Clayton J. Brinster scite author profile

The proliferation and differentiation of a stem cell are regulated intrinsically by the stem cell and extrinsically by the stem cell niche. Elucidation of regulatory mechanisms of spermatogonial stem cells (SSCs), the stem cell of the postnatal male germ line, would be facilitated by in vitro studies that provide a defined microenvironment reconstituted ex vivo. We analyzed the effect of in vitro environment on the maintenance of adult and immature SSCs in a 7-day culture system. Although the number of adult and immature SSCs decreased in a time-dependent manner, nearly one in four stem cells (24%) could be maintained in vitro for 7 days. Stem cell maintenance was enhanced by coculture with OP9 bone marrow stroma or L fibroblast cell lines, addition of glial cell line-derived neurotrophic factor, or utilization of specific culture medium. In contrast, coculture with TM4 or SF7 Sertoli cell lines and addition of activin A or bone morphogenetic protein 4 (BMP4) reduced stem cell maintenance in vitro. Only 4% of the stem cells remained when cultured with TM4 cells or activin A, and 6% remained when cultured with SF7 cells or BMP4. These results lead to the hypothesis that suppression of germ cell differentiation improves in vitro maintenance of SSCs by interrupting the unidirectional cascade of spermatogenesis and blocking stem cell differentiation.

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Transgenic mice produced by retroviral transduction of male germ-line stem cells

Nagano

Brinster²,

Orwig³

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

278

188

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Current management of esophageal leiomyoma

Lee

Singhal

Brinster

et al. 2004

Journal of the American College of Surgeons

135

175

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Reconstitution of spermatogenesis from frozen spermatogonial stem cells

Avarbock

Brinster

1996

Nat Med

290

148

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Spermatozoa from a number of species can be cryopreserved and then subsequently used to fertilize eggs. However, this technique has several limitations. First, the freezing protocol varies for each species and must be determined empirically, and for some species appropriate methods have not yet been identified. Second, because these cells are fully differentiated, they will not undergo replication when thawed, and recombination of genetic information cannot occur. We now demonstrate, by using the recently developed spermatogonial transplantation technique, that male germline stem cells can be successfully cryopreserved. Donor testis cells isolated from prepubertal or adult mice and frozen from 4 to 156 days at -196 degrees C were able to generate spermatogenesis in recipient seminiferous tubules. Relatively standard preservation techniques were used, suggesting that male germ cells from other species can also be stored for long periods. Because transplanted testis stem cells will ultimately undergo replication and meiotic recombination during spermatogenesis, one might consider these preserved male germ lines as biologically immortal.

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