ABSTRACT
@# Objective To explore the optimal experiment conditions of CCK-8 and MTS for cell proliferation assays in human amniotic epithelial cells and to evaluate the cytotoxicity of these reagents. Methods Human amniotic epithelial cells (hAECs) in logarithm growth stages were prepared in different cell concentrations with DMEM/F12 and 10% FBS. The sensitivity and optimal wavelengths was determined based on the optical density (OD) measured at 450 nm and 492 nm. The optimal time was determined under the conditions of the same cell concentration and defined OD values. HAECs were treated with DMSO, CCK-8 and MTS for 1 h, 2 h, 3 h, and 4 h, respectively. 24 h later, cytotoxicity of the CCK-8 and MTS was evaluated by determination of cell proliferation and Trypan Blue staining. Results The optimal detection wavelength was 450 nm for CCK-8, and 492 nm for MTS. The sensitivity of CCK-8 was slightly lower then that of MTS. The optimal time for incubation hAECs with CCK-8 was 4 h within 1~4 h. The inhibitory on cell proliferation and cytotoxicity of CCK-8 were weaker then those of MTS. Conclusion CCK-8 is a convenient reagent with low cytotoxicity for detection of the proliferation of hAECs.
ABSTRACT
@#Parkinson's disease is a progressive neurodegenerative disorder in central nervous system caused by the loss of midbrain dopaminergic neurons. At present, dopaminergic neurons differentiated both in vivo and in vitro from neural stem cells act as an important cell source for the cell-replacement therapy of Parkinson's disease. This paper reviewed the major molecular mechanism, signaling pathway and important environment factors involved in differentiation of dopaminergic neurons from neural stem cells, based on the research findings in recent 10 years.