Institute of Stem Cell Engineering & Technology, Northwest A&F University, Yangling 712100, People's Republic of China.
Anim Reprod Sci. 2010 Apr;118(2-4):103-9. doi: 10.1016/j.anireprosci.2009.06.018. Epub 2009 Jul 1.
The purpose of this study was to isolate the foetal cattle male germ cells (mGCs) and then induce them into sperm cells. The mGCs were purified and enriched by a two-step plating method based on the different adherence velocities of mGCs and somatic cells. The percentage of the vasa and the c-kit positive cells were 95.34+/-2.25% and 53.3+/-1.03% by using flow cytometry analysis (FCA), respectively. In feeder-free culture system, the half-suspending cells appeared and formed a 16-cell rosary in medium after the mGCs were cultured for 6-8 days. On immunocytochemical staining during the second passage, some single cells adhering to the plate appeared to be both Oct-4 and alpha6-integrin positive. During the third passage, the mGCs were induced for 48 h by retinol acid (RA) on Sertoli cell-feeder layer, followed by 5-7 days culture in an RA-free medium. Some elongated sperm-like cells appeared in the medium at this stage. We found that the most effective concentration of RA for the inducement was 10(-7)moll(-1) (P<0.01). The haploid cells in suspension were identified by FCA. The elongated sperm-like cells showed proacrosome-like structure and the flagellum with fibre construct under electron microscopy. The mRNA of outer dense fibre-3 (ODF-3) and transcription protein-1 (TP-1) could be detected in the suspended cells by using reverse transcription polymerase chain reaction (RT-PCR). About 23.1% bovine oocytes could be activated to perform cleavage by intracytoplasmic injection with the sperm-like cells, but embryos did not further develop. Our investigation further demonstrated that foetal cattle mGCs could be induced in vitro into haploid sperm in the short term.
本研究旨在分离牛胎儿精原细胞(mGCs)并诱导其分化为精子细胞。采用两步铺板法,基于 mGCs 和体细胞贴壁速度的不同,对 mGCs 进行纯化和富集。采用流式细胞术分析(FCA)检测,vasa 和 c-kit 阳性细胞的百分比分别为 95.34+/-2.25%和 53.3+/-1.03%。在无饲养层培养体系中,mGC 培养 6-8 天后,半悬浮细胞出现,并在培养基中形成 16 细胞珠。在第二代传代时,免疫细胞化学染色显示,贴壁的单细胞有部分呈 Oct-4 和α6-整合素阳性。第三代传代时,在 Sertoli 细胞饲养层上用视黄酸(RA)诱导 mGC 48 小时,然后在无 RA 培养基中培养 5-7 天。此时,培养基中出现一些长形精子样细胞。我们发现,RA 诱导的最适浓度为 10(-7)moll(-1)(P<0.01)。通过 FCA 鉴定悬浮液中的单倍体细胞。长形精子样细胞表现出前顶体样结构和具有纤维结构的鞭毛。在悬浮细胞中,通过逆转录聚合酶链反应(RT-PCR)可以检测到外致密纤维-3(ODF-3)和转录蛋白-1(TP-1)的 mRNA。通过胞质内注射这些精子样细胞,约 23.1%的牛卵母细胞可以被激活进行卵裂,但胚胎没有进一步发育。我们的研究进一步表明,牛胎儿 mGCs 可以在短期内被诱导体外分化为单倍体精子。
