Regulatory
P_4xCRE

Part:BBa_K5267004

Designed by: Jin Zhexu   Group: iGEM24_NUDT-CHINA   (2024-08-17)
Revision as of 12:17, 2 October 2024 by Travis (Talk | contribs)


P_4xCRE

P_4xCRE is a synthetic promoter designed to respond to the activation of the cAMP/PKA/CREB pathway in mammalian cells.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal BglII site found at 88
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]


Profile

Name: P_4xCRE
Base Pairs: 240bp
Origin: Homo sapiens
Properties: A synthetic promoter that responds to the activation of the cAMP/PKA/CREB pathway in mammalian cells.


Usage and Biology

The cAMP response element (CRE) plays a critical role as the binding site for the cAMP response element-binding protein (CREB), which is typically located within 100 nucleotides of the TATA box. CREB binds to cAMP response elements and recruits transcriptional coactivators, such as CBP/p300, to form transcription complexes that initiate the transcription of target genes.[1]

The TATA box is a fundamental component of eukaryotic promoters, typically represented by the consensus sequence TATA(A/T)A(A/T), located approximately 30 bp upstream of the transcription start site of most eukaryotic genes. This region is primarily composed of A-T base pairs and is essential for the selection of gene transcription, serving as a binding site for RNA polymerase, which must bind firmly to the TATA box to initiate transcription.

The ability of CRE sequences to mediate transcriptional activation in response to cAMP appears to be somewhat promoter-dependent[1].In this experiment, the TATA box of the commonly used CMV promoter was minimized to reduce the nucleotide sequence required for transcription, resulting in the designation of Pmin

The activity of CREB is modulated by various signaling cascades, including three downstream pathways activated by the melatonin receptors MT1 and MT2 in response to melatonin stimulation: the cAMP/PKA pathway, the calcium (Ca²⁺) signaling pathway, and the MAPK/ERK pathway. Consequently, CRE can be employed as a diagnostic element to assess the successful activation of the melatonin receptor's downstream signaling pathways.


Special design

This basic part is a crucial element for testing whether the downstream pathway of melatonin responds successfully. Currently, a common method for studying signaling pathways involves cloning the response element of the transcription factor corresponding to the signaling pathway into a luciferase reporter gene vector, referred to as pCRE-luc.[2] However, the expression effect of a single response element is often weak; therefore, multiple tandem repeats of the same response element are typically inserted upstream of the reporter gene (in the 5'-UTR region) to enhance the activation of the signaling pathway[3]. By reviewing the literature, we constructed the 4xCRE-Pmin sequence, which contains a 5′ minimal promoter incorporating four multimerized palindromic CREs, potentially strengthening downstream gene expression.


Function Test

Method

Forskolin (Coleonol) is a potent adenylate cyclase activator with an IC50 of 41 nM and an EC50 of 0.5 μM for type I adenylyl cyclase[4], which can stimulate an increase in cAMP concentration.

To validate our basic part 4xCRE_Pmin (BBa_K5267004), which serves as the binding site for CREB and initiates transcriptional activation, we constructed the plasmid pNC005 pLM010. This plasmid carries 4xCRE_Pmin-IgK->Nluc->bGH_polyA (BBa_K5267040) and Pmin_IgK->Nluc->bGH_polyA (BBa_K5267049). When transfected cells were stimulated by Forskolin, theoretically, an increase in intracellular cAMP concentration should activate CREB, thereby binding to 4xCREs and initiating the transcription of this synthetic promoter 4xCRE_Pmin, and increase the expression of NanoLuc.

Result

Figure 1: The expression of Nluc gene in different transfected cells was stimulated by forsklin for 48h.

The result shows a significant increase of the expression of NanoLuc gene in 4xCRE_Pmin group upon the stimulation of forsklin compared to the control group, indicating that in the experimental group, the synthetic promoter 4xCRE_Pmin sequence responded to increased cAMP concentration correctly and initiated transcription as expected.

Figure 2. Step-response dynamics of thansfeted cells under forsklin treatment.

Cell line carrying both PCRE4-Nluc and PCMV-MTNR1A expressing cassette was stimulated with the indicated amount of fosiklin 16 hours post seeding. Nanoluc expression levels were measured at different time points after melatonin stimulation (Data are mean±SD, n = 3 independent experiments).

Reference

[1] M. Montminy, "Transcriptional regulation by cyclic AMP," Annu Rev Biochem, vol. 66, pp. 807-22, 1997, doi: 10.1146/annurev.biochem.66.1.807.

[2] C. Kemmer, D. A. Fluri, U. Witschi, A. Passeraub, A. Gutzwiller, and M. Fussenegger, "A designer network coordinating bovine artificial insemination by ovulation-triggered release of implanted sperms," J Control Release, vol. 150, no. 1, pp. 23-9, Feb 28 2011, doi: 10.1016/j.jconrel.2010.11.016.

[3] O. G. Chepurny and G. G. Holz, "A novel cyclic adenosine monophosphate responsive luciferase reporter incorporating a nonpalindromic cyclic adenosine monophosphate response element provides optimal performance for use in G protein coupled receptor drug discovery efforts," J Biomol Screen, vol. 12, no. 5, pp. 740-6, Aug 2007, doi: 10.1177/1087057107301856.

[4] J. D. Robbins, D. L. Boring, W. J. Tang, R. Shank, and K. B. Seamon, "Forskolin carbamates: binding and activation studies with type I adenylyl cyclase," J Med Chem, vol. 39, no. 14, pp. 2745-52, Jul 5 1996, doi: 10.1021/jm960191+.

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