Effect of different methods of cryopreservation on the cytoskeletal integrity of dromedary camel (Camelus dromedarius) embryos |
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Authors: | Skidmore J A Schoevers E Stout T A E |
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Affiliation: | Camel Reproduction Centre, P.O. Box 79914, Dubai, United Arab Emirates. luluskidmore@yahoo.com |
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Abstract: | This study examined the effect of different methods of cryopreservation on the cytoskeletal integrity of camel embryos. A total of 32 embryos were recovered on Days 6 and 7 after ovulation and measured before being frozen using either a conventional slow-cooling technique (n=12: six Day 6 and six Day 7 embryos) or vitrification (n=12: four Day 6 and eight Day 7). The remaining 8 'control' embryos (four Day 6 and four Day 7) were not cryopreserved but instead incubated in holding medium for 30 min. After thawing, warming or incubation, the embryos were stained with 4,6-diamino-2-phenylindole dihydrochloride (DAPI) to identify dead cells. Subsequently, the embryos were fixed in 4% paraformaldehyde, permeabilized and labelled with Alexa Fluor 488-Phalloidin to enable assessment of cytoskeleton integrity. Vitrified-warmed embryos contained a significantly higher percentage of dead cells than either conventionally frozen embryos or controls (P<0.05). Although the proportion of dead cells in conventionally frozen embryos tended to be higher than in controls, the difference was not significant (P> or =0.07). Whereas embryo size did not affect the number of dead cells in conventionally frozen embryos, vitrified-warmed embryos >300 microm in diameter had a significantly higher percentage of dead cells than embryos < or =300 microm (P=0.01). Cytoskeleton integrity was also affected by both freezing method and embryo diameter. All 8 control embryos had a Grade I cytoskeleton, compared with only 2/24 (8.3%) frozen or vitrified embryos. Of the 8 slow-frozen or vitrified embryos with a Grade III cytoskeleton post-thaw, 7 had been vitrified and 6 were larger (Day 7) embryos. These results indicate that while both slow-freezing and vitrification of camel embryos lead to cytoskeleton disruption and cell death, embryo quality is better preserved by slow-freezing. |
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