Natural Promoters

Introduction

Eukaryotic promoters are very complex and difficult to characterize. They usually lie upstream of their target gene, but they can have regulatory elements that are several kilobases away from the promoter. Figure 1 shows some of the factors involved in the transcriptional regulation of polymerase II [1]. For our assay we want to utilize several natural promoters to sense certain conditions in the cell, such as hypoxia, DNA damage and heat. The selection criteria for these promoters are that they have to be very specific to a transcription factor and they have to be easily induced and inhibited. These natural promoters will give us a chance to start testing and fine-tuning our output system early on which can then be applied to our synthetic promoters.

Figure 1: Diagram of various components involved in regulation of Pol-II transcrition. The regulatory elements include a core promoter where Pol II and a variety of general factors bind to specific DNA motifs including the TATA box , which is bound by the "TATA-binding protein" (TBP). The Initiator motif (INR), where Pol II and certain other core factors bind, is present in many Pol II-regulated genes and the Downstream Promoter Element (DPE), which is present in a subset of Pol II genes, and where additional core factors bind. The proximal promoter is upstream (5') of the core promoter, Pol II target genes often have a Proximal Promoter region that spans up to 1000 bp contains a number of functional DNA binding sites for a specific set of transcription activator (TA) and transcription repressor (TR) proteins. Most Pol II regulated genes in higher eukaryotes have one or more distal Enhancer regions which are essential for proper regulation of the gene, often in a cell or tissue-specific pattern. Like the proximal promoter region, each of the distal enhancer regions typically contain a cluster of binding sites for specific TA and/or TR DNA-binding factors, rather than just a single site.

Results

After the cloning of the natural promoters in our screening plasmid pSMB_MEASURE they were tested in different cell lines with appropriate induction substances. The transfected cells were measured by flow cytometry and TECAN. Thereby, the c-Jun promoter and the CYP1A1 promoter were tested by flow cytometry and the LDL receptor promoter, HSP70 promoter and HMG CoA synthase promoter were measured by TECAN. Because of low cell number, the CYP1A1 measurement could not be analyzed. In figure 2 the flow cytometry measurement data of the c-Jun promoter is displayed, which were induced by Epidermal Growth Factor for three hours. The results present an induction of more than 100%. Figure 3 presents the TECAN results of the both SREBP responsive promoters, LDL receptor and HMG CoA synthase promoter.

Figure 2: Flow cytometry results of the natural promoter c-Jun (Ap-1). The cell line HeLa was cotransfected with the natural c-Jun promoter coupled to GFP and a reference plasmid including the promoter JeT coupled to mCherry. The relative fluorescence (REU) of GFP is measured 3 hours after induction with EGF (diluted 1:2000 in DMEM++). The standard deviation is indicated by the error bars.

Figure 3: TECAN results of the natural LDL receptor promoter and HMG CoA synthase promoter. The natural LDL receptor promoter and HMG CoA synthase promoter are coupled to the protein GFP and were cotransfected with a reference plasmid, which includes the standard promoter JeT coupled to mCherry, into HeLa cells. The GFP fluorescence relative to JeT is measured after the induction with Lipo Deficient Serum medium. The error bars represent the standard deviation.

Discussion

The results of the c-Jun promoter looks very promising. But the flow cytometry measurement should be repeated at least three times. Besides, this measurement could be also analyzed by microscopy and will be more reliable. The TECAN measurement of the SREBP responsive promoters, LDL receptor and HMG CoA synthase promoter, show a great induction. But this has also to be proved by microscopy and flow cytometry. Unfortunately, the appropriate induction conditions for the other natural promoters were not figured out in the remaining time.

Methods

The different natural promoter inserts (see table 1) were integrated in the pSMB_MEASURE (LINK!!). For this purpose, the promoters of the ordered plasmids/genomic DNA were amplified by PCR and primers with BBb standard. These PCR products were digested by restriction enzymes and purified. The purified inserts were ligated into the pSMB_MEASURE plasmid and transformed into DH5alpha bacterial cells. After mini-preparation the plasmids were sequenced, which revealed the right sequences. The natural promoters were transfected in different cell lines and induced with appropriate substances, which is presented in table 1. The analysis is made by flow cytometry or TECAN measurement. More details about the method are found in the Notebook (LINK).

References

[1] Alberts, B. et al: „Molekularbiologie der Zelle“ (Book. 4th edition, 2004. WILEY-VCH) Chapter 6, p. 357-359.
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