Vitrification of In Vitro Produced Porcine Blastocysts: Influence of Cryoprotectants Toxicity and Embryo Age

Background: Porcine embryos are sensible to all assisted reproduction manipulations, especially the ones that involve cryopreservation. Despite the high cryoprotectant concentrations routinely applied, vitrification is the most effective technique to date. These substances toxicity can also play a negative role in embryo viability. During in vitro porcine embryo production, the speed of development is often unevenly distributed. It is possible that their development speed, affects embryo tolerance to cryoprotectants. This study aimed to evaluate the toxicity of porcine embryos of days 5 or 6 of culture to cryoprotectant agents; as well as to assess embryo survival to vitrification.Material, Methods & Results: Parthenogenetic porcine blastocysts and expanded blastocysts of days 5 and 6 of culture were exposed to toxicity tests (experiments 1 and 2) and vitrification (experiment 3) using different protocols. In the first experiment, three different cryoprotectants were used (Dimethyl sulfoxide - DMSO, Ethylene glycol – EG, and Sucrose - SUC), combined in three different associations (G1: 15% EG + 15% DMSO with 0.5M SUC; G2: 16% EG + 16% DMSO with 0.4M SUC; G3: 18% EG + 18% DMSO with 0.5M SUC). In the fresh Control, embryos of day 6 are more sensible than the ones of day 5, whom showed a lower hatching rate (39.7 vs. 60.8%). After the toxicity (Experiment 1) test, the G1 showed better expansion rates in day 6 (50.0 vs 31.0 and 3.6% for G2 and G3) and higher hatching of day 6 compared to G2 and G3 (23.2, vs. 8.6 and 0.0% for G2 and G3). The fresh non hatched embryos at day 8, derived at day 6, had a lower percentage of cells with cleaved caspase-3 (20.2%) compared with the G1 (30.5%), G2 (31.4%) and G3 (30.5%). The hatched embryos of day 5 from G2 had lower total cell number (TCN) compared with the day 6 hatched embryos, whereas in G1 the TCN was not affected. The second experiment compared EG combined to one of these three extracellular cryoprotectants: Polyvinylpyrrolidone/sucrose/trehalose (respectively groups: PVP, SUC, TRE). The group SUC has raised the best results for day 5 embryos, whereas for day 6 embryos SUC and TRE were both best. The third experiment tested four vitrification protocols, being P1: EG+DMSO+TRE/warming with SUC; P2: EG+DMSO+TRE/warming TRE; P3: EG+TRE/ warming SUC; P4: EG+TRE/warming TRE. The expansion of vitrified day 5 embryos was higher in the P1 (20.0%) in comparison with the other three groups (4.3, 4.3 and 4.4% for P2, P3 and P4, respectively), with no difference for their hatching rates, been it lower comparing to the Control. Day 6 embryos showed no difference in expansion and hatching for the vitrified groups, been them lower than the Control.Discussion: Embryos obtained on day 6 are more sensible than the ones of day 5, fact observed when the embryos were exposed to cryoprotectant solution, as well by the behavior of the no treated Control embryos. The toxicity increases as it does the concentration of intracellular cryoprotectant, where over 16% of the intracellular cryoprotectors already affected the day 6 embryos development. For the day 5 embryos however, 15 or 16% of the intracellular cryoptrotectors, had similar behavior to the embryos. For the extracellular solutions, however, it is variable according the embryos development speed. Indeed, it is necessary to adjust the cryoprotectors to be used to cryopreserve porcine in vitro produced embryos obtained at days 5 and 6 of culture

Intracytoplasmic Sperm Injection after Vitrification of Immature Oocytes in Follicular Fluid Increases Bovine Embryo Production

