G. Vajta

Familial Hypercholesterolemia and Atherosclerosis in Cloned Minipigs Created by DNA Transposition of a Human PCSK9 Gain-of-Function Mutant

A transgenic pig model of familial hypercholesterolemia can be used for translational atherosclerosis research. A Model of We hope to inherit our parents’ good features, like blue eyes or musical talent, but not their high cholesterol. Familial hypercholesterolemia, which is passed down in families, results in high levels of “bad” cholesterol [low-density lipoprotein (LDL)] and early onset of cardiovascular disease. To further translational research in this area, Al-Mashhadi and coauthors created a large-animal model of this genetic disease, showing that these pigs develop hypercholesterolemia and atherosclerosis much like people do. The D374Y gain-of-function mutation in the PCSK9 gene (which is conserved between pig and human) causes a severe form of hypercholesterolemia and, ultimately, atherosclerosis. Al-Mashhadi and colleagues engineered transposon-based vectors to express D374Y-PCSK9. After confirming function in human liver cancer cells, the authors cloned minipigs that expressed the mutant gene. On a low-fat diet, these pigs had higher total and LDL cholesterol than their wild-type counterparts. Breeding the male transgenic pigs with wild-type sows produced offspring that also had higher plasma LDL levels compared with normal, healthy pigs. A high-fat, high-cholesterol diet induced severe hypercholesterolemia in these animals as well as accelerated development of atherosclerosis that has human-like lesions. Other large-animal models only develop hypercholesterolemia when placed on the right diet, and small-animal models cannot recapitulate human-like pathology. The PCSK9 transgenic pigs created by Al-Mashhadi et al. develop hypercholesterolemia even on low-fat diets, and thus reflect the inherited human disease. This large-animal model will be important for better understanding the pathogenesis of familial hypercholesterolemia and for testing new therapeutics and imaging modalities before moving into human trials. Lack of animal models with human-like size and pathology hampers translational research in atherosclerosis. Mouse models are missing central features of human atherosclerosis and are too small for intravascular procedures and imaging. Modeling the disease in minipigs may overcome these limitations, but it has proven difficult to induce rapid atherosclerosis in normal pigs by high-fat feeding alone, and genetically modified models similar to those created in mice are not available. D374Y gain-of-function mutations in the proprotein convertase subtilisin/kexin type 9 (PCSK9) gene cause severe autosomal dominant hypercholesterolemia and accelerates atherosclerosis in humans. Using Sleeping Beauty DNA transposition and cloning by somatic cell nuclear transfer, we created Yucatan minipigs with liver-specific expression of human D374Y-PCSK9. D374Y-PCSK9 transgenic pigs displayed reduced hepatic low-density lipoprotein (LDL) receptor levels, impaired LDL clearance, severe hypercholesterolemia, and spontaneous development of progressive atherosclerotic lesions that could be visualized by noninvasive imaging. This model should prove useful for several types of translational research in atherosclerosis.

High in vitro development after somatic cell nuclear transfer and trichostatin A treatment of reconstructed porcine embryos

Abnormal epigenetic modification is supposed to be one of factors accounting for inefficient reprogramming of the donor cell nuclei in ooplasm after somatic cell nuclear transfer (SCNT). Trichostatin A (TSA) is an inhibitor of histone deacetylase, potentially enhancing cloning efficiency. The aim of our present study was to establish the optimal TSA treatment in order to improve the development of handmade cloned (HMC) porcine embryos and examine the effect of TSA on their development. The blastocyst percentage of HMC embryos treated with 37.5 nM TSA for 22-24 h after activation increased up to 80% (control group-54%; P<0.05). TSA mediated increase in histone acetylation was proved by immunofluorescence analysis of acH3K9 and acH4K16. 2-cell stage embryos derived from TSA treatment displayed significant increase in histone acetylation compared to control embryos, whereas no significant differences were observed at blastocyst stage. During time-lapse monitoring, no difference was observed in the kinetics of 2-cell stage embryos. Compact morula (CM) stage was reached 15 h later in TSA treated embryos compared to the control. Blastocysts (Day 5 and 6) from HMC embryos treated with TSA were transferred to 2 recipients resulting in one pregnancy and birth of one live and five dead piglets. Our data demonstrate that TSA treatment after HMC in pigs may affect reprogramming of the somatic genome resulting in higher in vitro embryo development, and enable full-term in vivo development.

The effect of media, serum and temperature on in vitro survival of bovine blastocysts after Open Pulled Straw (OPS) vitrification.

