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Chem Sci. 2020 Feb 18;11(8):2058-2067. doi: 10.1039/d0sc00514b. eCollection 2020 Feb 28.

In situ formation of transcriptional modulators using non-canonical DNA i-motifs.

Author information

1
School of Chemical Sciences , Indian Association for the Cultivation of Science , Jadavpur , Kolkata-700032 , India . Email: ocjd@iacs.res.in.
2
Institute of Organic Chemistry and Chemical Biology , Center for Biomolecular Magnetic Resonance (BMRZ) , Goethe University , Max-von-Laue Strasse 7 , Frankfurt , D-60438 , Germany.

Abstract

Non-canonical DNA i-motifs and G-quadruplexes are postulated as genetic switches for the transcriptional regulation of proto-oncogenes. However, in comparison to G-quadruplexes, the therapeutic potential of i-motifs is less explored. The development of i-motif selective ligands by conventional approaches is challenging due to the structural complexity of i-motifs. The target guided synthetic (TGS) approach involving in situ cycloaddition could provide specific ligands for these dynamic DNA structures. Herein, we have used i-motif forming C-rich DNA and their complementary G-quadruplex forming DNA sequences of c-MYC and BCL2 promoter regions as well as a control self-complementary duplex DNA sequence as the templates to generate selective ligands from a pool of reactive azide-alkyne building blocks. In our approach, thiolated DNA targets are immobilized on the surface of gold-coated iron nanoparticles to enable efficient isolation of the newly generated ligands from the solution mixture by simple magnetic decantation. The combinatorial in situ cycloaddition generated cell-membrane permeable triazole leads for respective DNA targets (c-MYC and BCL2 i-motifs and G-quadruplexes) that selectively promote their formation. In vitro cellular studies reveal that the c-MYC i-motif and G-quadruplex leads downregulate c-MYC gene expression whereas the BCL2 i-motif lead upregulates and the BCL2 G-quadruplex lead represses BCL2 gene expression. The TGS strategy using i-motif DNA nanotemplates represents a promising platform for the direct in situ formation of i-motif specific ligands for therapeutic intervention.

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