Properties of PEI-based Polyplex Nanoparticles That Correlate With Their Transfection Efficacy

Ulasov, A. V.; Khramtsov, Yuri V.; Трусов, Г. А.; Rosenkranz, Andrey A.; Свердлов, Е. Д.; Соболев, А. С.

doi:10.1038/mt.2010.233

Cited by 82 publications

(80 citation statements)

References 30 publications

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“…While this makes direct comparisons between studies difficult, it also suggests that the screening of any PEI-PEG library requires an indepth study using a wide range of substitutions and N/P ratios. While many studies have noted the importance of these variables, the relevance of the two variables acting in concert has only been considered via a transfection surface recently: Ulasov et al [33] reported the transfection surfaces (PEG chains/PEI vs N/P vs %transfection) of numerous cell types, all having similar peaks, but with the elevation dependent on cell type. The present study investigated a broader range of substitutions and N/P ratios in comparison, using 0-37.2 PEG/PEI with a maximum N/P = $70, whereas Ulasov et al used 0-8 PEG/PEI with a maximum N/P = $40.…”

Section: Discussionmentioning

confidence: 98%

“…Previous studies suggest that siRNA delivery is less inhibited by PEI PEGylation than plasmid delivery [25,28], and lower stability of PEGylated complexes was attributed to greater cargo release intracellularly. By extension, it is possible that higher cytosolic unpacking may be the same reason for a high degree of PEGylation decreasing plasmid transfection; premature unpacking of polyplexes in the cytosol decreases the likelihood of the plasmid bypassing the nuclear envelope, owing to its larger size and negative charge [33]. The question remains then, how does a low degree of PEG substitution increase the transfection efficiency of PEI, compared with unmodified PEI?…”

Section: Transfection Properties Of Pei-peg Polyplexesmentioning

confidence: 92%

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Specific effects of PEGylation on gene delivery efficacy of polyethylenimine: Interplay between PEG substitution and N/P ratio

Fitzsimmons

Uludağ

2012

Acta Biomaterialia

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Section: Discussionmentioning

confidence: 98%

Section: Transfection Properties Of Pei-peg Polyplexesmentioning

confidence: 92%

Specific effects of PEGylation on gene delivery efficacy of polyethylenimine: Interplay between PEG substitution and N/P ratio

Fitzsimmons

Uludağ

2012

Acta Biomaterialia

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“…However, toxicity remains one of the challenges of this vector. There are many targets and assays that can be used to give better insight to different aspects of toxicity (Ulasov, 2011;Fischer et al, 2003;), while little is known about genotoxicity and intracellular ROS generation effects of PEI.…”

Section: Discussionmentioning

confidence: 99%

“…Cationic polymers and liposomes are the most studied nonviral vectors, with cationic polymers reported with significant differences because of their unique characteristics and potential to generate nanoparticles with DNA for gene delivery (Nakayama et al, 2005;Kafil and Omidi, 2011). Polyethylenimine (PEI) is one of the best-known cationic polymers, which has been widely used for nonviral transfection in vitro and in vivo (Ulasov et al, 2011). PEI is a cationic synthetic polymer available in linear and branched forms, and in a vast range of molecular weights, from <1000 Da up to 1.6 × 10 6 Da (Godbey and Mikos, 2001;Neu et al, 2005;Oskuee et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Evaluation of genotoxicity and cytotoxicity induced by different molecular weights of polyethylenimine/DNA nanoparticles

Gholami¹,

Sadeghnia²,

Darroudi³

et al. 2014

Turk J Biol

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Nonviral gene delivery systems are considered to be a safe alternative to the viral system used in gene therapy. Although polyethylenimine (PEI) is among the most promising gene-carrier candidates for efficient nonviral gene delivery, safety concerns regarding its toxicity remain challenging. The aim of this study was to evaluate the less considered aspects of toxicity including genotoxicity effects of branched PEI with different molecular weights (1800 Da, 25 kDa, 750 kDa). Neuro2A mammalian cells were cultured in DMEM with 10% FBS and exposed to PEI/DNA complexes at different polymer/DNA ratios (known as the C/P ratio). To evaluate metabolic activities and genotoxicity, the treated cells were subjected to MTT and comet assays, respectively. Intracellular reactive oxygen species were also determined by using the fluorescent dye dichlorofluorescin diacetate. Concentration with relation to toxicity, genotoxicity, and ROS production was observed in Neuro2A cells treated with PEI/DNA nanoparticles. The difference among toxicities induced by different molecular weights of PEI at higher C/P ratios was significant, whereas no significant toxicity effect was induced by PEI at C/P ratios of 1 and lower. We found concentration-dependent genotoxicity and a direct correlation between nanoparticle concentrations and DNA damage, which cannot be ignored and should be considered for the design of new generations of PEI derivatives with enhanced delivery properties and reduced toxicity.

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“…10.1021/acs.macromol.5b01824 Macromolecules XXXX, XXX, XXX−XXX D the quantity of free (unbound) PLKC20 was ∼82% of the initial concentration (18% are complexed with DNA).…”

mentioning

confidence: 99%

Fast Characterization of Polyplexes by Taylor Dispersion Analysis

Leclercq

Reinhard²,

Chamieh

et al. 2015

Macromolecules

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In a single procedure, Taylor dispersion analysis (TDA) was used for the size characterization of polyplexes and the quantification of free polycation contained in excess within the polyplex sample. TDA analysis was carried out in frontal mode for a better sensitivity of detection. The proof of concept was established using a model polyplex generated from the mixture of linear polylysine (DP 20) and DNA from salmon testes at nitrogen to phosphate (N/P) ratio of 12. Polyplex hydrodynamic radius was compared to the values obtained by dynamic light scattering measurements. TDA was found to give access to the weight-average hydrodynamic radius, while DLS basically gives an intensityaverage (harmonic z-average) value. The method was next applied to the study of various polyplexes issued from polylysines of various DP (50, 100) and different topologies (dendrigraft polylysines of generation 2 and 3). This new methodology should greatly contribute to the physicochemical characterization of polyplexes used for gene transfection.

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Properties of PEI-based Polyplex Nanoparticles That Correlate With Their Transfection Efficacy

Cited by 82 publications

References 30 publications

Specific effects of PEGylation on gene delivery efficacy of polyethylenimine: Interplay between PEG substitution and N/P ratio

Specific effects of PEGylation on gene delivery efficacy of polyethylenimine: Interplay between PEG substitution and N/P ratio

Evaluation of genotoxicity and cytotoxicity induced by different molecular weights of polyethylenimine/DNA nanoparticles

Fast Characterization of Polyplexes by Taylor Dispersion Analysis

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