Similar results were obtained by Chen et al. where lowered oxygen levels did Volasertib CAS not prove to be favourable, and by Milosevic et al. who described a positive effect of hypoxia on the proliferation only after culturing NPCs for 1 month, but not prior to that. In addition, EPO did not affect proliferation although the EpoR could be detected in proliferating Inhibitors,Modulators,Libraries cells and 10 IU ml EPO seems to lead to an increased prolif eration though this effect was not significant compared to the control. However, higher amounts of EPO could be saturating and thus lead to no effect, either. The differentiation of the hNPCs was investigated under various conditions. First, the metabolic activity of differentiating hNPCs was monitored with and without EPO treatment. An effect of EPO was detected early in 1 day differentiated cells.
Remarkably at 3% oxygen, EPO was required at higher concentra tions to produce an equivalent effect. This indicates that hypoxia acts only in part via the EPO pathway and that addition of EPO mimics the effect Inhibitors,Modulators,Libraries of lowered oxy gen. Generally one can say that hypoxia increases the metabolic activity of hNPCs, which was highest at 1 d of differentiation, AV-951 indicating the importance of early dif ferentiation processes, as the effect at day 3 was not as high as at day 1. These data are in accordance with Stu der et al. where EPO mimicked the effect of hypoxia under normoxic conditions in embryonic mice NPCs. For further investigation of the differentiation, the cell cycle of the hNPC was analysed under normoxic and hypoxic conditions.
This analysis revealed that the cells needed Inhibitors,Modulators,Libraries around 20 h to enter G1 phase, and that this time frame is the same under normoxic and hypoxic conditions. These findings are in line with data about the cell cycle of murine Inhibitors,Modulators,Libraries midbrain NPCs where the cell cycle, the proliferation and neurosphere formation was not altered within 4 weeks of cell culture. Similar results were obtained by Santilli et al. who likewise demonstrated no effect of hypoxia on the cell cycle of human NSCs. These results are of major importance to further interpret the expression levels of bIII tubulin as a marker for neuronal differentiation. In this study EPO did not alter neuronal differentia tion in the hNPCs. This is in contrast to rat and human mesencephalic progenitors where EPO enhanced the number of neurons. A possible explanation for this discrepancy could be the fact that different model systems have been used. The percentage of neurons in our study was increased selleck kinase inhibitor after culturing the cells under hypoxic conditions. This is in accordance with Zhang et al. and Studer et al. where hypoxic culturing conditions also led to a higher yield of neu rons.