Undifferentiated spermatogonia eventually differentiate in the testis to produce haploid sperm. Within this cell population, there is a small number of spermatogonial stem cells (SSCs). SSCs are rare cells in the testis, and their cellular characteristics are poorly understood. Establishment of undifferentiated cell line would provide an indispensable tool for studying their biological nature and spermiogenesis/spermatogenesis in vitro. However, there have been few reports on the long-term culture of undifferentiated spermatogonia in species other than rodents. Here, we report the derivation and long-term in vitro culture of undifferentiated spermatogonia cell lines from immature and adult bovine testes. Cell lines from immature testes were maintained in serum-free culture conditions in the presence of glial-cell-line-derived neurotropic factor (GDNF) and bovine leukemia inhibitory factor (bLIF). These cell lines have embryonic stem (ES)-like cell morphology, express pluripotent-stem-cell-specific and germ-cell-specific markers at the protein and mRNA levels, and contributed to the inner cell mass (ICM) of embryos in the blastocyst stage. Meanwhile, cell lines established from adult testes were maintained in low-serum media in the presence of 6-bromoindirubin-3'-oxime (BIO). These cell lines have characteristics resembling those of previously reported male mouse germ cell lines as confirmed by their botryoidally aggregated morphology, as well as the expression of germ-cell-specific markers and pluripotent stem cell markers. These findings could be useful for the development of long-term culture of undifferentiated spermatogonia, which could aid in conservation of species and improvement of livestock production through genome editing technology.
BackgroundSpermatogonial stem cells (SSCs) in the mammalian testis are unipotent stem cells for spermatozoa. They show unique cell characteristics as stem cells and germ cells after being isolated from the testis and cultured in vitro. This review introduces recent progress in the development of culture systems for the establishment of SSC lines in mammalian species, including humans.MethodsBased on the published reports, the isolation and purification of SSCs, identification and characteristics of SSCs, and culture system for mice, humans, and domestic animals have been summarized.ResultsIn mice, cell lines from SSCs are established and can be reprogrammed to show pluripotent stem cell potency that is similar to embryonic stem cells. However, it is difficult to establish cell lines for animals other than mice because of the dearth of understanding about species‐specific requirements for growth factors and mechanisms supporting the self‐renewal of cultured SSCs. Among the factors that are associated with the development of culture systems, the enrichment of SSCs that are isolated from the testis and the combination of growth factors are essential.ConclusionProviding an example of SSC culture in cattle, a rational consideration was made about how it can be possible to establish cell lines from neonatal and immature testes.
Spermatogonial stem cells (SSC) self-renew and differentiate into spermatocytes to produce haploid sperm. Because SSC are a small population of adult stem cells in the testis, numerous studies have been reported to derive cell lines from cultured SSC. It has been reported that neonatal and adult mouse SSC can be cultured in vitro over the long term. Male germline stem (GS) cells, embryonic stem (ES)-like cells, and multipotent male germline stem (MGS) cells were derivated from mouse SSC. However, in domestic species including cattle, information about in vitro culture of SSC is mainly available in the neonatal and immature animal. To our knowledge, there are no reports about long-term culture of SSC isolated from adult bovine testis. In this report, we established culture conditions to maintain SSC isolated from adult and immature testes. The SSC were isolated by 3-step enzymatic digestion and enriched by Percoll gradient centrifugation. For adult testicular cell suspensions, SSC were further enriched by differential plating on precoated gelatin dish. After Percoll gradient centrifugation, we found differential expression of SSC markers (GFRα-1 and UCHL-1) in the isolated cells from immature and adult testis. The RT-PCR results also confirmed the expression of differentiated spermatogonia markers (SYCP3 and STRA-8) in adult testicular cell suspensions. It suggests that isolated testicular germ cell population from adult testis are more heterogeneous than those of immature testis. The SSC isolated from adult testes were cultured in low-serum media containing 6-bromoindirubin-3′-oxime (BIO), an inhibitor of glycogen synthase kinase-3α (GSK3), and subsequently the cultures were maintained in the medium containing glial cell line-derived neurotropic factor (GDNF). The cell lines have characteristics resembling mouse GS cell lines as confirmed by their grape-like shape morphology, the expression of SSC markers (UCHL-1, DBA, and GFRa-1), and pluripotent stem cell markers (POU5F1, SOX2, KLF4). The SSC from immature testes were proliferated for more than 3 months in serum-free culture conditions in the presence of GDNF and bovine leukemia inhibitory factor (LIF). The cell lines had ES-like cell morphology, expressed pluripotent stem cell markers and SSC-specific markers. They differentiated in vitro into 3 germ layers confirmed by the expression of ectoderm (NESTIN), mesoderm (BMP4), and endoderm (GATA-6) markers by RT-PCR and neuron like-cells confirmed by the expression of glial fibrillary acidic protein (GFAP) by immunofluorescence analysis. In conclusion, these findings indicate an efficient method to enrich SSC without cell sorting method and different long-term culture systems subsequently established to maintain SSC from adult and immature testes. Furthermore, our data would be useful for further studies that aim to preserve endangered species and improve livestock production through genome editing technology.
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