An oligonucleotide hybrid is described which possesses two triple helix forming oligonucleotides which have been connected by a flexible polymeric linker chain. As a prototype, binding of this class of oligonucleotide to duplex DNA has been studied using a segment of the HSV-1 D-glycoprotein promoter, which possesses a pair of 12bp target sites for stable triple helix formation, separated by a duplex spacer region which is one helical turn long. Band shift and footprinting analysis show that such hybrids can bind to both 12bp elements simultaneously, if flexible linkers are included which are longer than 20-25 rotatable bonds. Molecular modeling confirms that a flexible polymeric linker as short as 22 rotatable bonds is enough to link the two distant segments of triple helix, providing that the linker element travels a path which is external to the helix grooves and parallel to the long helix axis.
In order to enhance the nuclear uptake of triple-helix forming oligonucleotides (TFOs), a triglycylcholesterol group was attached to the 3' end. The peptide unit was introduced as a "labile" linker with the aim of releasing the oligonucleotide from the endosomes by the action of peptidases after crossing the cell membrane. Cholesteryl-CPG (8) and -TentaGel (9) supports containing 2-[N-(glycylglycylglycyl)amino]propane-1,3-diol (GAP-3) linker were prepared and used for automated oligonucleotide synthesis. The synthesis, characterization, and stability of these compounds are described.
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