Ovarian tissue xenografting may be applied to increase the population size of rare or endangered animals. However, optimal grafting conditions, such as graft position and recipient hormonal status, are yet to be established. The present study, using common wombat ovarian tissue, showed that development of xenografted ovarian tissue to the antral follicle stage can be achieved irrespective of graft position. However, increased graft recovery rates and follicle survival were evident after grafting under the kidney capsule compared with grafting to subcutaneous sites. No increase in follicle development was observed after placing grafts both under the kidney capsule and subcutaneously in the one recipient compared with grafts placed under the kidney capsule alone or subcutaneously alone. Removal of the recipient's own ovaries at the time of grafting accelerated graft follicle development, with antral follicles seen by Week 12 after grafting compared with by Week 16 in recipients that retained their own ovaries. More oocytes were collected from xenograft recipients receiving hormonal stimulation before collection compared with non-stimulated recipients. No oocytes were mature (extruded a polar body) at the time of collection or after a subsequent period of in vitro maturation. This is the first study to demonstrate that antral follicle development can occur and oocytes can be collected from xenografted common wombat ovarian tissue.
Developmentally competent oocytes can be collected from xenografted ovarian tissues; however, optimal xenograft conditions need to be established for this technique to be of use in assisted reproduction. In the present study, common wombat ovarian tissue was xenografted under the kidney capsule of nude mice to clarify the role of recipient gonadal status and donor tissue age on graft establishment, follicle development and oocyte recovery. Eighty-nine per cent of all grafts were recovered; of these, 78% contained growing follicles. In female graft recipients, follicle development to the antral stage occurred earlier in ovariectomised recipients compared with intact graft recipients. Similarly, follicle development occurred earlier in recipients of pouch young ovarian tissue grafts when compared with subadult xenografts. Follicle development proceeded to the antral stage in subadult grafts placed under the kidney capsule of male recipient mice, albeit at a slower rate than subadult grafts placed in female recipients. Oocytes were collected from grafts placed in female and male recipients, but no mature oocytes were observed at the time of collection, nor could these oocytes be matured in vitro. The present study demonstrated that common wombat pouch young tissue xenografted to female recipient mice, and subadult ovarian tissue xenografted to male recipient mice, can develop to the antral stage and can therefore facilitate oocyte collection. However, mature oocytes were not obtained using the current protocol.
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