Technology for the isolation and propagation of primary human Sertoli cells from normal testes tissue, including cultures of proliferative primary human Sertoli cells for research and clinical applications, and a pharmaceutical composition for cell therapy, ex vivo gene therapy, and for the reduction of autoimmune, allograft, and xenograft immune reactions.

The present invention relates to the production and culture of undifferentiated spermatogonial stem cells that can be maintained long term and are feeder free. The resultant feeder-free populations can be used in any of a number of protocols including the generation of progeny bulls. The present invention includes novel methods required for the successful enrichment of bovine spermatogonial stem cells, novel cell lines and other components used for the same, as well as the resultant stem cell compositions.

The invention comprises methods of identifying and isolating spermatagonial stem cells in testicular tissue samples by the use of markers unique to spermatagonial stem cells. The invention defines and characterizes a unique testicular cellular niche wherein spermatagonial stem cells reside. The invention also comprises methods of identifying and isolating multipotent testicular stromal cells, on which spermatagonial stem cells can be cultured. Cultured spermatagonial stem cells, derived from prepubertal males or cancer patients can be utilized to generate viable spermatozoon or may be subsequently transplanted back into the donor to restore fertility.

A normal regenerated tissue is formed by exposing to radiation a connective tissue or a supporting tissue originating in an organ to thereby form a feeder layer and then transplanting epithelial cells thereon to form a stratified structure. By conveniently and surely providing regenerated tissue by the 3-dimensional culture with the use of a human-origin normal tissue as a base, it is possible to construct systems for assessing effects and side effects of chemicals such as drugs or assessing sensitivities thereof with the use of regenerated tissues as models of corresponding tissues respectively.

Technology for the isolation and propagation of primary human Sertoli cells from normal testes tissue, including cultures of proliferative primary human Sertoli cells for research and clinical applications, and a pharmaceutical composition for cell therapy, ex vivo gene therapy, and for the reduction of autoimmune, allograft, and xenograft immune reactions.