Background: Despite the low efficiency caused by its harmful effects, vitrification is the technique of choice for oocyte cryopeservation, especially at the germinal vesicle (GV) stage. This enables the banking of female gametes without linkage to the male genotype. Follicular fluid (FF), in vivo, is known to provide an adequate environment to the immature oocyte. The intra-cytoplasmic sperm injection (ICSI), by the other hand, can be used to bypass any sperm penetration disorder, including the ones caused by cryopreservation. This study aimed to evaluate oocyte vitrification in FF based solution, and to asses ICSI efficiency in the fertilization of vitrified/warmed bovine GV oocytes.Material, Methods & Results: Follicles of 2-8 mm in diameter were aspirated from bovine ovaries obtained from a slaughterhouse, selected and maintained into FF from aspiration, until their allocation in the experimental groups. The FF used to prepare the vitrification solution was centrifuged, heat inactivated, filtered through a 0.22 mm pore and stored at -20°C. Oocyte vitrification was done into one of these three solutions: The standard solution TCM-Hepes (TH-Vitri) was compared to a totally FF based solution (FF-Vitri), and to a 50:50 (v/v) mix of both solutions (TH:FF-Vitri). Oocytes were submitted to in vitro embryo production in order to assess embryo production efficiency. A second set of experiments using the FF-Vitri solution compared IVF versus ICSI. With basis on cleaved structures, the morula + blastocyst rate obtained in the Fresh Control (43.9%) was similar to FF-Vitri (31.1%). Conversely, the TH-Vitri (15.7%) and the TH:FF-Vitri (20.4%) rates were significantly lower than the Fresh Control. ICSI showed a positive effect in comparison with IVF. The embryo development rate of Vitri-IVF (18.8%) was the lowest, whereas Vitri-ICSI (37.3%) was similar to the Fresh-IVF (43.9%), but lower than the Fresh-ICSI (57.8%).Discussion: Oocytes cryopreserved in TH based solution are known to show certain rigidity in the zona pellucida, being this event a possible cause to spermatozoa penetration disruption. Our results agree with that, since the fertilization rate for TH-Vitri was significantly lower than for the FF-Vitri. In contrast, GV oocytes vitrified in total versus partial FF based solution showed similar maturation and fertilization rates as the Fresh Control, evidencing the beneficial effect of FF during the course of vitrification. It is possible that FF helped to adjust oocyte maturation, allowing a better nuclear-cytoplasmic synchrony. Also, it might have provided some protection due to its antioxidant properties. The releasing of cortical granules induced by freezing, lead to a zona pellucida hardening and failure in sperm penetration. Factors present in the FF might block this premature releasing of cortical granules, thus ensuring that the egg retains its ability to be fertilized after maturation. The blastocysts produced from the FF-Vitri oocytes were the only ones that had the average ICM similar to the Fresh Control, evidencing that besides the similarity in morula + blastocyst rates, the embryos derived from oocytes vitrified in FF solution have also yielded best quality. When vitrified warmed oocytes were submitted to ICSI, there was an increase in the blastocyst production. This increment of embryo production with ICSI evidences a pathway to overcome the zona pellucida biological barrier. In conclusion, the use of FF as base for vitrification solution improves further embryo development; ICSI increases the embryo production of vitrified/warmed bovine GV stage oocytes

Células fetais bovinas de cultivo primário submetidas a diferentes pressões negativas antes do congelamento em palhetas

O congelamento de células é uma importante ferramenta na preservação de espécies ameaçadas de extinção. Células fetais de cultivo primário obtidas de um bovino clone foram submetidas à pressão negativa (PN) de 200, 500 ou 800 mbar, imediatamente (PN0h) ou três horas antes (PN3h) do congelamento em palhetas finas, com 10% de DMSO como crioprotetor. Células frescas e congeladas sem submissão à PN foram utilizadas como controles. Avaliou-se a viabilidade pós-descongelamento, a curva de proliferação celular, assim como o tempo de duplicação da população (PDT) celular, a cada 24 horas, durante oito dias. Os dados obtidos foram submetidos ao teste de Tukey ou Qui quadrado (P≤0,05). A sobrevivência média dos grupos controle (89,8%) e PN500 0h (88,1%) foi superior aos outros grupos; o tempo de PDT foi semelhante nos grupos fresco (27,5 ± 0,35 h), controle congelado (30,1 ± 2,3 h) e PN500 0h (32,4 ± 1,6 h). O menor tempo foi observado no grupo PN800 0h (21,9 h). O congelamento de células fetais bovinas de cultivo primário, realizado em palhetas de 0,25 mL, com 10% de DMSO, possibilita elevadas taxas de sobrevivência após o descongelamento. A PN modifica a curva de crescimento de células criopreservadas, sendo que as intensidades de 200 ou 500 mbar, aplicadas imediatamente antes do congelamento das células, possibilitam curvas de proliferação semelhantes às obtidas com células frescas.Palavras-chave: células somáticas; criopreservação; estresse controlado; preservação animal

