Study of the Alzheimer's A4 precursor gene promoter region by genomic sequencing using Taq polymerase

The beta-amyloid protein has been identified as the prominent component of the fibrillary aggregates of the neuritic plaques found in Alzheimer's disease (AD). In this paper, the DNA methylation pattern of the promoter region of the Alzheimer's disease amyloid precursor gene (PAD) was assessed using the recently developed genomic sequencing technique with Taq polymerase. We analyzed seven potential methylation sites between position -460 and -275 of the PAD promoter. Three of the CpG dinucleotides we analyzed are located in the flanking regions of the AP-1 binding site and heat-shock response element consensus sequences. Of the seven CpG dinucleotides present in this region, we found none to be methylated. This finding indicates that, in healthy brain tissue, cytosine methylation of this binding motif seems not to affect protein/DNA interaction. However, it remains to be determined whether methylation of these sites is significant in AD patients.     

Characterization of the hepatitis B virus EnhI enhancer and X promoter complex.

The hepatitis B virus EnhI enhancer element overlaps the promoter of the X gene. By performing methylation interference experiments, four protein factor binding sites clustered in a 120-bp region were found to control the EnhI enhancer and X promoter activities. Deletion mapping experiments indicated that the two upstream protein factor binding sites constituted a basal enhancer module. This module, likely bound by a liver-specific factor and a ubiquitous factor, could activate the herpes simplex virus thymidine kinase gene promoter by 5- or 10-fold, depending on the orientation, in Huh7 cells, a liver-derived cell line, but not in other cell types tested. The two downstream protein factor binding sites interact with the upstream basal enhancer module in an orientation- and distance-dependent manner to increase the enhancer activity by another 10-fold. In addition, at least one of the two downstream protein factor binding sites is also essential for the X promoter activity.     

Expression of the human beta-amyloid protein of Alzheimer's disease specifically in the brains of transgenic mice

The human beta-amyloid protein is deposited in senile plaques and in the cerebro-vasculature of people with Alzheimer's disease and Down's syndrome. The precise role of beta-amyloid in Alzheimer's disease pathology is presently unknown. To study the properties of beta-amyloid in vivo, we generated transgenic mice that harbor the gene for the carboxyl-terminal 100 amino acids of the human amyloid precursor protein, beginning with the beta-amyloid region, under control of the JC viral early region promoter. The mRNA is expressed exclusively in brain tissue. Further, we demonstrate increased levels of beta-amyloid immunoreactivity on fixed brain tissue. These animals will be useful as a model to study beta-amyloid deposition and its consequences.     

老年痴呆症相关基因Nicastrin的转录调控

APP蛋白经过降解,形成老年痴呆症患者脑内老年斑的主要成分.由PS(早老素),NCT,PEN-2和APH-14种膜蛋白组成的γ分泌酶催化该降解过程.为了了解人类nicastrin(NCT)基因的转录调控机制,确定了其在人脑中的转录起始位点以及其编码区上游大小不等片段的转录起始活性.EMSA分析证实NCT启动子区的4个AP-1结合位点和2个NFAT结合位点能够与相应的转录因子结合,能够改变转录因子调控能力的定点突变和PDTC诱导使得NCT启动子在HeLa细胞和人鼠皮质神经元中的启动活性都有所改变.以上结果说明:AP-1和NFAT确实参与了人类NCT基因的转录调控.     

Sequence and methylation in the beta/A4 region of the rabbit amyloid precursor protein gene.

Alzheimer's disease is characterized by the accumulation of the beta/A4 fragment of the amyloid precursor protein in the hippocampal regions of the brain. We report here the isolation of genomic clones carrying exons 15, 16 and 17 of the beta/A4 coding region of the rabbit amyloid precursor protein gene. The complete sequence of these exons predicts that all three peptides are identical to their human counterparts. An unexpectedly high concentration of CpG dinucleotides seen in exon 15 were conserved and continued into the intron 15 region. MspI/HpaII southern blot analysis revealed the presence of a number of methylated CpG dinucleotides in the cloned region of the gene. These data suggest that the rabbit amyloid precursor protein gene could provide a new and useful model for the study of this important gene.