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Cyclodextrin-Based Nanostructure Efficiently Delivers siRNA to Glioblastoma Cells Preferentially via Macropinocytosis

Darío Manzanares, María Dolores Pérez‐Carrión, José L. Jiménez Blanco, Carmen Ortiz Mellet, José M. Garcı́a Fernández, Valentı́n Ceña

2020International Journal of Molecular Sciences26 citationsDOIOpen Access PDF

Abstract

Small interfering ribonucleic acid (siRNA) has the potential to revolutionize therapeutics since it can knockdown very efficiently the target protein. It is starting to be widely used to interfere with cell infection by HIV. However, naked siRNAs are unable to get into the cell, requiring the use of carriers to protect them from degradation and transporting them across the cell membrane. There is no information about which is the most efficient endocytosis route for high siRNA transfection efficiency. One of the most promising carriers to efficiently deliver siRNA are cyclodextrin derivatives. We have used nanocomplexes composed of siRNA and a β-cyclodextrin derivative, AMC6, with a very high transfection efficiency to selectively knockdown clathrin heavy chain, caveolin 1, and p21 Activated Kinase 1 to specifically block clathrin-mediated, caveolin-mediated and macropinocytosis endocytic pathways. The main objective was to identify whether there is a preferential endocytic pathway associated with high siRNA transfection efficiency. We have found that macropinocytosis is the preferential entry pathway for the nanoparticle and its associated siRNA cargo. However, blockade of macropinocytosis does not affect AMC6-mediated transfection efficiency, suggesting that macropinocytosis blockade can be functionally compensated by an increase in clathrin- and caveolin-mediated endocytosis.

Topics & Concepts

PinocytosisSmall interfering RNAEndocytosisEndocytic cycleTransfectionClathrinCell biologyGene knockdownChemistryBiologyCellBiochemistryGeneApoptosisRNA Interference and Gene DeliveryAdvanced biosensing and bioanalysis techniquesNanoparticle-Based Drug Delivery
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