Amplified primer extension assay for psoralen photoproducts provides a sensitive assay for a (CG)6TA(CG)2(TG)8 Z-DNA torsionally tuned probe: preferential psoralen photobinding to one strand of a B-Z junction

Sequence-specific triple helix formation with genomic DNA

We have previously demonstrated site-specific delivery of antiparallel phosphorothioate triplex forming oligonucleotide (TFO) specific to -165 to -141 promoter region of alpha1(I) collagen (abbreviated as APS165) to hepatic stellate cells (HSCs) of fibrotic rats after conjugation with mannose 6-phosphate-bovine serum albumin. However, we still need to determine whether there is correlation between transcription inhibition and triplex formation with genomic DNA. In this study, APS165 was modified with psoralen and the extent of triplex formation with alpha1(I) collagen DNA was determined in naked genomic DNA, isolated nuclei of HSC-T6 cells and whole cells by using a simple real-time PCR based method. In this method, a purification step was added to remove unbound APS165, which eliminated the possible artifacts during real-time PCR. Psoralen photoadduct formation was shown to be essential to retain triplex structure under denaturing conditions. On naked genomic DNA, 82.2% of DNA formed triplex and 36.7% of genomic DNA in isolated nuclei at 90 min contained triplex structure. As quantified by real-time PCR, 50% of genomic DNA in living cells at 12 h postincubation contained triplex structures. Furthermore, the triplex formation was dose-dependent with 26.5% and 50% of DNA having triplex structure at concentrations of 1 microM and 5 microM, respectively. Moreover, on a plasmid pCol-CAT220 containing rat alpha1(I) gene promoter (-225 to +113), 75.3% of triplex formation was observed, which was correlated with a 73.6% of transcription inhibition. These findings will further strengthen the therapeutic applications of APS165.

Detection of covalent triplex within human cells

Triple helix-forming oligonucleotides covalently linked to psoralen can be specifically cross-linked to both strands of DNA at the triplex-duplex junction following UV irradiation. We have previously shown that a 15mer psoralen-oligonucleotide conjugate forming a triple helix on the promoter of the alpha subunit gene of the interleukin-2 receptor inhibits transcription of reporter plasmids transfected into living cells after irradiation. In the present work, we directly demonstrate covalent triple helix formation at the target site inside cells. A primer extension assay using Taq polymerase was developed to quantitate the DNA which had reacted with the psoralen of the triple helix-forming oligonucleotide. Photoaddition of the psoralen at the DNA target site was demonstrated, not only when the preformed triplex was electroporated inside cells, but also when the oligonucleotide was added to the culture medium after plasmid electroporation and before irradiation of the cells.