Improving the Biological Properties of Thrombin-Binding Aptamer by Incorporation of 8-Bromo-2′-Deoxyguanosine and 2′-Substituted RNA Analogues

Author:

Virgilio Antonella1ORCID,Benigno Daniela1ORCID,Aliberti Carla1,Vellecco Valentina1ORCID,Bucci Mariarosaria1,Esposito Veronica1ORCID,Galeone Aldo1ORCID

Affiliation:

1. Department of Pharmacy, University of Naples Federico II, 80131 Napoli, Italy

Abstract

Thrombin-binding aptamer (TBA) is one of the best-known G-quadruplex (G4)-forming aptamers. By adopting its peculiar chair-like G4 structure, TBA can efficiently bind to thrombin, thus producing an anticoagulant effect. The major limit to its therapeutic application is represented by its poor thermal and biological resistance. Therefore, numerous research studies have been focused on the design of TBA analogues with chemical modifications to improve its pharmacokinetic and pharmacodynamic properties. To maintain the functional recognition to protein surface on which TBA anticoagulant activity depends, it is essential to preserve the canonical antiparallel topology of the TBA quadruplex core. In this paper, we have designed three TBA variants with modified G-tetrads to evaluate the effects of nucleobase and sugar moiety chemical modifications on biological properties of TBA, preserving its chair-like G-quadruplex structure. All derivatives contain 8-bromo-2′-deoxyguanosine (GBr) in syn positions, while in the anti-positions, locked nucleic acid guanosine (GLNA) in the analogue TBABL, 2’-O-methylguanosine (GOMe) in TBABM, and 2’-F-riboguanosine (GF) in TBABF is present. CD (Circular Dichroism), CD melting, 1H-NMR (Nuclear Magnetic Resonance), and non-denaturing PAGE (Polyacrylamide Gel Electrophoresis), nuclease stability, prothrombin time (PT) and fibrinogen-clotting assays have been performed to investigate the structural and biological properties of these TBA analogues. The most interesting results have been obtained with TBABF, which revealed extraordinary thermal stability (Tm approximately 40 °C higher than that of TBA), anticoagulant activity almost doubled compared to the original aptamer, and, above all, a never-observed resistance to nucleases, as 50% of its G4 species was still present in 50% FBS at 24 h. These data indicate TBABF as one of the best TBA analogue ever designed and investigated, to the best of our knowledge, overcoming the main limitations to therapeutic applications of this aptamer.

Funder

National Center for Gene ‘Therapy and Drugs based on RNA Technology’

European Union-NextGenerationEU

NRR MUR-M4C2-Investimento 1.4-CUP UNINA

Publisher

MDPI AG

Subject

Inorganic Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Computer Science Applications,Spectroscopy,Molecular Biology,General Medicine,Catalysis

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