Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene Macrocycle

Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene Macrocycle

MicroRNAs (miRNAs) are short non-coding RNA molecules acting as gene regulators by repressing translation or by inducing degradation of the target RNA transcripts. Altered expression of miRNAs may be involved in the pathogenesis of many severe human diseases, opening new avenues in the field of ther...

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Main Authors: Jessica Gasparello, Michela Lomazzi, Chiara Papi, Elisabetta D’Aversa, Francesco Sansone, Alessandro Casnati, Gaetano Donofrio, Roberto Gambari, Alessia Finotti
Format: Article
Language:English
Published: Elsevier 2019-12-01
Series:Molecular Therapy: Nucleic Acids
Online Access:http://www.sciencedirect.com/science/article/pii/S2162253119303002
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spelling doaj-912d39659cf34dc2b48d0a03258969662020-11-25T01:53:41ZengElsevierMolecular Therapy: Nucleic Acids2162-25312019-12-0118748763Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene MacrocycleJessica Gasparello0Michela Lomazzi1Chiara Papi2Elisabetta D’Aversa3Francesco Sansone4Alessandro Casnati5Gaetano Donofrio6Roberto Gambari7Alessia Finotti8Department of Life Sciences and Biotechnology, University of Ferrara, Via Fossato di Mortara 74, 44121 Ferrara, ItalyDepartment of Chemistry, Life Sciences and Environmental Sustainability, University of Parma, Parco Area delle Scienze 17/a, 43124 Parma, ItalyDepartment of Life Sciences and Biotechnology, University of Ferrara, Via Fossato di Mortara 74, 44121 Ferrara, ItalyDepartment of Life Sciences and Biotechnology, University of Ferrara, Via Fossato di Mortara 74, 44121 Ferrara, ItalyDepartment of Chemistry, Life Sciences and Environmental Sustainability, University of Parma, Parco Area delle Scienze 17/a, 43124 Parma, Italy; Corresponding author: Francesco Sansone, Department of Chemistry, Life Sciences and Environmental Sustainability, University of Parma, Parco Area delle Scienze 17/a, 43124 Parma, Italy.Department of Chemistry, Life Sciences and Environmental Sustainability, University of Parma, Parco Area delle Scienze 17/a, 43124 Parma, ItalyDepartment of Veterinary Science, University of Parma, Strada del Taglio 10, 43126 Parma, ItalyDepartment of Life Sciences and Biotechnology, University of Ferrara, Via Fossato di Mortara 74, 44121 Ferrara, Italy; Interuniversity Consortium for Biotechnology, 34149 Trieste, Italy; Corresponding author: Roberto Gambari, Department of Life Sciences and Biotechnology, University of Ferrara, Via Fossato di Mortara 74, 44121 Ferrara, Italy.Department of Life Sciences and Biotechnology, University of Ferrara, Via Fossato di Mortara 74, 44121 Ferrara, ItalyMicroRNAs (miRNAs) are short non-coding RNA molecules acting as gene regulators by repressing translation or by inducing degradation of the target RNA transcripts. Altered expression of miRNAs may be involved in the pathogenesis of many severe human diseases, opening new avenues in the field of therapeutic strategies, i.e., miRNA targeting or miRNA mimicking. In this context, the efficient and non-toxic delivery of premiRNA and antimiRNA molecules might be of great interest. The aim of the present paper is to determine whether an argininocalix[4]arene is able to efficiently deliver miRNA, premiRNA, and antimiRNA molecules to target cells, preserving their biological activity. This study points out that (1) the toxicity of argininocalix[4]arene 1 is low, and it can be proposed for long-term treatment of target cells, being that this feature is a pre-requisite for the development of therapeutic protocols; (2) the delivery of premiRNA and antimiRNA molecules is efficient, being higher when compared with reference gold standards available; and (3) the biological activity of the premiRNAs and antimiRNAs is maintained. This was demonstrated using the argininocalix[4]arene 1 in miRNA therapeutic approaches performed on three well-described experimental