Psoralen Photo-Cross-Linking by Triplex-Forming Oligonucleotides at Multiple Sites in the Human Rhodopsin Gene

Targeting DNA damage by triplex-forming oligonucleotides (TFOs) represents a way of modifying gene expression and structure and a possible approach to gene therapy. We have determined that this approach can deliver damage with great specificity to sites in the human gene for the G-protein-linked rec...

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Published inBiochemistry (Easton) Vol. 38; no. 39; pp. 12850 - 12859
Main Authors Perkins, Brian D, Wensel, Theodore G, Vasquez, Karen M, Wilson, John H
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 28.09.1999
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Summary:Targeting DNA damage by triplex-forming oligonucleotides (TFOs) represents a way of modifying gene expression and structure and a possible approach to gene therapy. We have determined that this approach can deliver damage with great specificity to sites in the human gene for the G-protein-linked receptor rhodopsin, mutations of which can lead to the genetic disorder autosomal dominant retinitis pigmentosa. We have introduced DNA monoadducts and interstrand cross-links at multiple target sites within the gene using TFOs with a photoactivatable psoralen group at the 5‘-end. The extent of formation of photoadducts (i.e., monoadducts and cross-links) was measured at target sites with a 5‘-ApT sequence at the triplex−duplex junction and at a target site with 5‘-ApT and 5‘-TpA sequences located four and seven nucleotides away, respectively. To improve psoralen reactivity at more distant sites, psoralen moieties were attached to TFOs with nucleotide “linkers” from two to nine nucleotides in length. High-affinity binding was maintained with linkers of up to 10 nucleotides, but affinities tended to decrease somewhat with increasing linker length due to faster dissociation kinetics. DNase I footprinting indicated little, if any, interaction between linkers and the duplex. Psoralen−TFO conjugates formed DNA cross-links with high efficiency (56−65%) at 5‘-ApT sequences located at triplex junctions. At a 5‘-ApT site four nucleotides away, the efficiency varied with linker length; a four-nucleotide linker gave the highest efficiency. Duplexes with 5‘-TpA and 5‘-ApT sites two nucleotides away, in otherwise identical sequences, were cross-linked with efficiencies of 56 and 38%, respectively. These results indicate that TFO−linker−psoralen conjugates allow simultaneous, efficient targeting of multiple sites in the human rhodopsin gene.
Bibliography:This work was funded by grants from the Texas Advanced Technology Program (004949-803) and the NIH (EY11731). B.D.P. is supported by a training grant from NIH (T32 EY07102).
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ISSN:0006-2960
1520-4995
DOI:10.1021/bi9902743