Effect of heteroplasmy on cell density and in vitro development of bovine embryos cloned by somatic cell nuclear transfer

In somatic cell nuclear transfer (SCNT), the type of the recipient cytoplast plays a key role on nuclear reprogramming. Distinct cytoplasts and karyoplasts and different activation protocols were used for bovine embryo cloning aiming to evaluate the effect of the type of cytoplast (oocyte and/or zygote) and the activation protocol (chemical, AQ, or spermatic, AE) on development of cloned blastocysts produced by handmade cloning (HMC). After 17 h of in vitro maturation (MIV), 2,946 oocytes were enucleated by manual bisection resulting in either MII cytoplasts (enucleated) or MII karyoplasts (non-enucleated). An additional group of 2,368 oocytes, in vitro-fertilized (FIV) for 6 h, were manually bisected and segregated in either FIV cytoplasts (enucleated) or FIV karyoplasts (non-enucleated). Cells from a primary culture previously established from a skin biopsy from an adult female bovine were used as nuclei donors (karyoplast CS). Structures were allocated to (a) control groups: FIV; parthenogenesis using zona-intact (PG c/) or zona-free oocytes (PG s/); and clones by SCNT; or (b) experimental groups: G1, FIV cytoplast + MII cytoplast + CS karyoplast; G2, MII cytoplast + FIV karyoplast; G3, FIV cytoplast + FIV karyoplast; G4, FIV cytoplast + FIV cytoplast + CS karyoplast; and G5, MII cytoplast + MII karyoplast. Following electrofusion, experimental groups G1 to G5 were allocated to sub-groups of either sperm-mediated (AE) or additional chemical (AQ) activation. The in vitro culture was carried out in the WOW (wellof- the-well) system. After 20 replications, cleavage (D2) and blastocyst (D7) rates were compared by the &#967;2 test, with values for total cell number and cell allocation in the blastocyst, determined by differential staining, being evaluated by ANOVA, with pairwise comparisons by the Tukey test, for P<0.05 (P<0.05). The only experimental group that yielded a blastocyst development similar to the FIV (27.0%) and SCNT (31.4%) control groups was the subgroup G1 AE (28.2%). This fact may be attributed to a more proper synchrony between the karyoplast and cytoplasts and/or to a more suitable activation process. Embryo development in subgroups G1 AQ (13.7%), G4 AQ (6.4%) and G4 AE (8.7%) was lower than in G1 AE, possibly due to a higher degree of asynchrony in the activation process or cell cycle. The lack of development in groups G2 and G3, irrespective of the activation protocol, was possibly due to the manipulation process during a highly sensible biological period. Likewise, the low cleavage (57.0%) and the lack of development in group G5 (spontaneous activation) in fact showed that the manipulation induced weak spontaneous oocyte activation. In general, total cell number and cell allocation were similar between groups with development to the blastocyst stage. In conclusion, the activation process appeared to be as important to embryo development as the type of cytoplast or karyoplast used for embryo reconstruction. The production of cloned bovine embryos using a more physiological activation process (AE) was proven as a viable procedure, with efficiency rates observed in subgroup G1 AE being similar to groups FIV or TNCSNa clonagem por transferência nuclear com célula somática (TNCS), o tipo de citoplasto receptor