Suppression of spermatogenesis for cell transplantation in adult mice.

Spermatogenesis occurs within the testis of adult males by a complex and very well organized process. Breakthroughs in techniques such as cryopreservation and culture of spermatogenic cells and the maturation of these cells in exogenous testes after transplantation renewed the interest in this process. Transplantation of spermatogenic cells from a donor to a recipient animal needs a preparatory step that consists in the elimination of the endogenous population of spermatogenic cells. The most common method used to empty the seminiferous tubules is the treatment with busulfan (1,4-butanediol dimethanesulfonate). Busulfan partially eliminates stem cells because of its alkylating nature, but a residual component of stem cells survives the treatment and competes in the regeneration of the testis with transplanted cells. Estradiol has also been used as an agent that causes a delay in the process of spermatogenesis by altering its hormonal stimulation, although it does not affect the spermatogonia population. Therefore, we have tested different treatments with busulfan, estradiol benzoate, and also an agonist of the chorionic gonadotrophin-releasing hormone, leuprolide acetate, for the inhibition of endogenous spermatogenesis. We have found that a combination of estradiol, busulfan, and leuprolide can destroy the population of endogenous spermatogenic cells without altering Sertoli cells and maintains the optimal environment needed to allow the development of transplanted cells.