ABSTRACT
Objective To study the protective effects of hydroxysafflor yellow A (HSYA) against the oxidative damage caused by β-mercaptoethanol (BME) during neural differentiation of mesenchymal stem cells (MSCs) in vitro. Methods When the confluence reached 50%-60%, 4th passage MSCs were divided into three groups to culture. G1: normal group which was cultured using basic medium (DMEM containing 10% FBS all the time); G2: unprotected group which was continuously cultured using basic medium for 24 h, and then cultured using pre-induction medium (DMEM containing 10% FBS and 1 mmol/L BME); G3: protected group which was firstly cultured using protective medium (DMEM containing 10% FBS and 160 mg/L HSYA) for 24 h, and then cultured using pre-induction medium for 24 h. After these treatments as above, cell viability, relative levels of SOD/GSH and apoptosis rate were respectively detected. The expression of Bcl and Bax was examined by Western blotting. After HSYA protection and BME pre-induction, neural induction was performed. The expression of NSE and MAP-2 was respectively analyzed on cellular and molecular levels. Results Compared with unprotected group, 160 mg/L HSYA could obviously improve cells viability, maintain high level of SOD and GSH in MSCs, reduce apoptosis rate and improve the ratio of Bcl/Bax. After protection with 160 mg/L HSYA, the survival time of neuron-like cells could be extended. Immunocytochemical staining showed that after 10 h of neural induction, the differentiated neuron-like cells in protected group were still in a good state, and the mRNA levels of NSE and MAP-2 were increased during the induction course checked. Conclusion HSYA could improve the resistance of cells to the oxidative damage caused by BME.
ABSTRACT
Objective To reseach the time point of the highest percentage of neural precursor cells derived from adipose stromal cells (ADSCs) in vitro, and to observe the ultrastructure features of neural precursor cells. Methods Used the β-mercaptoethanol to induce ADSCs to differentiate into neural precursor cells and neuron-like cells. The morphology of the uninductedcells and inducted cells were observed with inverted phase contrast microscope. The expression of nestin which was the marker of neural precursor cell in each group was detected using immunofluorescence staining method. The ultrastructural feature of cells which was induced for 3 hours were observed. Results The highest ratio of positive expression of nestin was 3 hours following induction,with the ratio ( 86.25 ± 4.82) %. There were many protuberance on the cell membrane under transmission electron microscopy.There were plenty of organelles in the neural precursor cells. The neural precursor cells had a large size nucleus,large nucleoplasmic index, much extended chromatin,and less condensed chromatin. The nucleus had double-layer nuclear envelope, more nuclear pore on the nuclear envelope. Conclusion The time point of the highest percentage of neural precursor cells derived from ADSCs is 3 hours,and the ultrastructral feature of induced neural precursor cells confirm that cells at this time point are in a state of split active period.
ABSTRACT
t of the cells treated with BME alone (P<0.05). It was concluded that MMW exposure enhanced the induc-ing effect of BME on the differentiation of BMSCs into cells with a neural phenotype.