The recently introduced Open Pulled Straw (OPS) vitrification technique has successfully been used for cryopreserving porcine embryos as well as for bovine embryos and oocytes. The aim of this work is to investigate several factors on the in vitro survival of bovine blastocysts. In 5 experiments, a total of 862 in vitro produced blastocysts and expanded blastocysts was vitrified and warmed using the OPS technology, then cultured in vitro for an additional 3 days. The culture medium in Experiments 1 to 4 was SOFaa with supplements and 5% calf serum (CS). In Experiment 1, the replacement of TCM-199 + 20% CS with PBS + 20% CS in the holding medium during vitrification and warming did not result in significant differences in the re-expansion (92 vs 95%) and hatching rates (79 vs 72%). In Experiment 2, the PBS holding medium was supplemented with either 20% CS, 5 mg/mL bovine serum albumin (BSA) or 3 mg/mL polyvinylalcohol (PVA). Although the re-expansion rates did not differ (98, 95 and 93%, respectively), there was a decrease in the hatching rate after vitrification with PVA (77 and 78 vs 51%, respectively). In Experiment 3, the influence of temperature of equilibration media prior to and rehydration media after the vitrification was investigated. When the temperature of these media was adjusted to 20 degrees C instead of the standard 35 degrees C, both the re-expansion and the hatching rates decreased markedly. However, increasing the time of equilibration with the diluted cryoprotectant solution at 20 degrees C eliminated these differences. In Experiment 4, the ethylene-glycol and dimethyl sulfoxide cryoprotectant mixture was replaced with ethylene glycol-ficoll-trehalose solution. No difference in the re-expansion (89 vs 96%, respectively) or hatching rate (79 vs 84%, respectively) was detected. In Experiment 5, the vitrified-warmed blastocysts were cultured in SOFaa medium supplemented with 5% CS or 5 mg/mL BSA. Although the re-expansion rates were identical in the 2 groups (95%), the hatching rates were lower when embryos were cultured in BSA (71 and 47%, respectively). These findings indicated the possible broader application for OPS, as they demonstrated that the physical advantages of rapid cooling and warming may be accompanied by different chemical composition (holding media, cryoprotective additives) according to the requirements of the biological structure. Our study also shows the need for serum supplementation of the medium for hatching to occur after OPS vitrification.

Vitrification of bovine oocytes with the open pulled straw method: ultrastructural consequences.

The objective of the present study was to investigate the ultrastructural consequences of vitrification of bovine oocytes at the metaphase II (MII) stage by the so‐called “Open Pulled Straw” method. Oocytes were matured in vitro for 22 hr and cryopreserved by vitrification. After warming and additional 2 hr of culture, the oocytes were inseminated in vitro. Oocytes were fixed for transmission electron microscopy immediately after warming, at 4 hr after warming (i.e., 2 hr post insemination [hpi]), at 26 hr after warming (i.e., 24 hpi), and at 74 hr after warming (i.e., 72 hpi). Control oocytes (i.e., nonvitrified oocytes) were processed at 22 hr after in vitro maturation and at 2, 22, and 72 hpi. Compared to the controls, the vitrified oocytes fixed immediately after warming presented an additional category of small membrane‐bound vesicles and lacked the typical compartment of solitary cortical granules aligned along the oolemma. Instead, they presented clusters of cortical granules that displayed varying degrees of degeneration. In vitrified oocytes fixed at 2 hpi, the small vesicles were less abundant, and more advanced degeneration of the cortical granule clusters was noted. In vitrified oocytes fixed at 24 hpi, the small vesicles were practically absent, and polyspermic penetration was observed as were vacuoles containing degraded cortical granule content. In vitrified oocytes fixed at 72 hpi, lack of cleavage as well as vacuolization and degeneration of blastomeres were noted. Moreover, the nucleolar ultrastructure signaled aberrant activation of the ribosomal RNA genes. In conclusion, vitrification of bovine oocytes at the MII stage resulted in cell biological alterations in the oocyte after warming that apparently were reflected in the subsequent fertilization and embryonic development. Mol. Reprod. Dev. 56:80–88, 2000.

