AI Article Synopsis
- Nucleic acid medicine is being recognized as a promising therapy but faces challenges in delivering these molecules directly into cells.
- Researchers developed cell-penetrating aptamers through a method called SELEX, identifying C20-4 min as a strong candidate due to its superior cell penetration compared to others like AS1411.
- Further analysis using circular dichroism (CD) confirmed the formation of specific G-quadruplex structures, and studies involving mass spectrometry revealed key cellular proteins that interact with these aptamers, paving the way for improved delivery systems in nucleic acid therapies.
Article Abstract
Nucleic acid medicine is expected to be among the most promising next-generation therapies. Applications of nucleic acid are still challenging as a result of the difficulties in direct cell penetration without external assistance. To facilitate the cellular delivery of therapeutic nucleic acid, we developed cell-penetrating aptamers using cell-internalization Systematic Evolution of Ligands by EXponential enrichment (SELEX). Moreover, C20-4 min, a G-quadruplex-forming DNA aptamer, was discovered, showing a higher cell-penetrating capacity compared with other candidates, including AS1411. To verify the formation and understand the G-quadruplex folding topologies of enriched aptamer motifs, characteristic circular dichroism (CD) spectral features are analyzed. The CD spectra of C20-4 min strongly support the formation of parallel G-quadruplexes. Systematic analyses of the G-quadruplex regulation pathway have been performed by combining aptamer pull-down with mass spectrometry. We profiled G-quadruplex aptamers interacting with cellular proteins during internalization and identified helicases and GTPase proteins as cellular interacting partners. In addition, whole transcriptome analysis was performed to study the effects of G-quadruplex aptamers, revealing differentially expressed genes involved in the regulation of GTPase functions. Integrative analyses of transcriptome and proteomic have aided in understanding the functional hierarchy of molecular players in G-quadruplex nucleic acid mechanisms of internalization, which might facilitate developing a novel delivery system.
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| http://dx.doi.org/10.1021/acs.analchem.0c04862 | DOI Listing |
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