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Current Drug Targets

Editor-in-Chief

ISSN (Print): 1389-4501
ISSN (Online): 1873-5592

New Trends in the Development of Transcription Factor Decoy (TFD) Pharmacotherapy

Author(s): Roberto Gambari

Volume 5, Issue 5, 2004

Page: [419 - 430] Pages: 12

DOI: 10.2174/1389450043345416

Price: $65

Abstract

Many recent published observations firmly demonstrate that one of the ways to study and artificially modulate gene expression at the transcriptional level is offered by the “transcription factor decoy” (TFD) strategy. This experimental approach is based on the competition for trans-acting factors between endogenous cis-elements present within regulatory regions of target genes and exogenously added DNA sequences (the DNA-based drug) mimicking the specific cis-elements. The objective of this molecular intervention is to cause a decrease of the interactions of trans-factors with the target genomic cis-elements, leading to alteration of transcription. The characterisation of the biological activity of the designed decoy molecules is routinely assessed by molecular technologies, such as electrophoretic mobility gel shift assay (EMSA), competitive DNase I footprinting, in vitro transcription. New advances in this field employ biospecific interaction analysis (BIA) based on surface plasmon resonance (SPR) and biosensor technology. With respect to the design of the decoy biomolecules, in addition to double-stranded DNA / DNA hybrids, cross-linking between two DNA molecules either via photocrosslinking or by the introduction of a covalently linked, non-nucleotide bridge has been reported. Furthermore, RNA decoys have been described able to bind transcription factors via aptameric interactions. In addition, circular decoys assuming a dumbbell configuration or single-stranded decoys with intramolecular palindromic sequences have also been described. Decoy molecules were also produced by polymerase-chain reaction (PCR). More recently, peptide nucleic acids-DNA chimeras have been shown to exhibit decoy activity and high level of stability. This variety of decoy biomolecules facilitate the establishment of suitable delivery approaches, including pressure-mediated transfer, electrically enhanced transfer, biolistic bombardment, cationic liposomes, hemagglutinating virus of Japan (HVJ)- liposomes, microsphere-aided delivery, nano-particles, peptide-mediated delivery, steroid mediated gene transfer, and red-blood cells.

Keywords: transcription, decoy, anti-tumour therapy, gene therapy, peptide-nucleic acids


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