Massively Parallel Sequencing for Chromosomal Abnormality Testing in Trophectoderm Cells of Human Blastocysts

ABSTRACT Preimplantation genetic diagnosis and screening are widely accepted for chromosomal abnormality identification to avoid transferring embryos with genetic defects. Massively parallel sequencing (MPS) is a rapidly developing approach for genome analysis with increasing application in clinical practice. The purpose of this study was to use MPS for identification of aneuploidies and unbalanced chromosomal rearrangements after blastocyst biopsy. Trophectoderm (TE) samples of 38 blastocysts from 16 in vitro fertilization cycles were subjected to analysis. Low-coverage whole genome sequencing was performed using the Illumina HiSeq2000 platform with a novel algorithm purposely created for chromosomal analysis. The efficiency of this MPS approach was estimated by comparing results obtained by an Affymetrix single-nucleotide polymorphism (SNP) array. Whole genome amplification (WGA) products of TE cells were detected by MPS, with an average of 0.07× depth and 5.5% coverage of the human genome. Twenty-six embryos (68.4%) were detected as euploid, while six embryos (15.8%) contained uniform aneuploidies. Four of these (10.5%) were with solely unbalanced chromosomal rearrangements, whereas the remaining two embryos (5.3%) showed both aneuploidies and unbalanced rearrangements. Almost all these results were confirmed by the SNP array, with the exception of one sample, where different sizes of unbalanced rearrangements were detected, possibly due to chromosomal GC bias in array analysis. Our study demonstrated MPS could be applied to accurately detect embryonic chromosomal abnormality with a flexible and cost-effective strategy and higher potential accuracy.

Morphological changes of in-vitro-produced bovine blastocysts after vitrification, in-straw direct rehydration, and culture

Morphological signs of injury and regeneration following vitrification and warming of bovine embryos were studied by light and electron microscopy. In‐vitro‐produced Day 7 expanded blastocysts (Day 0 = day of insemination) were vitrified by a two‐step equilibration method using ethylene glycol and dimethyl sulphoxide as cryoprotectants. Thawing was performed by in‐straw direct rehydration, followed by in vitro culture on a granulosa cell monolayer. Embryos were processed for transmission electron microscopy immediately after warming (0 hr) as well as after 4 hr or 24 hr of culture following warming. A control group of unfrozen embryos was also processed. At 0 hr after warming, except for a rapid collapse of the blastocoele, only minor changes were detectable by stereomicroscope. However, at the ultrastructural level, signs of extensive injury were seen, including a general distension or shrinkage of mitochondria, disintegration of cell adhesions between adjacent trophoblastic cells, and complete rupture of some cells. At 4 hr, stereomicroscopic investigation revealed collapsed blastocoele and a darkened granular appearance of the cell mass. At the ultrastructural level, signs of regeneration were also observable: cells with minor injuries were re‐assembled in a central area forming a small blastocoele, cell adhesion structures were re‐established, and damage of mitochondria was less severe. The majority of irreversibly damaged cells or cell debris was accumulated in the perivitelline space. At 24 hr, stereomicroscopic investigation of surviving blastocysts showed no signs of the previous injury. At the ultrastructural level, cellular debris in the perivitelline space and some degenerated cells in the blastocoele were the only signs of previous injuries. In conclusion, ultrastructural investigation revealed unexpectedly extensive damage followed by a rapid regeneration and reorganization of the embryonic structure. Mol. Reprod. Dev. 48:9–17, 1997.

High hydrostatic pressure: a new way to improve in vitro developmental competence of porcine matured oocytes after vitrification.

The purpose of the present study was to improve cryotolerance using high hydrostatic pressure (HHP) pretreatment of porcine in vitro matured (IVM) oocytes, to facilitate their further developmental competence after parthenogenetic activation. A total of 1668 porcine IVM oocytes were used in our present study. The pressure tolerance and optimal duration of recovery after HHP treatment were determined. Oocytes were treated with either 20 or 40 MPa (200 and 400 times greater than atmospheric pressure) for 60 min, with an interval of 10, 70, and 130 min between pressure treatment and subsequent vitrification under each pressure parameter. Oocytes from all vitrification groups had much lower developmental competence than fresh oocytes (P<0.01) measured as cleavage and blastocyst rates. However, significantly higher blastocyst rates (P<0.01) were obtained in the groups of 20 MPa pressure, with either 70 (11.4+/-2.4%) or 130 (13.1+/-3.2%) min recovery, when compared with the vitrification control group without HHP treatment where no blastocysts were obtained. The influence of temperature at HHP treatment on further embryo development was also investigated. Treatments of 20 MPa with 70 min recovery were performed at 37 degrees C or 25 degrees C. Oocytes pressurized at 37 degrees C had a significantly higher blastocyst (14.1+/-1.4%) rate than those treated at 25 degrees C (5.3+/-1.1%; P<0.01). Our results demonstrate that HHP pretreatment could considerably improve the developmental competence of vitrified pig in vitro matured (IVM) oocytes. The HHP pretreatment will be tested as a means to improve survival and developmental competence at different developmental stages in different species including humans.

