Scavenger receptor‐mediated uptake of cell‐penetrating peptide nanocomplexes with oligonucleotides

Ezzat, Kariem; Helmfors, Henrik; Tudoran, Oana; Juks, Carmen; Lindberg, Staffan; Padari, Kärt; El-Andaloussi, Samir; Pooga, Margus; Langel, Ülo

doi:10.1096/fj.11-191536

Cited by 127 publications

(134 citation statements)

References 43 publications

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“…It was found that the zeta potential of PepFect nanocomplexes is positive only at high peptide:nucleic acid ratios and when measured in water. However, when measured in isotonic media containing ions or serum-free media, the net charge of these complexes is predominantly negative [108]. Zeta potential is a function of the ion concentration and the pH of the medium, and it changes due to the adherence of a layer of counter ions on the surface of the nanostructure which is called the Stern layer [109].…”

Section: Uptake Pathways Of Cpp and Nucleic Acid Conjugates And Nanopmentioning

confidence: 99%

“…This led to the assumption that a receptor might be involved in the uptake as the direct interaction of the newly formed anionic surface with the negatively charged plasma membrane or HS proteoglycans would lead to electrostatic repulsion. Using competitive inhibitors, siRNA knockdown and colocalization experiments, it was found that class A scavenger receptors, SCARA3 and SCARA5, are involved in the uptake of these nanocomplexes [108]. This class of innate immune receptors is known to bind negatively charged particulate ligands [110].…”

Section: Uptake Pathways Of Cpp and Nucleic Acid Conjugates And Nanopmentioning

confidence: 99%

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Peptides for nucleic acid delivery

Lehto

Ezzat

Wood

et al. 2016

Advanced Drug Delivery Reviews

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184

132

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Nucleic acids and their synthetic oligonucleotide (ON) analogs are a group of gene therapeutic compounds which hold enormous clinical potential. Despite their undoubted potential, clinical translation of these molecules, however, has been largely held back by their limited bioavailability in the target tissues/cells. To overcome this, many different drug delivery systems have been devised. Among others, short delivery peptides, called cell-penetrating peptides (CPPs), have been demonstrated to allow for efficient delivery of nucleic acids and their ON analogs, in both cell culture and animal models. In this review, we provide brief overview of the latest advances in nucleic acid delivery with CPPs, covering the two main vectorization strategies, covalent conjugation and nanoparticle formation-based approach. In conclusion, CPP-based drug delivery systems have the capacity to overcome the hurdle of delivery and thus have the potential to facilitate the clinical translation of nucleic acid-based therapeutics.

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Section: Uptake Pathways Of Cpp and Nucleic Acid Conjugates And Nanopmentioning

confidence: 99%

Section: Uptake Pathways Of Cpp and Nucleic Acid Conjugates And Nanopmentioning

confidence: 99%

Peptides for nucleic acid delivery

Lehto

Ezzat

Wood

et al. 2016

Advanced Drug Delivery Reviews

Self Cite

184

132

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“…SASH1 gene has been chosen as a target for siRNA delivery by using TP or TP10, since our preliminary data showed a stable expression of this gene in HT29 and HCT116 cells. We used a procedure described by Ezzat et al [31]. Cells were seeded into 24-well plates at a density of 50 000 cells/well in 1 mL of medium.…”

Section: Inhibition Of Endocytosis By Brefeldin Amentioning

confidence: 99%

Protein and siRNA delivery by transportan and transportan 10 into colorectal cancer cell lines

Wierzbicki

Kogut-Wierzbicka

Ruczyński

et al. 2015

Folia Histochem Cytobiol.

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Introduction. Cell penetrating peptides (CPPs) have the ability to translocate through cell membranes with high efficiency and therefore can introduce biological agents with pharmaceutical properties into the cell. Transportan (TP) and its shorter analog transportan 10 (TP10) are among the best studied CPPs, however, their effects on viability of and cargo introduction into colorectal cancer (CRC) cells have yet not been investigated. The aim of our study was to evaluate the cytotoxic effects of TP and TP10 on representative CRC lines and the efficiency of protein (streptavidin) and siRNA cargo delivery by TP-biotinylated derivatives (TP-biot). Material and methods. HT29 (early stage CRC model) and HCT116 (metastatic CRC model) cell lines were incubated with TP, TP10, TP-biot1, TP-biot13 and TP10-biot1. The effects of studied CPPs on cell viability and cell cycle were assessed by MTT and annexin V assays. The uptake of streptavidin-FITC complex into cells was determined by flow cytometry and fluorescence microscopy, with the inhibition of cellular vesicle trafficking by brefeldin A. The efficiency of siRNA for SASH1 gene delivery was measured by quantitative PCR (qPCR). Results. Since up to 10 µM concentrations of each CPP showed no significant cytotoxic effect, the concentrations of 0.5-5 µM were used for further analyses. Within this concentration range none of the studied CPPs affected cell viability and cell cycle. The efficient and endocytosis-independent introduction of streptavidin-FITC complex into cells was observed for TP10-biot1 and TP-biot1 with the cytoplasmic location of the fluorescent cargo; decreased SASH1 mRNA level was noticed with the use of siRNA and analyzed CPPs. Conclusions. We conclude that TP, TP10 and their biotinylated derivatives can be used as efficient delivery vehicles of small and large cargoes into CRC cells.

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“…It is important to study the uptake mechanism and the biological effects of the complexes instead of the peptide alone. In 2012, the involvement of scavenger receptor class A (SCARA) in the uptake of noncovalent CPP:ON complexes was shown for the first time (42). It was previously shown that SCARA receptors bind and mediate cellular uptake of a negatively charged molecules (43), and the involvement of SCARA was shown for the CPP PepFect14 and splice-correcting oligonucleotides (SCOs), which have negative ζ potential and NF51/pDNA (44).…”

Section: Mechanisms Of Uptakementioning

confidence: 99%

Peptide-based vectors: recent developments

Cerrato

Lehto

Langel

2014

Biomolecular Concepts

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Peptides and peptide-cargo complexes have been used for drug delivery and gene therapy. One of the most used delivery vectors are cell-penetrating peptides, due to their ability to be taken up by a variety of cell types and deliver a large variety of cargoes through the cell membrane with low cytotoxicity. In vitro and in vivo studies have shown their possibility and full effectiveness to deliver oligonucleotides, plasmid DNA, small interfering RNAs, antibodies, and drugs. We report in this review some of the latest strategies for peptide-mediated delivery of nucleic acids. It focuses on peptide-based vectors for therapeutic molecules and on nucleic acid delivery. In addition, we discuss recent applications and clinical trials.

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Scavenger receptor‐mediated uptake of cell‐penetrating peptide nanocomplexes with oligonucleotides

Cited by 127 publications

References 43 publications

Peptides for nucleic acid delivery

Peptides for nucleic acid delivery

Protein and siRNA delivery by transportan and transportan 10 into colorectal cancer cell lines

Peptide-based vectors: recent developments

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