Synthesis, structural studies and biological properties of new TBA analogues containing an acyclic nucleotide

A new modified acyclic nucleoside, namely N-1-(3-hydroxy-2-hydroxymethyl-2-methylpropyl)-thymidine, was synthesized and transformed into a building block useful for oligonucleotide ( ON) automated synthesis. A series of modified thrombin binding aptamers (TBAs) in which the new acyclic nucleoside replaces, one at the time, the thymidine residues were then synthesized and characterized by UV, CD, MS, and H-1 NMR. The biological activity of the resulting TBAs was tested by Prothrombin Time assay ( PT assay) and by purified fibrinogen clotting assay. From a structural point of view, nearly all the new TBA analogues show a similar behavior as the unmodified counterpart, being able to fold into a bimolecular or monomolecular quadruplex structure depending on the nature of monovalent cations ( sodium or potassium) coordinated in the quadruplex core. From the comparison of structural and biological data, some important structure-activity relationships emerged, particularly when the modi. cation involved the TT loops. In agreement with previous studies we found that the folding ability of TBA analogues is more affected by modi. cations involving positions 4 and 13, rather than positions 3 and 12. On the other hand, the highest anti-thrombin activities were detected for aptamers containing the modi. cation at T13 or T12 positions, thus indicating that the effects produced by the introduction of the acyclic nucleoside on the biological activity are not tightly connected with structure stabilities. It is noteworthy that the modi. cation at T7 produces an ON being more stable and active than the natural TBA. (C) 2008 Elsevier Ltd. All rights reserved.