

The decreased rate of pregnancy obtained in cattle using frozen in vitro embryos compared with in vivo embryos has been associated with over-accumulation of intracellular lipid, which causes cell damage during cryopreservation. It is believed that the higher lipid content of blastomeres of bovine embryos produced in vitro results in darker-coloured cytoplasm, which could be a consequence of impaired mitochondrial function. In this study, l-carnitine was used as a treatment to reduce embryonic lipid content by increasing metabolism in cultured bovine embryos. We have observed previously that in vivo embryos of different dairy breeds collected from cows housed and fed under the same conditions differed in lipid content and metabolism. As such, breed effects between Holstein and Jersey were also examined in terms of general appearance, lipid composition, mitochondrial activity and gene expression. Adding l-carnitine to the embryo culture medium reduced the lipid content in both breeds due to increased mitochondrial activity. The response to l-carnitine was weaker in Jersey than in Holstein embryos. Our results thus show that genetics influence the response of bovine embryos to stimulation of mitochondrial metabolism.

scholarly journals 97 ASSESSMENT OF VIABILITY OF IN VITRO PRODUCED BOVINE EMBRYOS FOLLOWING VITRIFICATION BY CVM OR SLOW FREEZING WITH ETHYLENE GLYCOL AND TRIPLE TRANSFER

2005 ◽  
Vol 17 (2) ◽  
pp. 199 ◽  
Author(s):  
B. Peachey ◽  
K. Hartwich ◽  
K. Cockrem ◽  
A. Marsh ◽  
A. Pugh ◽  
...  
Keyword(s):  
Ethylene Glycol ◽  
Survival Rates ◽  
Slow Freezing ◽  
High Survival ◽  
Bovine Embryos ◽  
Embryo Survival ◽  
Frozen Embryos ◽  
Morula Stage ◽  
Fresh Embryos

Vitrification has become the method of choice for the preservation of in vitro derived embryos of a number of species, and several methods of vitrification have been developed. One such method, the cryoLogic vitrification method (CVM) yields high survival rates of warmed embryos (Lindemans W et al. 2004 Reprod. Fertil. Dev. 16, 174 abst). In this study, the post-warm viability of bovine IVP embryos following either vitrification using CVM or slow freezing using ethylene glycol (EG) was compared. In addition, the survival of embryos following triple transfer to synchronized recipients was measured and the embryo (“e”) and recipient (“r”) contributions to embryo survival was determined using the “er” model for embryo survival (McMillan WH et al. 1998 Theriogenology 50, 1053–1070). Bovine IVP methods were those of van Wagtendonk et al. 2004 Reprod. Fertil. Dev. 16, 214 (abst). On day 7 of culture (Day 0 = IVF), Grade 1 and 2 embryos that had reached at least the late morula stage were selected for vitrification (20% DMSO, 20% ethylene glycol) or freezing in 1.5 M ethylene glycol + 0.1 M sucrose (0.5°C/min to −35°C). Following storage in LN2 for at least 24 h the embryos were thawed, the cryoprotectant removed, and the embryos cultured for 72 h in mSOF medium under 5% CO2, 7% O2, 88% N2. The number of hatching embryos was recorded at 24-h intervals. In addition, blastocyst and expanded blastocyst embryos were thawed and immediately transferred nonsurgically to recipients (three embryos of the same grade to each recipient) on Day 7 of a synchronized cycle (Day 0 = heat). The recipients were ultrasound-scanned for the presence of, and number of, fetuses on Days 35 and 62, respectively. The invitro assessment of 148 CVM and 230 EG frozen embryos indicated that more vitrified than EG embryos hatched by 72 h (73% vs. 62%; CVM vs. EG, χ2 = 4.5, P < 0.05). Overall, more Grade 1 embryos hatched than Grade 2 (74% vs. 60%, χ2 = 7.2, P < 0.01). CVM embryos (105) were triple-transferred to 35 recipients, and EG embryos (30) were triple-transferred to 10 recipients. Recipient pregnancy rates at Day 62 were 80% and 70%, respectively. Overall embryo survival was 38.5% (41% for CVM and 30% for EG). The overall calculated “e” and “r” values were 0.39 and 1.0 (“e”: 0.42 and 1.0, and “r”: 0.31 and 1.0, respectively, CVM and EG groups). Survival rates of CVM embryos to Day 62 (41%) were slightly lower than that previously obtained for fresh embryos produced using an identical IVP procedure (44% – van Wagtendonk AM 2004).