desempenha papel chave na reprogramação nuclear. Distintos citoplastos e carioplastos e condições de ativação foram utilizadas na reconstrução de embriões bovinos com o objetivo de avaliar o efeito do tipo de citoplasto (oócito e/ou zigoto) e do método de ativação (química, AQ, ou espermática, AE) no desenvolvimento de blastocistos clonados produzidos pela técnica de clonagem manual (Handmade Cloning, HMC). Após 17 h de maturação in vitro (MIV), 2.946 oócitos foram enucleados por bissecção manual, resultando em hemi-oócitos enucleados (citoplastos MII) e não enucleados (carioplastos MII). Outros 2.368 oócitos submetidos a 6 h de fecundação in vitro (FIV) foram bisseccionados manualmente e segregados em hemi-zigotos enucleados (citoplastos FIV) e não enucleados (carioplastos FIV). Células de um cultivo celular estabelecido a partir da biópsia auricular de uma fêmea bovina adulta foram utilizadas como núcleos doadores (carioplasto CS). As estruturas foram dispostas em (a) grupos controle: FIV; partenogênese com oócitos com (PG c/) ou sem zona pelúcida (PG s/); e clone por TNCS; ou (b) grupos experimentais: G1, citoplasto FIV + citoplasto MII + carioplasto CS; G2, citoplasto MII + carioplasto FIV; G3, citoplasto FIV + carioplasto FIV; G4, citoplasto FIV + citoplasto FIV + carioplasto CS; e G5, citoplasto MII + carioplasto MII. Após a eletrofusão das estruturas, os grupos experimentais G1 a G45 foram divididos em subgrupos de AQ ou AE. O cultivo in vitro foi realizado pelo sistema WOW (well-of-the-well). Após 20 repetições, as taxas de clivagem (D2) e blastocisto (D7) foram comparadas pelos testes de &#967;2 e os valores para o número total de células e a alocação das linhagens celulares nos blastocistos, determinados por coloração diferencial, foram avaliados por análise de variância, com pareamento comparativo pelo teste de Tukey, para P<0,05. O único grupo experimental que apresentou desenvolvimento embrionário no D7 semelhante aos controles FIV (27,0%) e TNCS (31,4%) foi o subgrupo G1 AE (28,2%). Isso pode ser atribuído a uma melhor sincronia do ciclo celular entre citoplastos e/ou carioplasto e um mais adequado processo de ativação. O desenvolvimento embrionário nos grupos G1 AQ (13,7%), G4 AQ (6,4%) e G4 AE (8,7%) foi menor do que o G1 AE, possivelmente devido à assincronia do processo de ativação ou ciclo celular. O desenvolvimento embrionário nulo dos grupos G2 e G3, independente da ativação, possivelmente foi decorrente da manipulação das estruturas em um momento biologicamente sensível. Da mesma forma, a baixa clivagem (57,0%) e o desenvolvimento nulo no grupo G5 de ativação espontânea demonstraram de fato que a manipulação estimulou o processo de ativação embrionária de forma sub-limiar. Em geral, não houve diferença no número de células e alocação celular nos grupos onde houve desenvolvimento até o estádio de blastocisto. Conclui-se que o processo de ativação foi tão significativo para o desenvolvimento embrionário que o tipo de citoplasto e carioplasto usados na reconstrução embrionária. A produção de embriões clones com um método mais fisiológico de ativaçao (AE) mostrou-se como um procedimento viável, obtendo-se no grupo G1 AE a mesma eficiência observada na FIV ou na TNCSCoordenação de Aperfeiçoamento de Pessoal de Nível Superio

Vitrification of In Vitro Produced Porcine Blastocysts: Influence of Cryoprotectants Toxicity and Embryo Age

