Nadeau Sylvain, Hein Paul, Fernandes Karl J L, Peterson Alan C, Miller Freda D
Developmental Biology and Neurobiology and Behavior, Hospital for Sick Children, 3203 Black Wing, Toronto, Ontario, Canada M5G 1X5.
Mol Cell Neurosci. 2005 Aug;29(4):525-35. doi: 10.1016/j.mcn.2005.04.004.
The molecular mechanisms responsible for inducing gene expression following neuronal injury are not well understood. Here, we address this issue by focusing upon C/EBPbeta, a transcription factor implicated in cellular injury and regeneration. We show that C/EBPbeta mRNA is expressed in neurons throughout the mature brain and that levels of both C/EBPbeta mRNA and phosphoprotein are increased in facial motor neurons following axonal injury. To determine the importance of these increases, we examined the regeneration-associated Talpha1 alpha-tubulin gene which contains functional C/EBP binding sites in its promoter. In transgenic mice, expression of a minimal 176 nucleotide Talpha1 alpha-tubulin promoter:nlacZ reporter gene was upregulated in injured facial motor neurons. This injury-induced transcriptional increase was inhibited in C/EBPbeta -/- mice. A similar inhibition was observed in C/EBPbeta -/- mice that carried a larger 1.1-kb promoter Talpha1:nlacZ reporter construct. Moreover, in situ hybridization revealed that the injury-induced upregulation of the endogenous mouse alpha1 alpha-tubulin mRNA, and of a second regeneration-associated mRNA, GAP-43, was inhibited in C/EBPbeta -/- mice. Thus, C/EBPbeta is essential for the neuronal injury response, acting to transcriptionally activate regeneration-associated gene expression.
神经元损伤后诱导基因表达的分子机制尚未完全明确。在此,我们通过聚焦于C/EBPβ来解决这一问题,C/EBPβ是一种与细胞损伤和再生相关的转录因子。我们发现C/EBPβ mRNA在整个成熟大脑的神经元中均有表达,并且在轴突损伤后,面神经运动神经元中的C/EBPβ mRNA和磷酸化蛋白水平均会升高。为了确定这些升高的重要性,我们检测了与再生相关的Tα1α-微管蛋白基因,该基因的启动子中含有功能性C/EBP结合位点。在转基因小鼠中,最小的176个核苷酸的Tα1α-微管蛋白启动子:nlacZ报告基因在损伤的面神经运动神经元中表达上调。这种损伤诱导的转录增加在C/EBPβ -/-小鼠中受到抑制。在携带更大的1.1 kb启动子Tα1:nlacZ报告构建体的C/EBPβ -/-小鼠中也观察到了类似的抑制作用。此外,原位杂交显示,在C/EBPβ -/-小鼠中,内源性小鼠α1α-微管蛋白mRNA以及另一种与再生相关的mRNA GAP-43的损伤诱导上调受到抑制。因此,C/EBPβ对于神经元损伤反应至关重要,它通过转录激活与再生相关的基因表达发挥作用。
