Promising Gene Delivery Properties of Polycations Based on 2-(N,N-dimethylamino)ethyl Methacrylate and Polyethylene Glycol Monomethyl Ether Methacrylate Copolymers

Loginova, T. P.; Khotina, Irina A.; Kabachii, Yurii A.; Kochev, S. Yu.; Abramov, Vyacheslav M.; Khlebnikov, V. S.; Куликова, Н. А.; Mezhuev, Ya. O.

doi:10.3390/polym15143036

Polymers

2023

DOI: 10.3390/polym15143036

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Promising Gene Delivery Properties of Polycations Based on 2-(N,N-dimethylamino)ethyl Methacrylate and Polyethylene Glycol Monomethyl Ether Methacrylate Copolymers

T. P. Loginova

Irina A. Khotina

Yurii A. Kabachii

et al.

Abstract: Cationic copolymers based on 2-(N,N-dimethylamino)ethyl methacrylate and polyethylene glycol monomethyl ether (pDMAEMA-co-PEO) with different molecular weights have been synthesized. Their physicochemical properties were studied by NMR spectroscopy, sedimentation, and potentiometric titration. According to the data of potentiometric titration for the synthesized pegylated cationic copolymers, the apparent dissociation constants were determined in the pH range from 4.5 to 8.5. The physicochemical properties of … Show more

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2024

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The Spatial Distribution of Lipophilic Cations in Gradient Copolymers Regulates Polymer–pDNA Complexation, Polyplex Aggregation, and Intracellular pDNA Delivery

Lawson,

Sekar,

Wright

et al. 2024

Biomacromolecules

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Here, we demonstrate that the spatial distribution of lipophilic cations governs the complexation pathways, serum stability, and biological performance of polymer−pDNA complexes (polyplexes). Previous research focused on block/statistical copolymers, whereas gradient copolymers, where the density of lipophilic cations diminishes (gradually or steeply) along polymer backbones, remain underexplored. We engineered gradient copolymers that combine the polyplex colloidal stability of block copolymers with the transfection efficiency of statistical copolymers. We synthesized length-and compositionally equivalent gradient copolymers (G1−G3) along with statistical (S) and block (B) copolymers of 2-(diisopropylamino)ethyl methacrylate and 2-hydroxyethyl methacrylate. We mapped how polymer microstructure governs pDNA loading per polyplex, pDNA conformational changes, and polymer− pDNA binding thermodynamics via static light scattering, circular dichroism spectroscopy, and isothermal titration calorimetry, respectively. While gradient steepness is a powerful design handle to improve polyplex physical properties, augment pDNA delivery capacity, and attenuate polycation-triggered hemolysis, microstructural contrasts did not elicit differences in complement activation.

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The Spatial Distribution of Lipophilic Cations in Gradient Copolymers Regulates Polymer–pDNA Complexation, Polyplex Aggregation, and Intracellular pDNA Delivery

Lawson,

Sekar,

Wright

et al. 2024

Biomacromolecules

View full text Add to dashboard Cite

show abstract

Advancing nucleic acid delivery through cationic polymer design: non-cationic building blocks from the toolbox

Porello,

Bono,

Candiani

et al. 2024

Polym. Chem.

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Promising Gene Delivery Properties of Polycations Based on 2-(N,N-dimethylamino)ethyl Methacrylate and Polyethylene Glycol Monomethyl Ether Methacrylate Copolymers

Cited by 2 publications

References 57 publications

The Spatial Distribution of Lipophilic Cations in Gradient Copolymers Regulates Polymer–pDNA Complexation, Polyplex Aggregation, and Intracellular pDNA Delivery

The Spatial Distribution of Lipophilic Cations in Gradient Copolymers Regulates Polymer–pDNA Complexation, Polyplex Aggregation, and Intracellular pDNA Delivery

Advancing nucleic acid delivery through cationic polymer design: non-cationic building blocks from the toolbox

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