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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

199 DIFFERENTIATION OF HIGHLY ENRICHED OLIGODENDROCYTE PRECURSORS AND MATURE OLIGODENDROCYTES FROM RHESUS MONKEY EMBRYONIC STEM CELLS

T. Li, Y. Xie and W. Ji

Reproduction, Fertility and Development 18(2) 207 - 207
Published: 14 December 2005

Abstract

Generating homologous oligodendrocytes are required for studying the molecular mechanisms of oligodendrogliogenesis and for providing donor cells for transplantation therapies. Previous studies have shown that embryonic stem (ES) cells can be induced to generate neural stem cells with many kinds of culture systems; however, few or no oligodendrocytes were obtained from these culture systems. Here we present a simple method containing five steps for obtaining highly enriched oligodendrocyte precursors (75 ± 6.8%) and mature oligodendrocytes (81 ± 8.6%) from rhesus monkey embryonic stem (rES) cells. We expanded rES cells on a feeder layer of irradiated MESF (ear skin fibroblasts from a one-week-old rhesus monkey), formed embryoid bodies (EBs), promoted Day 9 (3 days in hanging drop and 6 days in suspension) differentiation into highly enriched (90.2 ± 6.1%) neural progenitors (NPs) with hepatocyte growth factor (HGF) and G5 supplement [containing 5 ng/mL (bFGF) and 10 ng/mL epidermal growth factor (EGF)], purified NPs with 0.0625% trypsin in 0.04% EDTA (98% of cells were nestin-positive), amplified those progenitors in HGF and G5 media for two months, and then induced oligodendrocyte precursors differentiation in the absence of G5, but in the presence of 20 ng/mL HGF for 2 days. To obtain terminal oligodendrocytes, neurospheres cultured for 2 months were plated on laminin-coated plates for 3 weeks in the presence of HGF. The results showed that differentiated cells expressed myelin basic protein (MBP) and had typical mature oligodendrocyte morphology. Our studies also revealed that HGF significantly increased the NP proliferation speed (P < 0.05) by both decreasing cell apoptosis rate (P < 0.05) and shortening cell cycle time (P < 0.05) in the presence of G5. Additionally, HGF promoted oligodendrocyte maturation by increasing the length and number of branches and the expression of MBP. To test whether the original HGF had similar functions for oligodendrocyte specification, a series of experiments were evaluated by adding HGF or G5 to differentiation or expansion media at different differentiation stages. The results demonstrated that the ability of HGF responsiveness to initiate oligodendrocyte differentiation was regulated by G5 and by HGF alone without G5-induced rES cell differentiation into neurons. Further studies showed that the crucial time point of G5 action was from EBs to NPs; the early addition of HGF to EBs in the presence of G5 increased oligodendrocyte differentiation rate, but was not necessary, and the treatment during the first 2 days was enough to produce a similar effect; and HGF was required for terminal oligodendrocyte differentiation from NPs. Taken together, these results showed that HGF and G5 cooperatively promote rES cell differentiation into highly enriched oligodendrocyte precursors and mature oligodendrocytes.These observations set the method for obtaining highly enriched oligodendrocytes from ES cells in the nonhuman primate for clinical application and provide a platform to probe the molecular mechanisms that control oligodendrocyte differentiation.

https://doi.org/10.1071/RDv18n2Ab199

© CSIRO 2005

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