A Solid-Phase Synthesis of 2',5'-Linked Oligoadenylates (2-5A)

Abstract

2′,5′-Oligoadenylate 5′-triphosphates (2-5A) as products of 2-5A synthetase and activators of ribonuclease L (RNase L), are mediators in one of the mechanisms of interferon′s antiviral action. Upon activation, RNase L inhibits protein synthesis due to the degradation of RNAs. This activity of 2-5A could possibly find an application in virus or cancer chemotherapy, but two major barriers prevent the use of 2′,5′-linked oligoadenylates as therapeutic agents. The 2-5A is readily degraded by a 2′,5′ phosphodiesterase and as a highly negatively charged molecule, is not readily taken up by cells. One possible solution to this latter limitation might be found in chemical modifications of the 2-5A structure. Many analogues of 2-5A have been already obtained with modified base, ribose or phosphate moieties. While these have provided some important information about the enzyme- activator interactions, the cell permeability problem still remains unsolved. One of the major obstacles in this study is lack of a convenient method of synthesis of 2′,5′ ribonucleotides of widely varying structure.