The expression profile of miR-3099 during neural development of Ts1Cje mouse model of Down syndrome

Q4 Neuroscience Neuroscience Research Notes Pub Date : 2021-03-15 DOI:10.31117/NEUROSCIRN.V4I1.62
Shahidee Zainal Abidin, Han-Chung Lee, S. Abdullah, N. Nordin, P. Cheah, K. Ling
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Abstract

MicroRNA-3099 (miR-3099) plays a crucial role in regulating neuronal differentiation and development of the central nervous system (CNS). The miR-3099 is a pro-neuronal miRNA that promotes neural stem/progenitor cell (NSPC) differentiation into neuronal lineage by suppressing astrogliogenesis. Down syndrome (DS) brain exhibited increased astrogliogenesis and reduced neuronal cell density. The involvement of miR-3099 in the neurodevelopment of DS has not been investigated and potentially responsible for the neurogenic-to-gliogenic shift phenomenon observed in DS brain. To investigate the role of miR-3099 during DS brain development, neural/progenitor cell proliferation and differentiation, we profiled miR-3099 expression level in the Ts1Cje, a mouse model for DS. We analysed the Ts1Cje whole brain at embryonic day (E) 10.5, E14.5 and P1.5, proliferating neurospheres and differentiating neurospheres at 3, 9 and 15 days in vitro (DIV). Expression of miR-3099 in both the developing mouse brain and the differentiating neurosphere was not significantly different between Ts1Cje and wild type controls. In contrast, the expression level of miR-3099 was significantly higher (p<0.05) in proliferating NSPC derived from the Ts1Cje compared to wild-type. Further molecular profiling of NPSC and glial cell markers indicated that the expression of Sox2 (p<0.01) and Gfap (p<0.05) were significantly downregulated in Ts1Cje neurospheres as compared to that of wild type, respectively. While there were no significant differences in Tuj1 and Nestin expression levels between the Ts1Cje and wild type neurospheres, their expression levels were ~3-fold upregulated and ~2.6 downregulated Ts1Cje group, respectively. The findings suggest that dysregulation of miR-3099 affects NSPC lineage commitment as indicated by altered postmitotic neuronal cell markers. Further molecular characterisation and gene expression profiling of other neuronal and glial markers will help refine the analysis of gene-gene interactions underlying the neuropathologies of DS.
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唐氏综合征Ts1Cje小鼠模型神经发育过程中miR-3099的表达谱
MicroRNA-3099 (miR-3099)在调节中枢神经系统(CNS)的神经元分化和发育中起着至关重要的作用。miR-3099是一种前神经元miRNA,通过抑制星形胶质细胞的发生,促进神经干/祖细胞(NSPC)向神经元谱系的分化。唐氏综合征(DS)大脑表现出星形胶质细胞生成增加和神经元细胞密度降低。miR-3099参与退行性痴呆的神经发育尚未被研究,并可能是在退行性痴呆脑中观察到的神经原性向胶质原性转变现象的原因。为了研究miR-3099在DS脑发育、神经/祖细胞增殖和分化中的作用,我们分析了miR-3099在DS小鼠模型Ts1Cje中的表达水平。我们分析了Ts1Cje全脑在胚胎日(E) 10.5, E14.5和P1.5,增殖神经球和分化神经球在体外3,9和15天(DIV)。在Ts1Cje和野生型对照中,miR-3099在发育中的小鼠大脑和分化中的神经球中的表达均无显著差异。相比之下,miR-3099在Ts1Cje衍生的增殖NSPC中的表达水平显著高于野生型(p<0.05)。进一步的NPSC分子分析和胶质细胞标记物分析表明,与野生型相比,Ts1Cje神经球中Sox2 (p<0.01)和Gfap (p<0.05)的表达分别显著下调。Ts1Cje组与野生型神经球中Tuj1和Nestin的表达量差异无统计学意义,但其表达量分别上调~3倍和下调~2.6倍。研究结果表明,有丝分裂后神经元细胞标记物的改变表明,miR-3099的失调影响NSPC谱系承诺。进一步的分子表征和其他神经元和神经胶质标记物的基因表达谱将有助于完善对退行性椎体滑移神经病理背后的基因-基因相互作用的分析。
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Neuroscience Research Notes
Neuroscience Research Notes Neuroscience-Neurology
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1.00
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21
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