Alpha-anomeric configuration of GT oligodeoxynucleotide leads to loss of the specific aptameric and cytotoxic properties retained by the beta-anomeric analog.

Abstract

The development of antisense, antigene, or aptameric oligonucleotides to modulate in vivo cellular functions depends on using stable biologic molecules. Previous investigations showed that GT oligonucleotides could exert a specific, dose-dependent cytotoxic effect on human cancer cell lines. This is tightly related to the ability of these oligomers to specifically bind nuclear proteins, giving a complex of apparent molecular weight of 45 kDa. We demonstrated that with respect to the cytotoxic GT-beta-oligomer, alpha-anomeric GT analog did not alter the growth of the T lymphoblastic CCRF-CEM cell line, although the cells took it up efficiently. In agreement with this, GT-alpha-oligomer did not form the cytotoxicity-related 45-kDa complex with nuclear proteins. These findings likely could be related to the ability of GT-alpha to structure under nondenaturing conditions because of the high number of T in the sequence.