Effects of 5-Methyl-2'-Deoxycytidine in G-Quadruplex Forming Aptamers d(G(3)C)(4) and d[GCG(2)(CG(3))(3)C]: Investigating the Key Role of the Loops.

T40214 (STAT) and its recently investigated analogue STATB are G-quadruplex (G4) forming aptamers characterized by an unusually high percentage of C. The therapeutic potential of T40214 relies on its ability to inhibit the signalling pathway of STAT3, a protein frequently overexpressed in tumor cells. STAT adopts a dimeric 5'-5' end-stacked quadruplex structure, characterized by parallel strands, three G-tetrads and three propeller-shaped loops formed by a cytidine residue. STATB folds in a very similar structure, apart from an additional cytidine bulge loop. Many studies suggest that thermal stability and topology of G4 can be significantly affected by C methylation, thus resulting in altered interaction of G4-binding proteins with these structures. Considering this, two series of STAT and STATB analogues containing a single 5-methyl-2'-deoxycytidine (mC) residue instead of canonical C nucleotide in the loop have been prepared and investigated by a combination of spectroscopic and electrophoretic techniques. CD, NMR and PAGE data clearly indicate that all derivatives adopt dimeric G4 strictly similar to that assumed by parent aptamers, but with higher stabilities. Furthermore, the resistance to nucleases and the antiproliferative activity of these mC-containing derivatives against HCT116 (human colorectal carcinoma) and T24 (human bladder carcinoma) cell lines have been evaluated. In most of the cases, STAT and STATB derivatives inhibit cell proliferation to different extents, although to a lesser degree than the unmodified parent sequences. All the data highlight the key role of the loops and indicate mC as a useful tool to contribute favorably to the stability of G4-forming aptamers without alteration of their topology, required for the biological activity.