image: After one week, Mash1-transfected astrocytes were positive for β-tubulin (green) expression, and 4′,6-diamidino-2-phenylindole marked all cell nuclei in blue. view more
Credit: <i>Neural Regeneration Research</i>
To date, it remains poorly understood whether astrocytes can be easily reprogrammed into neurons. Mash1 and Brn2 have been previously shown to cooperate to reprogram fibroblasts into neurons. Dr. Yongjun Wang and team from Shanghai University of Traditional Chinese Medicine in China found that and found that Brn2 was expressed in astrocytes from 2-month-old Sprague-Dawley rats, but Mash1 was not detectable. Thus, the researchers hypothesized that Mash1 alone could be used to reprogram astrocytes into neurons. Murine stem cell virus (MSCV)-Mash1 recombinant plasmid was constructed and transfected into GP2-293t cells to produce retrovirus. One week later, the changes in morphology of astrocytes were detectable, which showed typical neuronal characteristics. Moreover, β-tubulin expression levels were significantly higher in astrocytes expressing Mash1 than in control cells. These results, published in the Neural Regeneration Research (Vol. 9, No. 1, 2014), indicate that Mash1 alone can reprogram astrocytes into neurons. This method determined an easier process of reprogramming through the endogenous expression of important transcription factors, which avoids malignant transformation due to the spontaneous reactivation of viral transgenes.
Article: " Mash1 efficiently reprograms rat astrocytes into neurons" by Daofang Ding1, 2, Leqin Xu1, 2, Hao Xu1, 2, Xiaofeng Li1, 2, Qianqian Liang1, 2, Yongjian Zhao1, 2, Yongjun Wang1, 2 (1 Institute of Spine, Shanghai University of Traditional Chinese Medicine, Shanghai, China; 2 Longhua Hospital, Shanghai University of Traditional Chinese Medicine, Shanghai, China)
Ding DF, Xu LQ, Xu H, Li XF, Liang QQ, Zhao YJ, Wang YJ. Mash1 efficiently reprograms rat astrocytes into neurons . Neural Regen Res. 2014;9(1):25-32.
Contact: Meng Zhao
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Neural Regeneration Research
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Neural Regeneration Research