Abstract
myc is a proto-oncogene that plays an important role in the promotion of cellular growth and proliferation. Understanding the regulation of c-myc is important in cancer biology, as it is overexpressed in a wide variety of human cancers, including most gynecological, breast, and colon cancers. We previously demonstrated that a guanine-rich region upstream of the P1 promoter of c-myc that controls 85-90% of the transcriptional activation of this gene can form an intramolecular G-quadruplex (G4) that functions as a transcriptional repressor element. In this study, we used an affinity column to purify proteins that selectively bind to the human c-myc G-quadruplex. We found that nucleolin, a multifunctional phosphoprotein, binds in vitro to the c-myc G-quadruplex structure with high affinity and selectivity when compared with other known quadruplex structures. In addition, we demonstrate that upon binding, nucleolin facilitates the formation and increases the stability of the c-myc G-quadruplex structure. Furthermore, we provide evidence that nucleolin overexpression reduces the activity of a c-myc promoter in plasmid presumably by inducing and stabilizing the formation of the c-myc G-quadruplex. Finally, we show that nucleolin binds to the c-myc promoter in HeLa cells, which indicates that this interaction occurs in vivo. In summary, nucleolin may induce c-myc G4 formation in vivo.
Highlights
Nucleolin Binds to the c-myc G-quadruplex by directly binding to ribosomal DNA G-quadruplex structures to displace nucleolin [28]
We became interested in nucleolin because it is an important regulator of cell proliferation that has been previously reported to play a role in c-myc gene regulation in B cells [35, 42]
We observed a weak protection of G4 and G5 when nucleolin was bound to Pu27 (Fig. 2D, lane 4), as compared with the enhanced cleaving that the same guanines present in the unbound Pu27. These results suggest that nucleolin binds to the c-myc G-quadruplex structure comprising the four guanine runs on the 3Ј-end of the nucleasehypersensitive element (NHE) III1
Summary
Synthetic Oligonucleotides—The oligonucleotides used in the design of the G-quadruplex affinity columns were Biotin-Pu77WT, 5Ј-Biotin-TTTTCTTTTCCCCCACGCCCTCTGCTTTGGGAACCCGGGAGGGGCGCTTATGGGGAGGGTGGGGAGGGTGGGGAAGG-3Ј, and Biotin-Pu77-MT, 5Ј-Biotin-TTTTCTTTTCCCCCACGCCCTCTGCTTTGGGAACCCGGGAGGGGCGCTTATGGGGAGGGTGAGGAGGGTGGGGAAGG-3Ј. Biotin-Pu77-WT is a biotinylated 77-mer containing the wild-type NHE III1 sequence capable of forming the most biologically relevant intramolecular c-myc G-quadruplex structure. The Biotin-Pu77-MT sequence is identical to that of Biotin-Pu77-WT with the exception of a G-to-A substitution at position 62. Pu27 is a purine-rich 27-mer corresponding to the c-myc NHE III1 sequence 5Ј-TGGGGAGGGTGGGGAGGGTGGGGAAGG-3Ј, and Pu47 is a 5Ј-CTATGTATACTGGGGAGGGTGGGGAGGGTGGGGAAGGTTAGCGGCAC-3Ј, which corresponds to a purine-rich 47-mer encompassing the c-myc Pu27 sequence plus 10 nucleotides on each of its flanking sides. The pyrimidine-rich Py47, has the sequence 5Ј-GTGCCGCTAACCTTCCCCACCCTC-.
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