51 ARTIFICIAL DORMANCY OF BOVINE EMBRYOS FOR A MAXIMUM OF 7 DAYS USING A SIMPLE MEDIUM

2014 ◽  
Vol 26 (1) ◽  
pp. 139 ◽  
Author(s):  
K. Tsuchiya ◽  
A. Ideta ◽  
Y. Nishimiya ◽  
S. Tsuda ◽  
Y. Aoyagi
Keyword(s):  
Pregnancy Rate ◽  
Storage Period ◽  
Bovine Embryo ◽  
Bovine Embryos ◽  
Hypothermic Preservation ◽  
Mammalian Embryos ◽  
Simple Medium ◽  
Hypothermic Storage

The worldwide pregnancy rate using cryopreserved mammalian embryos has not improved over the past 2 decades, probably because the freeze-thawing processes cause significant damage. Therefore, it is now relevant to examine the feasibility of short-term non-freezing preservation, and whether this could be applied to embryos that have high vitality and are to be transferred into recipients within several days. We introduce here an artificial dormancy fluid that can extend the hypothermic storage period of bovine embryos for a maximum of 7 days. First, to examine the effect of different basal media and the optimal concentration of fetal bovine serum (FBS) for hypothermic preservation, bovine blastocysts produced in vitro were stored at 4°C in a plastic ministraw in 1 of the following 3 media: PBS, medium 199, or Leibovitz L15 with various amount of FBS (0, 5, 20, 50, or 100%) for 3 days. Second, to examine the effect of Good's buffers, bovine embryos produced in vivo (morula to blastocyst stages) were stored at 4°C in a plastic ministraw in medium 199 plus 50% FBS supplemented with various Good's buffers [HEPES, TES, piperazine-N,N′-bis(2-ethanesulfonic acid) (PIPES), MOPS, and 4-(2-hydroxyethyl)piperazine-1-propanesulfonic acid (EPPS)] for 7 days. Following hypothermic preservation, the chilled embryos were squeezed out of the straw into PBS and washed 3 times in the same medium. Subsequently, the embryos were cultured in CR1aa medium supplemented with 5% FBS for 48 h at 38.5°C under 5% CO2 in air with high humidity. The viability rate of the embryos was assessed at the end of the culture period. Finally, to observe the pregnancy rate of chilled embryos, 32 embryos produced in vivo were stored at 4°C for 7 days in medium 199 plus 50% FBS supplemented with HEPES. Following hypothermic preservation, the chilled embryos were transferred into recipient heifers (1 embryo per recipient). Pregnancy was determined by real-time B-mode ultrasonography (Convex scanner HS-1500, Honda electronics Co. Ltd, Toyohashi, Japan) on Day 60 of gestation. Data were analysed using the chi-squared test. The viability rate of the embryos after hypothermic storage for 3 days was significantly increased for medium 199 plus 50% FBS [27/30 (90%)] compared with PBS [18/30 (60%)] or Leibovitz L15 [15/30 (50%)] plus 50% FBS (P < 0.05). Chilled embryos stored for 7 days in medium 199 plus 50% FBS supplemented with HEPES had much higher survival than embryos stored in the same medium with other Good's buffers. The pregnancy rate of the chilled embryos stored for 7 days was extremely high [24/32 (75%)] and normal live calves were delivered at term. In conclusion, maintaining artificial dormancy of bovine embryos for 7 days using a simple medium appears to be feasible. This is the first documented success of storing chilled mammalian embryos in a viable state for 7 days. To be of practical value, bovine embryo preservation at hypothermic temperatures must be able to maintain viability for periods longer than 7 days. This work was supported by the Program for Promotion of Basic and Applied Research for Innovations in Bio-Oriented Industry.

22 Vitrification of bovine embryo using antifreeze polyamino acid

2019 ◽  
Vol 31 (1) ◽  
pp. 137
Author(s):  
T. Fujikawa ◽  
Y. Gen ◽  
S.-H. Hyon ◽  
C. Kubota
Keyword(s):  
Ethylene Glycol ◽  
Survival Rates ◽  
Basal Medium ◽  
Blastocyst Stage ◽  
Bovine Embryo ◽  
Bovine Embryos ◽  
Chi Square ◽  
Embryo Survival ◽  
Polyamino Acid

