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Abstract
The continuous production of mammalian sperm is maintained
by the proliferation and differentiation of spermatogonial
stem cells that originate from primordial germ cells
(PGCs) in the early embryo. Although spermatogonial stem
cells arise from PGCs, it is not clear whether fetal male
germ cells function as spermatogonial stem cells able to
produce functional sperm. In the present study, we
examined the timing and mechanisms of the commitment of
fetal germ cells to differentiate into spermatogonial stem
cells by transplantation techniques. Transplantation of
fetal germ cells into the seminiferous tubules of adult
testis showed that donor germ cells, at 14.5 days post
coitum (dpc), were able to initiate spermatogenesis in the
adult recipient seminiferous tubules, whereas no germ cell
differentiation was observed in the transplantation of
12.5-dpc germ cells. These results indicate that the
commitment of fetal germ cells to differentiate into
spermatogonial stem cells initiates between embryonic days
12.5 and 14.5. Furthermore, the results suggest the
importance of the interaction between germ cells and
somatic cells in the determination of fetal germ cell
differentiation into spermatogonial stem cells, as normal
spermatogenesis was observed when a 12.5-dpc whole gonad
was transplanted into adult recipient testis. In addition,
sperm obtained from the 12.5-dpc male gonadal explant had
the ability to develop normally if injected into the
cytoplasm of oocytes, indicating that normal development
of fetal germ cells in fetal gonadal explant occurred in
the adult testicular environment.
Key words:
Gamete Biology •
Testis •
Developmental biology •
Sperm •
Spermatogenesis
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