Influence of murine cytomegalovirus infection on the differentiation and the differentiation genes expression in neural stem cells
- VernacularTitle:鼠巨细胞病毒影响神经干细胞分化及分化基因的表达
- Author:
Dan LUO
;
Sainan SHU
;
Yufeng ZHOU
;
Xinglou LIU
;
Jia TIAN
;
Hui WANG
;
Hua ZHOU
;
Ge LI
;
Feng FANG
- Publication Type:Journal Article
- Keywords:
Cytomegalovirus;
Neural stem cells;
Cell differentiation;
Genes,Neurog2;
Genes,Myc;
Genes,Ccnd1
- From:
Chinese Journal of Pathophysiology
2009;25(11):2173-2181
- CountryChina
- Language:Chinese
-
Abstract:
AIM: The influence of MCMV infection on differentiation and differentiation gene expression in neural stem cells ( NSCs) in vitro were investigated for studying the mechanisms of brain abnormalities caused by congenital cytomegalovirus infection. METHODS: NSCs were separated from fetal BALB/C mouse, and cultured and identified in vitro. The differentiation potency of NSCs was observed by immunofluorescence. The NSCs infected by MCMV at dosage of MOI( multiplicity of infection) equaled to 5, 1 and 0.1 .respectively, were cultured in differentiation medium. The morphological changes of infected cells were observed under inverted microscope. The ratios of NSCs and its differentiated cells were detected by flow cytometry. The expressions of nestin, GFAP and NSE, markers of NSCs and its differentiated cells, were studied by immunofluorescence( MOI = 1). The expression of early antigen ( EA ) of MCMV was detected to observe the infection process. Real - time RT - PCR method was employed to measure the expression levels of the key genes Neurog2, Myc and Ccnd1 in Wnt signal pathway of NSCs at early stage of differentiation culture. RESULTS: NSCs isolated from embryonic mouse brains proliferated to form neurospheres, strongly expressed nestin and differentiated into NF - 200 positive neurons or GFAP positive astrocytes. The infected NSCs did not adhere to the wall and appeared differentiation growths, but showed swollen gradually after differentiation culture. The nestin expression in the infected cells downregulated slowly and was higher than that in control groups ( P < 0.05). The GFAP and NSE expressions of the infected cells were lower than those in control groups ( P <0.05). The early antigen ( EA) of MCMV was always detected in the cells in infected groups. The ratios of nestin positive cells in infected groups were higher than those in control groups, but the ratios of GFAP and NSE positive cells of former were lower than that of the latter from 3rd to 9th d after differentiation culture(P < 0.05 ). The levels of Neurog2 mRNA and Myc mRNA in infected groups were markedly lower than those in normal control groups on 1st d and from 1st to 4th d after differentiation culture, respectively( P <0.05). The levels of Ccnd1 mRNA of infected groups were obviously lower than those in normal control groups from 12th h to 1st d( P <0.05 ). These changes in infected groups became more obvious as MCMV MOI increased. CONCLUSION: MCMV significantly inhibits differentiation of NSCs to neurons and astrocytes, and leads to the decrease in differentiated cells. MCMV inhibits or interferes with the gene expression of Newog2, Myc and Ccnd1 in Wnt signal pathway of NSCs. The effect that MCMV inhibits the expressions of differentiation and the differentiation genes in NSCs shows dose - dependent with MCMV MOI. The inhibitory effect of MCMV on the differentiation of NSCs might be induced by interfering with the expression of differentiation gene in NSCs, which is possibly the one of primary causes of brain development disorders induced by congenital CMV infection.