Carboxylated poly-l-lysine (CPLL) is an ampholytic polymer compound and a polyamino acid with a known functional resemblance to antifreeze proteins. We previously reported that CPLL is an effective cryoprotectant for bovine cells, sperm, and slow-frozen embryos. In this study, we investigated CPLL as a cryoprotectant for vitrified bovine embryos. We developed bovine embryos in vitro and vitrified them at the blastocyst stage. Embryos were equilibrated (3min) and vitrified (1min). Vitrified embryos were cryopreserved in LN (Cryotop® device; Kitazato Corp., Tokyo, Japan) for at least 1 week, thawed with a 0.3M sucrose warming solution, and then cultured in a basal medium (Gibco® medium 199, Grand Island, NY, USA; supplemented with 100µM 2-mercaptoethanol, 10% fetal bovine serum, and antibiotics) at 38.5°C in a humidified atmosphere (5% CO2, 5% O2, 90% N2). We evaluated the embryos morphologically for survival and hatched rate at 0, 24, 48, and 72h post-thawing. In control, the equilibration solution (ES) consisted of 7.5% (vol/vol) dimethyl sulfoxide (DMSO) and 7.5% (vol/vol) ethylene glycol, and the vitrification solution (VS) consisted of 16.5% (vol/vol) DMSO and 16.5% (vol/vol) ethylene glycol and 0.5M sucrose. In this study, CPLL was added to ES and VS at various concentrations instead of DMSO. The CPLL was added at 16.5, 11.0, 5.5, and 2.2% (wt/vol) to VS; respectively, these solutions were named P16.5, P11.0, P5.5, and P2.2. The ES was used 45% CPLL of VS each. Embryos underwent the above procedure concurrently, with testing replicated at least 3 times. We evaluated 88, 34, 38, 44, and 28 embryos with each solution (control, P16.5, P11.0, P5.5, and P2.2, respectively). Results were analysed statistically with a chi-square test and residual analysis, regarding P&lt;0.05 as significant. Survival rates were significantly greater in P11.0 at 24h post-thawing (55.7% v. 89.5%; P&lt;0.05) and in P11.0 and P5.5 at 48h post-thawing (47.7% v. 78.9% and 47.7% v. 79.5%, respectively; P&lt;0.05) relative to controls but showed no significant differences at 0h post-thawing. Hatched rates were significantly greater in P11.0 and P5.5 through 72h post-thawing relative to controls (44.7% v. 22.7% and 52.3% v. 22.7%, respectively; P&lt;0.05). The CPLL improved post-thawing embryo survival and hatched rates when applied during vitrification, thus demonstrating cryoprotective effectiveness. We conclude that CPLL acts as a low-toxicity cryoprotectant for vitrified bovine embryos, and our results are consistent with previous reports of protective CPLL effects for cells and cell membranes.

scholarly journals Effects of supplementation with heat shock cognate 17 KDA protein (HSC70) on in vitro bovine embryo viability

2021 ◽  
Author(s):  
Aimé Jazmín Garza Arredondo ◽  
Diana Elisa Zamora Ávila ◽  
Uziel Castillo Velásquez ◽  
Gustavo Moreno Degollado ◽  
José Fernando De La Torre Sánchez ◽  
...  
Keyword(s):  
Heat Shock ◽  
Blastocyst Stage ◽  
Vital Role ◽  
Control Group ◽  
Bovine Embryo ◽  
Bovine Embryos ◽  
Embryo Viability ◽  
Stage Of Development

Abstract Endogenous heat shock cognate 71 kDa protein (HSC70) has a vital role in early embryonic development. This study assessed the effects of exogenous HSC70 on bovine embryo development and expression of genes associated with apoptosis. Expression analyses of HSPA1A, HSPA8, Bcl-2, and Bax genes were performed in bovine embryos in vivo on day 7 of development. Subsequently, expression of HSPA1A and HSPA8 were associated with apoptotic genes (Bcl-2 and Bax) in cultured bovine embryos in vitro that were supplemented with various concentrations (0 or control group, 50, and 100 ng) of HSC70. The results indicated that the control group (0 ng) in vitro embryos had higher expression of HSPA8, Bax, and Bcl-2 genes, compared with the vivo embryos (P < 0.01). In vitro-produced embryos supplemented with 50 ng or 100 ng HSC70 had higher expression of HSPA1A, HSC70, Bcl-2, and Bax genes, compared with the control group (P < 0.01). Embryos supplemented with 100 ng had greater expression of the HSPA8 gene compared with the control group and the group supplemented with 50 ng. However, embryos supplemented with 50 ng had better characteristics (i.e., stage of development and quality) than the control and 100-ng groups. In conclusion, supplementation of in vitro culture medium with HSC70 promoted development to the blastocyst stage and improved blastocyst quality.

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