Background: Porcine embryos are sensible to all assisted reproduction manipulations, especially the ones that involve cryopreservation. Despite the high cryoprotectant concentrations routinely applied, vitrification is the most effective technique to date. These substances toxicity can also play a negative role in embryo viability. During in vitro porcine embryo production, the speed of development is often unevenly distributed. It is possible that their development speed, affects embryo tolerance to cryoprotectants. This study aimed to evaluate the toxicity of porcine embryos of days 5 or 6 of culture to cryoprotectant agents; as well as to assess embryo survival to vitrification.Material, Methods &amp; Results: Parthenogenetic porcine blastocysts and expanded blastocysts of days 5 and 6 of culture were exposed to toxicity tests (experiments 1 and 2) and vitrification (experiment 3) using different protocols. In the first experiment, three different cryoprotectants were used (Dimethyl sulfoxide - DMSO, Ethylene glycol – EG, and Sucrose - SUC), combined in three different associations (G1: 15% EG + 15% DMSO with 0.5M SUC; G2: 16% EG + 16% DMSO with 0.4M SUC; G3: 18% EG + 18% DMSO with 0.5M SUC). In the fresh Control, embryos of day 6 are more sensible than the ones of day 5, whom showed a lower hatching rate (39.7 vs. 60.8%). After the toxicity (Experiment 1) test, the G1 showed better expansion rates in day 6 (50.0 vs 31.0 and 3.6% for G2 and G3) and higher hatching of day 6 compared to G2 and G3 (23.2, vs. 8.6 and 0.0% for G2 and G3). The fresh non hatched embryos at day 8, derived at day 6, had a lower percentage of cells with cleaved caspase-3 (20.2%) compared with the G1 (30.5%), G2 (31.4%) and G3 (30.5%). The hatched embryos of day 5 from G2 had lower total cell number (TCN) compared with the day 6 hatched embryos, whereas in G1 the TCN was not affected. The second experiment compared EG combined to one of these three extracellular cryoprotectants: Polyvinylpyrrolidone/sucrose/trehalose (respectively groups: PVP, SUC, TRE). The group SUC has raised the best results for day 5 embryos, whereas for day 6 embryos SUC and TRE were both best. The third experiment tested four vitrification protocols, being P1: EG+DMSO+TRE/warming with SUC; P2: EG+DMSO+TRE/warming TRE; P3: EG+TRE/ warming SUC; P4: EG+TRE/warming TRE. The expansion of vitrified day 5 embryos was higher in the P1 (20.0%) in comparison with the other three groups (4.3, 4.3 and 4.4% for P2, P3 and P4, respectively), with no difference for their hatching rates, been it lower comparing to the Control. Day 6 embryos showed no difference in expansion and hatching for the vitrified groups, been them lower than the Control.Discussion: Embryos obtained on day 6 are more sensible than the ones of day 5, fact observed when the embryos were exposed to cryoprotectant solution, as well by the behavior of the no treated Control embryos. The toxicity increases as it does the concentration of intracellular cryoprotectant, where over 16% of the intracellular cryoprotectors already affected the day 6 embryos development. For the day 5 embryos however, 15 or 16% of the intracellular cryoptrotectors, had similar behavior to the embryos. For the extracellular solutions, however, it is variable according the embryos development speed. Indeed, it is necessary to adjust the cryoprotectors to be used to cryopreserve porcine in vitro produced embryos obtained at days 5 and 6 of culture

Pre-incubation of porcine semen reduces the incidence of polyspermy on embryos derived from low quality oocytes

ABSTRACT: The main cause of low efficiency of in vitro produced porcine embryos is the high polyspermic penetration rates at fertilization, which is aggravated in low quality oocytes. Experiment 1 evaluated the embryo development in high and low quality oocytes. Experiment 2 evaluated the embryo development and quality of low quality oocytes fertilized with sperm pre-incubated during 0h (control), 0.5h, 1h and 1.5h. Experiment 3 investigated fertilization and monospermic rates of the same groups of Experiment 2. Experiment 4 evaluated embryo development, cell density, fertilization and monospermic rates of high quality oocytes using semen pre incubated during the best time observed in the previous experiments. Cleavage and blastocyst rates were analyzed by chi-square test, and remaining data by ANOVA and Tukey test (P≤0.05). The cleavage (74.8 vs 51.7%) and blastocyst (33.7 vs 9.8%) rates were greater in oocytes of high versus low quality, with no differences in cell density. Fertilization rates (65.6 to 79.5%) were not influenced by pre-incubation time. However, semen pre-incubation during 1.5h increased monospermic penetration (53.3%) and cleavage rates (92.5%) in low quality oocytes. Blastocyst rate was improved with 1.5h of semen pre incubation; however they were still lower than that observed with high quality control oocytes. Ultimately, pre-incubation did not influence fertilization, monospermic penetration, embryo development rates, nor cell density in oocytes of high quality. Low-quality porcine oocytes resulted in better rates of embryo development if in vitro fertilized with sperm pre-incubated for 1.5 hour