The submarine incubation system, a new tool for in vitro embryo culture: A technique report

Abstract In vitro culture of sensitive structures such as oocytes and preimplantation embryos requires a specific, stable environment (temperature, gas atmosphere and humidity levels). Most available carbon dioxide thermostates are not adequate for this purpose, as their large interior area is undivided and frequent opening of the doors required by the daily work disturbs equilibrium of the cultures kept inside. A new approach for overcoming this problem is described here. Tissue culture dishes containing embryos are individually wrapped in laminated foil bags nearly impermeable to carbon dioxide, oxygen and nitrogen and are filled with the desired gas mixture, then heat-sealed and submerged into a circulating temperature-adjusted water bath for the required culture period (up to 7 d). In this way, all wrapped culture dishes function as individual incubators (“submarines”). The advantages of this system are stability of temperature, humidity and gas mixture; quick recovery of these parameters after opening; flexibility in using different gas mixtures; safety; cost efficiency; reduced contamination risks; few problems with cleaning; easy transport. When transparent foil is used for wrapping, frequent microscopic observations are also possible without disturbing the gas atmosphere and humidity. Slightly elevated atmospheric pressure inside the foil bags (between 1 and 9 water cm) has no apparent deleterious effects on embryo development. Expired, sterile filtered human lung air containing 4% carbon dioxide and 16 to 17% oxygen expired into the bags was also found to sustain bovine embryo development. Thus, the culture system is also suitable for use under field conditions. To prove the efficiency of this incubation system, in vitro matured and fertilized bovine zygotes were cultured in TCM199 and calf serum on a granulosa cell monolayer using expired lung air in the submerged foil bags. The cumulative result of 25 identical replicates was 517 blastocysts from 1,052 oocytes (49%) at 8 d after fertilization. The Submarine Incubation System provides an alternative method for in vitro embryo production and/or culture of other sensitive tissues or cells.

Overall efficiency of in vitro embryo production and vitrification in cattle.

In 5 replicates a total of 719 immature oocytes recovered from 94 slaughterhouse-derived bovine ovaries were matured and fertilized in vitro, then cultured for 7 to 9 d on a granulosa cell monolayer in TCM 199 supplemented with calf serum. Of 338 blastocysts (47% of oocytes cultured), 301 were vitrified in Hepes/bicarbonate buffered TCM-199 medium, 20% calf serum and dimethylsulfoxide and ethylene glycol as the cryoprotectants. After thawing in 1 M sucrose and subsequent culture in vitro, 237 (79%) of the blastocysts re-expanded and 177 (59%) hatched. Re-expansion and hatching rates differed between the blastocysts vitrified on Day 7 and Day 8 (84 and 69% vs 70 and 41%, respectively). We conclude that the applied methods are relatively simple and inexpensive to use, with an overall efficiency of the in vitro production/vitrification procedure being 1.9 hatched blastocyst/ovary. Therefore, this system seems suitable for large-scale production of cryopreserved bovine embryos for various purposes.

No evidence of association between blastocyst aneuploidy and morphokinetic assessment in a selected population of poor-prognosis patients: a longitudinal cohort study

Recent studies involving a limited number of patients have indicated a correlation between aneuploidy and various morphokinetic parameters during preimplantation development. The results among different groups, however, have been inconsistent in identifying the parameters that are able to predict chromosomal abnormalities. The aim of this study was to investigate whether aneuploidy of human blastocysts was detectable by specific morphokinetic parameters in patients at increased risk of aneuploidy because of advanced maternal age, history of unsuccessful IVF treatments, or both. A longitudinal cohort study was conducted using 455 blastocysts from 138 patients. Morphokinetic features of preimplantation development were detected in a timelapse incubator. Blastocysts were subjected to trophectodermal biopsy and comprehensive chromosomal screening. Analyses were conducted by means of logistic mixed-effects models, with a subject-specific intercept. No statistical correlation between 16 commonly detected morphokinetic characteristics of in-vitro embryo development and aneuploidy was found. Results suggest that morphokinetic characteristics cannot be used to select euploid blastocysts in poor-prognosis patients regarded as candidates for pre-implantation genetic screening.