Control elements of muscarinic receptor gene expression

Studies describing the structures of the M1, M2 and M4 muscarinic acetylcholine receptors (mAChR) genes and the genetic elements that control their expression are reviewed. In particular, we focus on the role of the neuron-restrictive silencer element/restriction element-1 (NRSE/RE-1) in the regulation of the M4 mAChR gene. The NRSE/RE-1 was first identified as a genetic control element that prevents the expression of the SCG-10 and type II sodium channel (NaII) genes in non-neuronal cells in culture. The NRSE/RE-1 inhibits gene expression by binding the repressor/silencer protein NRSF/REST, which is present in many non-neuronal cell lines and tissues. Our studies show that although the expression of the M4 mAChR gene is inhibited by NRSF/REST, this inhibition is not always complete. Rather, the efficiency of silencing by NRSF/REST is different in different cells. A plausible explanation for this differential silencing is that the NRSF/RE-1 interacts with distinct sets of promoter binding proteins in different types of cells. We hypothesize that modulation of NRSF/REST silencing activity by these proteins contributes to the cell-specific pattern of expression of the M4 mAChR in neuronal and non-neuronal cells. Recent studies that suggest a more complex role for the NRSE/RE-1 in regulating gene expression are also discussed.     

神经元限制性沉默因子对人胰岛素基因转录调控作用的研究

为了研究神经元限制性沉默因子(NRSF)调控神经元及胰岛细胞中神经特异性基因的表达,进一步寻找胰岛细胞中可能存在的其他NRSF调控基因.先用生物信息学手段对相关基因进行了分析.筛选及序列比对发现,人胰岛素核心启动子区有一段与NRSE相似的序列,提示,它可能受NRSF调控.构建了含NRSF基因的慢病毒载体,将其稳定转染于INS-1细胞.构建了3种荧光素酶报告载体:含有人胰岛素启动子-荧光素酶(hInsP-LUC)的慢病毒载体,pGL3-Basic载体和含有2拷贝NRSE样基序-荧光素酶(NRSE-LUC)的报告载体.利用稳定转染及瞬时转染实验观察NRSF对报告载体中荧光素酶活性的影响.利用电泳迁移率变动分析实验观察NRSE样基序与NRSF蛋白的结合情况,并通过竞争结合实验、引入特异性抗体实验证实探针与蛋白质结合的特异性.RT-PCR检测证实,感染空病毒的INS-1细胞不表达NRSF,感染含目的基因慢病毒的INS-1细胞能表达NRSF.将含有hInsP-LUC的慢病毒载体稳定转染于上述2种细胞,荧光素酶活性分析结果显示,NRSF的过表达能明显降低胰岛素启动子的活性.瞬时转染hInsP-LUC报告系统于上述2种细胞,结果也显示NRSF能明显抑制胰岛素启动子-荧光素酶的活性.将含有NRSE-LUC的报告载体瞬时转染于上述2种细胞,结果表明过表达NRSF的INS-1细胞组的荧光素酶相对值比对照组有明显下降.电泳迁移率变动分析实验进一步证实,此NRSE样序列可以与NRSF蛋白特异结合,这种特异结合可以被标准的NRSE序列所竞争.结果表明,人胰岛素启动子中含有NRSE样序列,该序列通过与NRSF蛋白结合从而抑制人胰岛素启动子的转录活性.这一研究工作有助于进一步了解NRSF在胰岛细胞中的调控作用.