Journal
BIOLOGY OF REPRODUCTION
Volume 104, Issue 2, Pages 344-360Publisher
OXFORD UNIV PRESS INC
DOI: 10.1093/biolre/ioaa195
Keywords
primordial germ cells (PGCs); PGC-like cells (PGCLCs); in vitro expansion; cyclosporin A; fibroblast growth factor; epigenetic reprogramming
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Funding
- JSPS [17H06098, 15H05636, 19H03618]
- JST ERATO grant [JPMJER1104]
- HFSP [RGP0057/2018]
- Pythias Fund
- Open Philanthropy Project
- Grants-in-Aid for Scientific Research [19H03618, 15H05636] Funding Source: KAKEN
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The study identified that forskolin and rolipram can enhance the proliferation/survival of mouse PGC-like cells, while cyclosporin A and fibroblast growth factors effectively improve the expansion of these cells in vitro. This improved culture system led to successful spermatogenesis and production of fertile offspring, offering insights into key questions in PGC biology such as germ cell migration, epigenetic reprogramming, and sex determination of the germline.
Primordial germ cells (PGCs) are the founding population of the germ cell lineage that undergo a multistep process to generate spermatozoa or oocytes. Establishing an appropriate culture system for PGCs is a key challenge in reproductive biology. By a chemical screening using mouse PGC-like cells (mPGCLCs), which were induced from mouse embryonic stem cells, we reported previously that forskolin and rolipram synergistically enhanced the proliferation/survival of mPGCLCs with an average expansion rate of similar to 20-fold. In the present study, we evaluated other chemicals or cytokines to see whether they would improve the current mPGCLC culture system. Among the chemicals and cytokines examined, in the presence of forskolin and rolipram, cyclosporin A (CsA) and fibroblast growth factors (FGFs: FGF2 and FGF10) effectively enhanced the expansion of mPGCLCs in vitro (similar to 50-fold on average). During the expansion by CsA or FGFs, mPGCLCs comprehensively erased their DNA methylation to acquire a profile equivalent to that of gonadal germ cells in vivo, while maintaining their highly motile phenotype as well as their transcriptional properties as sexually uncommitted PGCs. Importantly, these mPGCLCs robustly contributed to spermatogenesis and produced fertile offspring. Furthermore, mouse PGCs (mPGCs) cultured with CsA ex vivo showed transcriptomes and DNA methylomes similar to those of cultured mPGCLCs. The improved culture system for mPGCLCs/mPGCs would be instructive for addressing key questions in PGC biology, including the mechanisms for germ cell migration, epigenetic reprogramming, and sex determination of the germline.
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