Testis germ cell transplantation in livestock has the potential for production of transgenic genotypes and for use as an alternative to artificial insemination in animal breeding systems. In a pilot experiment, we investigated a workable protocol for testis germ cell transplantation in sheep, including donor cell isolation, rete testis injection, and microsatellite detection of donor spermatozoa in recipient semen. In a second experiment, the effect of depletion of endogenous stem cells with a single irradiation dose of 9 Gy (n = 5) or 15 Gy (n = 5) on the outcome of germ cell transplantation was investigated. Irradiation of recipient testes with a single dose of 15 Gy, followed by transplantation 6 wk after depletion, may be most advantageous because it resulted in all recipients (five of five) producing donor-derived spermatozoa, while the 9-Gy and control groups had limited success rates (two of five and one of three, respectively). Using microsatellite markers to detect the presence of donor DNA, 10 rams were identified that produced spermatozoa of donor origin. The proportion of donor DNA was between 1% and 30% of total ejaculate DNA. When three of these positive rams were used in breeding experiments, four donor-derived offspring (four of 50 [8% of progeny])resulted from a recipient in Merino to Merino transplantation. Six lambs (six of 41 [15% of progeny]) were sired by donor-derived Border Leicester sperm produced in a Merino recipient ram; however, no donor-derived offspring were detected among 34 progeny from a second Border Leicester to Merino combination. These results confirm that preparation of recipient animals with a correct dose of irradiation not only enhances the success rate of the transplantation procedure but also increases the proportion of donor spermatozoa in recipient semen. This study represents the first report of the production of live progeny following testis germ cell transplantation using irradiated recipients in a livestock species.
While heterologous germ cell transplantation was successful in pigs and goats, autologous transplantation alone has been reported to result in donor-derived spermatogenesis in cattle. The objective of this study was to investigate whether the transplantation of heterologous germ cells could result in colonization of recipient testes in cattle of different breeds. Testicular cells were isolated from 8 Bos taurus donor bull calves and then transferred into 15 Bos indicus-cross bull calves. All animals were pre-pubertal, donors were aged 5-7 months and recipients 5-11 months, and scrotal circumferences ranged from 15 to 22 cm. Single cell suspensions of donor testicular cells, prepared by enzymatic digestion, were labelled with fluorescent dyes PKH26 or CFDA-SE, before transfer into the rete testis of recipients under ultrasonographic guidance. To assess the longevity of colonization by donor cells, recipients were castrated 2-30 weeks after cell transfer. Donor cells were observed in 15/25 (60%) of the testes that received PKH26-labelled cells, whereas no CFDA-SE-positive cell was identified in any recipients. The maturity of the donors or recipients (measured by scrotal circumference) did not affect colonization potential. In freshly isolated tubules, clumps of PKH26-positive cells were observed, which indicated either cell division or extensive local colonization of specific areas of the tubules. In frozen sections, PKH26-positive cells were identified on the seminiferous tubule basement membrane, which indicated that these cells had successfully migrated from the tubule lumen and were likely to be spermatogonia. We conclude that PKH26 was more suitable for labelling donor testis cells and donor cells can be identified up to 6 months following transfer. These results indicate that allogeneic transplantation of testicular cells can occur between Bos taurus and Bos indicus cattle. Further studies will investigate functionality of transferred testicular cells.
Although methods to assess testis cell populations are established in mice, the detailed validation of similar methods for bovine testis cells is necessary for the development of emerging technologies such as male germ cell transplantation. As young calves provide donor cells for germ cell transplantation, we characterized cell populations from three key pre-pubertal stages. Nine Angus bull calves were selected to represent three stages of testis development at ages (and testis weights) of 2-3 months (Stage 1, 10 g), 4-5 months (Stage 2, 35 g), and 6-7 months (Stage 3, 70 g). The proportion and absolute numbers of germ and somatic cells in fixed sections and from enzymatically dissociated seminiferous tubules were assessed. Germ cells were identified by DBA and PGP9.5 staining, and Sertoli cells by vimentin and GATA-4 staining. Staining of serial sections confirmed that DBA and PGP9.5 identified similar cells, which were complementary to those stained for vimentin and GATA-4. In fixed tubules, the proportion of cells within tubules that were positive for DBA and PGP9.5 increased nearly three-fold from Stage 1 to Stage 2 with no further increase at Stage 3. Absolute numbers of spermatogonia also increased between Stages 1 and 2. After enzymatic dissociation of tubules, three times more DBA- and PGP9.5-positive cells were isolated from Stage 3 testes than from either Stage 1 or 2 testes. A higher proportion of spermatogonia was observed after enzymatic isolation than were present in seminiferous tubules. These data should help to predict the yield and expected proportions of spermatogonia from three distinct stages of testis development in pre-pubertal bull calves.
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