Abstract
The PrP gene encodes the cellular isoform of the prion protein (PrP(c)) which has been shown to be crucial to the development of transmissible spongiform encephalopathies (TSEs). PrP knock-out mice, which do not express endogenous PrP(c), exhibit resistance to TSE disease. The regulation of PrP gene expression represents, therefore, a crucial factor in the development of TSEs. Two sequence motifs in the PrP promoter (positions -287 to -263 from transcriptional start) were previously reported as being highly conserved, and it was suggested that they represent binding sites for as yet unidentified transcription factors. To test this hypothesis, binding of nuclear proteins was analyzed by electrophoretic mobility shift assays using ovine or murine cells and tissues with radiolabeled DNA probes containing the conserved motif sequences. Specific binding was observed to both motifs, and polymorphic variants of these motifs exhibited differential binding. Two proteins bound to these motifs were identified as the Yin Yang 1 (YY1) (motif 1) and E4BP4 (motif 2) transcription factors. Functional promoter analysis of four different promoter variants revealed that motif 1 (YY1) was associated with inhibitory activity in the context of the PrP promoter, whereas motif 2 (E4BP4) was linked to a slight enhancing activity. This represents the first demonstration of binding of nuclear factors to two highly conserved DNA sequence motifs within mammalian PrP promoters. The action of these factors on the PrP promoter is haplotype-specific, leading us to propose that the prion protein expression pattern and, with it, the distribution of TSE infectivity may be associated with PrP promoter genotype.
Highlights
Beside its key role in disease, the physiological function of PrPC remains elusive with signal transduction, synaptic transmission, neuroprotection, and immunoregulation among the proposed properties [6]
The Yin Yang 1 (YY1) Transcription Factor Binds to the Variant Motif 1 Site—Our experiments with nuclear extract from cell cultures have shown that the motif 1 sequence (CTTTCATTTTCT), as published for human PRNP, mouse prn-p, and sheep PrP promoters, does not form a stable protein-DNA complex under the conditions used in the mobility shift assays
Our data demonstrate that at the cellular level PrP transcription is regulated by transcription factors that have been shown to be involved in neurodegeneration (YY1) and periodic time regulation (E4BP4)
Summary
Beside its key role in disease, the physiological function of PrPC remains elusive with signal transduction, synaptic transmission, neuroprotection, and immunoregulation among the proposed properties [6]. Regulatory sequences have been mapped to a region ϳ90 base pairs upstream of the rat and bovine genes that appears to depend for activity on elements in intron 1 [9, 10] and exon 1 [11]. This upstream region is rich in consensus binding sites for SP1 that are highly conserved between species [12]. The aim of this study was to identify factors that bind to the ovine PrP gene promoter and to determine their role in transcriptional regulation. Whereas YY1 acted as an inhibitor but only bound to one PrP haplotype, E4BP4 acted as an activator of transcription binding with different affinities to all PrP haplotypes
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