Cryopreservation enables banking of embryos for future use in medicine and in animal breeding. It also enables protection of germ plasm of endangered species and unique strains or lanes of laboratory animals. This paper describes an example of employing a vitrification method for banking of embryos of a unique lane of rabbit. The paralytic tremor (pt) rabbit is an X-linked recessive mutant lane of the Chinchilla breed characterized by hypomyelination of the central nervous system. In order to obtain a sufficient number of embryos, pt females were subjected to superovulation and surgical embryo collection. All suitable embryos were vitrified in 0.25 mL insemination straws in a modified EFS vitrification solution comprised of ethylene glycol (40%), Ficoll 70 (18%) and sucrose (0.3 M) in Hepes buffered TCM medium containing 20% fetal calf serum. In order to assess the efficiency of the vitrification procedure, a representative portion of vitrified embryos was warmed after a period of storage. Warmed embryos were subjected to in vitro culture for 72 h or were transferred to the uterus of synchronized recipients. The majority of the 141 warmed embryos survived vitrification and 100/141 (71%) developed to the blastocyst stage. Moreover, out of an additional 34 warmed embryos transferred to four recipients, eight (23.5%) developed to term and seven live pups were born. Six of the rabbit pups exhibited paralytic tremor symptoms typical for the pt lane. Although the overall efficiency of the vitrification method was lower compared with the effects usually achieved for 'healthy' embryos, results presented confirm the real possibility of the future restoration of the colony of pt rabbit, if sufficient number of embryos are cryopreserved.
Blastomeres from eight-cell-stage rabbit embryos have been fused with enucleated metaphase II oocytes (ooplasts) or with ooplasts that were preactivated before fusion. Preactivation of ooplasts before nuclear transfer (NT) raises the rate of preimplantation development from 15% to 56%, which remains elevated in the next series of NT (48.6% and 47.2% in the second and third rounds, respectively). Transfer of eight-cell embryos from the third round to the recipient resulted in the birth of normal young. Synchronization of blastomere nuclei in the G1 phase with nocodazole before fusion results in 42% morula/blastocyst formation. However, in the second generation of NT embryos, the yield drops to as low as 17%, indicating deleterious effects of the second nocodazole treatment on blastomeres. The calculated number of clones per one round of cloning was 4.5, 3.9, and 3.8 in subsequent series; the highest number of morulae and blastocysts that developed from individual donor embryos after three rounds were 26 and 27, respectively.
Developmental potencies of sheep somatic cells (foetal fibroblasts, FFs) in chimaeric animals were analysed. FFs from pigmented Polish Heatherhead (wrzosowka) breed were microsurgically injected into morulae or blastocysts of white Polish Merino breed (5 cells to each embryo). In one experiment the cells were stained with vital fluorescent dye PKH26, and chimaeric blastocysts were cultured in vitro to confirm the presence of fluorescent cells. In the majority of experiments the blastocysts were transferred to synchronized recipient ewes for development until term. Cultured embryonic cells (CEC), earlier known to produce chimaeras, were injected into blastocysts in control experiments. Seven young were born from FF-injected embryos and three were born from CEC-injected ones. All of them were white, but all three control lambs and three experimental lambs showed small areas of skin pigmentation, which indicated Heatherhead CEC or FF contribution. Tissue samples originating from three germ layers were taken from two FFsoriginating presumably chimaeric lambs (male and female) at the age of one month for DNA analysis. The random amplified polymorphic DNA-PCR method supplied two markers of chimaerism, which were amplification products of 643 bp and 615 bp long DNA fragments, found in tissues of experimental lambs as well as in FFs, but not in the blood of parents of blastocysts. The 643 bp marker was found in the majority of tissues of both lambs. The 615 bp amplicon was detected in the skin and lungs of the female lamb and in the hooves of the male lamb. Our data show that foetal fibroblasts introduced to sheep blastocysts can participate in development and can contribute to all tissue lineages up to at least one month of age.
In spite of their cryobiological efficacy, minimum-volume vitrification methods suffer from the risk of microbiological contamination and are technically and/or manually demanding. In this study, the effects of a traditional, slightly modified vitrification method and vitrification using supercooled liquid nitrogen (VitMaster) applied for rabbit morula-stage embryos were compared. Embryos were equilibrated in a solution containing 1,2-propanediol (2.72 M) and glycerol (1.36 M) for 7 min and vitrified in 0.25-ml insemination straws after 1-min exposure to a vitrification solution containing additionally 1.0 M sucrose. Cooling was performed in 'normal' or supercooled liquid nitrogen. Regardless of the cooling method applied, high in vitro survival and development rates of vitrified embryos were obtained. All embryos were intact after warming, and 61 out of 65 (93.8%) and 23 out of 24 (95.8%) embryos developed to the blastocyst stage after 48-h in vitro culture of embryos vitrified in 'normal' or supercooled liquid nitrogen, respectively. The results suggest higher developmental ability of embryos vitrified in supercooled liquid nitrogen (91.7% vs. 83.1% of embryos vitrified traditionally developed to more advanced, expanding and/or hatching blastocyst stages). In vivo survival rate, tested for the traditional vitrification system only, revealed that 36.8% of embryos developed to term. The results show promise for establishing a fully successful method for rabbit embryo vitrification.
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