Department of Obstetrics and Gynaecology, University of Auckland, New Zealand.
Liggins Institute, University of Auckland, New Zealand.
Placenta. 2021 May;108:1-10. doi: 10.1016/j.placenta.2021.03.009. Epub 2021 Mar 19.
Primary trophoblast cultures obtained from term placentae are an important research tool. Term trophoblasts, while isolated as mononuclear cells, spontaneously fuse to form multinucleated syncytial clusters. Since term trophoblast cells do not replicate in vitro, contaminating cells can overgrow the culture limiting the lifespan of primary trophoblast cultures to about seven days. We aimed to develop a method that would allow the prolonged culture of term trophoblasts.
Trophoblasts were isolated from term placentae, following vaginal or cesarean section delivery, using either trypsin/DNase or dispase/DNase to digest the tissue. Purity of the trophoblasts was confirmed using flow cytometry prior to plating and during culture using immunocytochemistry. Cell death was examined with propidium iodide and trophoblast fusion monitored using PKH67 membrane stain.
Digestion of term villous tissue with dispase/DNase resulted in the release of significantly more trophoblasts than digestion with trypsin/DNase (n = 8, p = 0.0051). Viability of the trophoblasts was unaffected by enzyme choice. The use of Advanced DMEM/F12 supplemented with 2% fetal bovine serum allowed culture of the trophoblasts with minimal cell death or contamination for 30 days. Despite prolonged culture over half of the trophoblasts remained mononuclear.
We report a simple, optimized method to isolate and culture trophoblasts from term placentae for prolonged periods without substantial contamination with other cell types. Consistent with previous findings, trophoblasts cultured using our method were able to syncytialise, forming multi-nucleated syncytia. This extended growth time allows long term in vitro experimentation to further understand the nature of trophoblasts.
从足月胎盘获得的初级滋养层细胞是一种重要的研究工具。足月滋养层细胞在分离为单核细胞时会自发融合形成多核合胞体簇。由于足月滋养层细胞在体外不会复制,因此污染细胞会过度生长,限制原代滋养层培养物的寿命约为七天。我们旨在开发一种能够延长足月滋养层培养物寿命的方法。
从足月胎盘(通过阴道或剖宫产分娩)中分离滋养层细胞,使用胰蛋白酶/DNase 或Dispase/DNase 消化组织。在接种前和培养过程中使用流式细胞术确认滋养层细胞的纯度,使用免疫细胞化学法进行确认。使用碘化丙啶检查细胞死亡情况,并使用 PKH67 膜染色监测滋养层融合。
Dispase/DNase 消化足月绒毛组织比胰蛋白酶/DNase 消化释放出明显更多的滋养层细胞(n=8,p=0.0051)。酶选择对滋养层细胞的活力没有影响。使用添加 2%胎牛血清的高级 DMEM/F12 培养基允许滋养层细胞在最小细胞死亡或污染的情况下培养 30 天。尽管延长了培养时间,但超过一半的滋养层细胞仍保持单核状态。
我们报告了一种简单、优化的方法,从足月胎盘分离和培养滋养层细胞,可在没有其他细胞类型大量污染的情况下进行长时间培养。与之前的发现一致,我们的方法培养的滋养层细胞能够发生合胞作用,形成多核合胞体。这种延长的生长时间允许进行长期的体外实验,以进一步了解滋养层细胞的性质。
