The development of systems able to deliver genetic material into a target site is a challenge for modern medicine. Single-stranded peptide nucleic acids have attracted attention as promising therapeutic molecules for diagnostic and gene therapy. However, their poor cell membrane permeability represents a drawback for biomedical applications. Halloysite nanotubes (HNTs) are emerging materials in drug delivery applications both for their ability to penetrate cell membranes and for enhancing the solubility of drugs in biological media. Herein, we report the first example of the use of a nanocarrier based on halloysite labelled with fluorescent switchable halochromic oxazine molecules, to deliver a single-stranded peptide nucleic acids tetramer (PNAts) into living cells. The PNAts is covalently attached to halloysite (HNTs-PNA), whereas the fluorescent probe supramolecularly interacts with HNTs. The ability of the nanomaterial to bind complementary single-stranded DNA was assessed by resonance light scattering measurements. Finally, studies of cellular uptake were carried out by confocal laser scanning microscopy on normal and tumoral cell lines. This work highlights the usefulness of the covalent approach to generate HNTs-PNA nanomaterials for the potential targeting of future specific nucleic acids in living cells, which could open the doorway to novel possibilities for theranostic and gene therapy applications.
Nanocarrier based on halloysite and fluorescent probe for intracellular delivery of peptide nucleic acids / M. Massaro, E. Licandro, S. Cauteruccio, G. Lazzara, L.F. Liotta, M. Notarbartolo, F.M. Raymo, R. Sánchez-Espejo, C. Viseras-Iborra, S. Riela. - In: JOURNAL OF COLLOID AND INTERFACE SCIENCE. - ISSN 0021-9797. - 620:(2022 Aug), pp. 221-233. [10.1016/j.jcis.2022.03.151]
Nanocarrier based on halloysite and fluorescent probe for intracellular delivery of peptide nucleic acids
E. Licandro
Secondo
;S. Cauteruccio;
2022
Abstract
The development of systems able to deliver genetic material into a target site is a challenge for modern medicine. Single-stranded peptide nucleic acids have attracted attention as promising therapeutic molecules for diagnostic and gene therapy. However, their poor cell membrane permeability represents a drawback for biomedical applications. Halloysite nanotubes (HNTs) are emerging materials in drug delivery applications both for their ability to penetrate cell membranes and for enhancing the solubility of drugs in biological media. Herein, we report the first example of the use of a nanocarrier based on halloysite labelled with fluorescent switchable halochromic oxazine molecules, to deliver a single-stranded peptide nucleic acids tetramer (PNAts) into living cells. The PNAts is covalently attached to halloysite (HNTs-PNA), whereas the fluorescent probe supramolecularly interacts with HNTs. The ability of the nanomaterial to bind complementary single-stranded DNA was assessed by resonance light scattering measurements. Finally, studies of cellular uptake were carried out by confocal laser scanning microscopy on normal and tumoral cell lines. This work highlights the usefulness of the covalent approach to generate HNTs-PNA nanomaterials for the potential targeting of future specific nucleic acids in living cells, which could open the doorway to novel possibilities for theranostic and gene therapy applications.File | Dimensione | Formato | |
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