model systems: (1) the induction of apoptosis by antimiR-221 in glioma U251 cells; (2) the induction of apoptosis by premiR-124 in U251 cells; and (3) the inhibition of pro-inflammatory IL-8 and IL-6 genes in cystic fibrosis IB3-1 cells. Our results demonstrate that the argininocalix[4]arene 1 should be considered a very useful delivery system for efficient transfer to target cells of both premiRNA and antimiRNA molecules, preserving their biological activity. Keywords: microRNAs, miRNA targeting, cell-penetrating agents, cell transfection, miRNA delivery, argininocalix[4]arenes, multivalent ligands, premiRNA, antimiRNA, miRNA therapeutics.http://www.sciencedirect.com/science/article/pii/S2162253119303002
collection DOAJ
language English
format Article
sources DOAJ
author Jessica Gasparello
Michela Lomazzi
Chiara Papi
Elisabetta D’Aversa
Francesco Sansone
Alessandro Casnati
Gaetano Donofrio
Roberto Gambari
Alessia Finotti
spellingShingle Jessica Gasparello
Michela Lomazzi
Chiara Papi
Elisabetta D’Aversa
Francesco Sansone
Alessandro Casnati
Gaetano Donofrio
Roberto Gambari
Alessia Finotti
Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene Macrocycle
Molecular Therapy: Nucleic Acids
author_facet Jessica Gasparello
Michela Lomazzi
Chiara Papi
Elisabetta D’Aversa
Francesco Sansone
Alessandro Casnati
Gaetano Donofrio
Roberto Gambari
Alessia Finotti
author_sort Jessica Gasparello
title Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene Macrocycle
title_short Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene Macrocycle
title_full Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene Macrocycle
title_fullStr Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene Macrocycle
title_full_unstemmed Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene Macrocycle
title_sort efficient delivery of microrna and antimirna molecules using an argininocalix[4]arene macrocycle
publisher Elsevier
series Molecular Therapy: Nucleic Acids
issn 2162-2531
publishDate 2019-12-01
description MicroRNAs (miRNAs) are short non-coding RNA molecules acting as gene regulators by repressing translation or by inducing degradation of the target RNA transcripts. Altered expression of miRNAs may be involved in the pathogenesis of many severe human diseases, opening new avenues in the field of therapeutic strategies, i.e., miRNA targeting or miRNA mimicking. In this context, the efficient and non-toxic delivery of premiRNA and antimiRNA molecules might be of great interest. The aim of the present paper is to determine whether an argininocalix[4]arene is able to efficiently deliver miRNA, premiRNA, and antimiRNA molecules to target cells, preserving their biological activity. This study points out that (1) the toxicity of argininocalix[4]arene 1 is low, and it can be proposed for long-term treatment of target cells, being that this feature is a pre-requisite for the development of therapeutic protocols; (2) the delivery of premiRNA and antimiRNA molecules is efficient, being higher when compared with reference gold standards available; and (3) the biological activity of the premiRNAs and antimiRNAs is maintained. This was demonstrated using the argininocalix[4]arene 1 in miRNA therapeutic approaches performed on three well-described experimental model systems: (1) the induction of apoptosis by antimiR-221 in glioma U251 cells; (2) the induction of apoptosis by premiR-124 in U251 cells; and (3) the inhibition of pro-inflammatory IL-8 and IL-6 genes in cystic fibrosis IB3-1 cells. Our results demonstrate that the argininocalix[4]arene 1 should be considered a very useful delivery system for efficient transfer to target cells of both premiRNA and antimiRNA molecules, preserving their biological activity. Keywords: microRNAs, miRNA targeting, cell-penetrating agents, cell transfection, miRNA delivery, argininocalix[4]arenes, multivalent ligands, premiRNA, antimiRNA, miRNA therapeutics.
url http://www.sciencedirect.com/science/article/pii/S2162253119303002
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