Embryo importation and cryobanking strategies for laboratory animals and wildlife species

Comparison of different osmolalities and egg-yolk composition in processing media for the cryopreservation of red wolf (Canis rufus) sperm

Successful cryopreservation of sperm and the maintenance of a sperm-based genome resource bank have been identified as priorities for the recovery of the endangered red wolf (Canis rufus). The objectives were to improve sperm processing and to determine the relative timing of damage to red wolf sperm during freezing and thawing. Fresh ejaculates (n=37) from adult red wolves (n=15, aged 2-13 y) were collected via electroejaculation and subjected to cooling, freezing and thawing in four TRIS-egg-yolk extender treatments varying in osmolality ( approximately 305 mOsm versus approximately 350 mOsm) and egg-yolk composition (0.8 microm-filtered versus unfiltered). Ejaculates were evaluated for sperm percentage motility, forward progressive motion, and morphological characteristics immediately upon collection and following extension, cooling (prior to freezing) and thawing. Although no single treatment consistently produced superior results, sperm suspended in approximately 305 mOsm extenders exhibited slight losses in motility post-thawing (13 and 7%). Also, sperm suspended in approximately 350 mOsm extenders tended to have slower rates of decline in motility in vitro post-thawing than those stored in approximately 305 mOsm extenders (P=0.55). Finally, extenders incorporating unfiltered egg yolk exhibited a slightly larger ratio of absent to partial acrosomes than did sperm frozen in extenders prepared with clarified egg yolk. For approximately 350 mOsm extenders, most motility loss occurred during the cooling rather than freezing and thawing. In conclusion, these data contribute to knowledge regarding cryopreservation of red wolf sperm.

Cryopreservation of isolated fish blastomeres: effects of cell stage, cryoprotectant concentration, and cooling rate on postthawing survival

The toxicity of the cryoprotectant dimethyl sulfoxide (Me(2)SO) to isolated blastomeres was examined in three fish species representative of distinct environments: marine (whiting, Sillago japonica); estuarine (pejerrey, Odontesthes bonariensis); and freshwater (medaka, Oryzias latipes). The effects of embryonic stage, Me(2)SO concentration, and cooling rate on the cryopreservation of blastomeres were also studied. Whiting sheds small planktonic eggs whereas the other two species shed large demersal eggs. Isolated blastomeres from the three species tolerated Me(2)SO concentrations up to 9% relatively well for over 5 h but lost viability rapidly at 18%. Cells from later embryonic stages (512 or 1024 cells) were more tolerant of Me(2)SO than those from earlier stages (128 or 256 cells). The three factors examined, alone or in combination, had a significant effect on the survival of blastomeres after freezing and thawing, but the extent of the effect and the optimum conditions varied with the species. In general, the highest rates of successful cryopreservation were observed with older rather than younger blastomeres, slower rather than faster cooling, and with 9-18% rather than 0% Me(2)SO. Survival rates for blastomeres cryopreserved under the most effective combination of the three factors examined for each species were 19.9 +/- 10.1% for whiting, 34.1 +/- 8.5% for medaka, and 67.4 +/- 12.8% for pejerrey. Copyright 1999 Academic Press.

Cryopreservation of bovine in vitro produced embryos using ethylene glycol in controlled freezing or vitrification

In this study, the cryoprotectant ethylene glycol (EG) was tested for its ability to improve and facilitate the cryopreservation of in vitro produced (IVP) bovine embryos. Embryos were cryopreserved in EG solutions supplemented with either newborn calf serum (NBCS) or polyvinyl alcohol (PVA). To assess EG toxicity, the embryos were equilibrated in EG concentrations from 1.8 to 8.9 M at room temperature for 10 min and then cultured for 72 h on a cumulus cell monolayer. The hatching rate was highest for day 7 blastocysts frozen in 3.6 M EG (98%) and was not different from the control group (85%). The controlled freezing (0.3 degrees C/min to -35 degrees C) of expanded day 7 blastocysts resulted in a hatching rate of 81%, which was similar to that of the nonfrozen controls (76%). Differential staining revealed only very few degenerate blastomeres attributed to freezing and thawing. Upon direct nonsurgical transfer of day 7 expanded blastocysts frozen in 3.6 M EG, a pregnancy rate of 43% was achieved, while the pregnancy rate after transfer of other developmental stages was significantly lower (22% with expanded day 8 blastocysts). When bovine IVP embryos were incubated at room temperature in 7.2 M EG preceded by preequilibration in 3.6 M EG, the hatching rate of day 7 expanded blastocysts reached 93%. Upon vitrification of IVP day 7 and day 8 blastocysts and expanded blastocysts in 7.2 M EG, the latter showed a higher hatching rate (42%) than blastocysts (12%). Overall, PVA as supplement to the basic freezing solution instead of NBCS had deleterious effects on survival after controlled freezing or vitrification. The simple cryopreservation protocol employed in this study and the low toxicity of ethylene glycol highlight the usefulness of this approach for controlled freezing of IVP embryos. However, further experiments are needed to improve the pregnancy rate following embryo transfer and to enhance survival after vitrification.

Membrane integrity and fertilizing potential of cryopreserved spermatozoa in European mouflon

There is a pressing need to develop and use assisted reproductive techniques in wildlife species living in small and captive groups. We evaluated the effect of freezing on membrane integrity and fertilizing capacity of European mouflon (Ovis gmelini musimon) spermatozoa collected during the breeding season. After thawing, the percentage of live spermatozoa, stained with fluorescein isothiocynate labeled Pisum Sativum agglutinin and propidium iodide, was 47% of which 19% showed intact acrosomal membrane. After culture in TCM 199 + 10% FCS, the number of live spermatozoa was significantly (P < 0.01) lower than in a medium with oviductal epithelial cells. The absence of oviductal cells decreased significantly the fertilization rates (P < 0.05), 24.0 vs. 63.1 with oviductal epithelial cells and 59.1 in vivo of in vitro matured ovine oocytes. Polyspermic fertilization rate of oocytes was lower (P < 0.05) with oviductal epithelial cells (1.6) than in absence of cells (12.8). However, the percentage of embryos that reached blastocyst stage was significantly higher in vivo than in vitro. These results provide interesting preliminary data for the development of genetic resource banks for European mouflon.

Potential of assisted breeding techniques for the conservation of endangered mammalian species in captivity: a review

An alarming worldwide extinction of animal species is taking place as a result of the activities of the increasing global human population. The original ranges of many animal species are being reduced and fragmented and, in some cases, they have been reduced to perilously small relict populations. The adverse genetic consequences of these restrictions are becoming clear, as are possible methods for their alleviation. The concept of ex situ genetic management of small captive populations of endangered species with a view to re-introducing them into the wild is attracting increasing interest. Modern reproductive techniques will play an important role in such programmes, and it is likely that an increasing number of veterinarians will become involved. However, the literature describing the aims and methods of reproductive genetic management is scattered and often not readily available to interested veterinary surgeons. The aim of this review is to deal with this problem by describing some potential approaches to the captive breeding of endangered species.