Intracytoplasmic Sperm Injection after Vitrification of Immature Oocytes in Follicular Fluid Increases Bovine Embryo Production

Background: Despite the low efficiency caused by its harmful effects, vitrification is the technique of choice for oocyte cryopeservation, especially at the germinal vesicle (GV) stage. This enables the banking of female gametes without linkage to the male genotype. Follicular fluid (FF), in vivo, is known to provide an adequate environment to the immature oocyte. The intra-cytoplasmic sperm injection (ICSI), by the other hand, can be used to bypass any sperm penetration disorder, including the ones caused by cryopreservation. This study aimed to evaluate oocyte vitrification in FF based solution, and to asses ICSI efficiency in the fertilization of vitrified/warmed bovine GV oocytes.Material, Methods &amp; Results: Follicles of 2-8 mm in diameter were aspirated from bovine ovaries obtained from a slaughterhouse, selected and maintained into FF from aspiration, until their allocation in the experimental groups. The FF used to prepare the vitrification solution was centrifuged, heat inactivated, filtered through a 0.22 mm pore and stored at -20°C. Oocyte vitrification was done into one of these three solutions: The standard solution TCM-Hepes (TH-Vitri) was compared to a totally FF based solution (FF-Vitri), and to a 50:50 (v/v) mix of both solutions (TH:FF-Vitri). Oocytes were submitted to in vitro embryo production in order to assess embryo production efficiency. A second set of experiments using the FF-Vitri solution compared IVF versus ICSI. With basis on cleaved structures, the morula + blastocyst rate obtained in the Fresh Control (43.9%) was similar to FF-Vitri (31.1%). Conversely, the TH-Vitri (15.7%) and the TH:FF-Vitri (20.4%) rates were significantly lower than the Fresh Control. ICSI showed a positive effect in comparison with IVF. The embryo development rate of Vitri-IVF (18.8%) was the lowest, whereas Vitri-ICSI (37.3%) was similar to the Fresh-IVF (43.9%), but lower than the Fresh-ICSI (57.8%).Discussion: Oocytes cryopreserved in TH based solution are known to show certain rigidity in the zona pellucida, being this event a possible cause to spermatozoa penetration disruption. Our results agree with that, since the fertilization rate for TH-Vitri was significantly lower than for the FF-Vitri. In contrast, GV oocytes vitrified in total versus partial FF based solution showed similar maturation and fertilization rates as the Fresh Control, evidencing the beneficial effect of FF during the course of vitrification. It is possible that FF helped to adjust oocyte maturation, allowing a better nuclear-cytoplasmic synchrony. Also, it might have provided some protection due to its antioxidant properties. The releasing of cortical granules induced by freezing, lead to a zona pellucida hardening and failure in sperm penetration. Factors present in the FF might block this premature releasing of cortical granules, thus ensuring that the egg retains its ability to be fertilized after maturation. The blastocysts produced from the FF-Vitri oocytes were the only ones that had the average ICM similar to the Fresh Control, evidencing that besides the similarity in morula + blastocyst rates, the embryos derived from oocytes vitrified in FF solution have also yielded best quality. When vitrified warmed oocytes were submitted to ICSI, there was an increase in the blastocyst production. This increment of embryo production with ICSI evidences a pathway to overcome the zona pellucida biological barrier. In conclusion, the use of FF as base for vitrification solution improves further embryo development; ICSI increases the embryo production of vitrified/warmed bovine GV stage oocytes