Dynamic constitutional frameworks (DCFs) as nanovectors for cellular delivery of DNA

Turin-Moleavin, Ioana-Andreea; Doroftei, Florica; Coroabă, Adina; Peptanariu, Dragos; Pinteala, Mariana; Barboiu, Mihail

doi:10.1039/c5ob01315a

Cited by 22 publications

(15 citation statements)

References 33 publications

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“…Barboiu and coworkers used imines as reversible covalent linkage for generating cross-linked dynamic covalent polymers, coined Dynamic Constitutional Frameworks (DCFs). [117][118][119][120] The design uses commercially-available 1,3,5-benzenetrialdehyde, a building block which can be connected to mono-, di-and polyamines through imine-bond formations (Figure 8). Varying the ratio of the latter enables tuning the density of functional positive groups brought by the monoamine (PEG-ylated squalene-PEI, Girard's reagent T, N,N-dimethylethylene amine, amino-guanidine), the length of the linear chains imposed by the diamine (poly-(ethylene-glycol)-bis(3-amino-propyl)terminated, Mn ≈ 1500 g.mol -1 ; Jeffamine-400, Jeffamine-2000), and the degree of cross-links given by the polyamine (branched polyethyleneimine 800 and 2000), within the dynamic frameworks, thereby allowing screening effectively, by selfassembly, subtle changes in dendrimer structures that may Please do not adjust margins Please do not adjust margins have a profound effect on nucleic acid complexation and delivery.…”

Section: Bioapplications Of Dynamic Covalent Polymers 41 Gene Deliverymentioning

confidence: 99%

Dynamic covalent polymers for biomedical applications

Zhang

Ulrich

et al. 2020

Mater. Chem. Front.

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Section: Bioapplications Of Dynamic Covalent Polymers 41 Gene Deliverymentioning

confidence: 99%

Dynamic covalent polymers for biomedical applications

Zhang

Ulrich

et al. 2020

Mater. Chem. Front.

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117

103

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“…The group of Barboiu has also proposed such approach using imine-based dynamic covalent frameworks ( Figure 6B). [69][70][71][72] Also in 2015, while working on guanidinium-based molecular glues for multivalent biomolecular recognition, 73 the group of Aida came across a small water-soluble tetraguanydilated dithiol which undergo a template-assisted oxidative polymerization in presence of siRNA, leading to polydisulfide nanocaplets of small and uniform size. 74 Depolymerization in the reductive cytosolic environment was shown to liberate the packaged siRNA (Figure 7).…”

Section: Dynamic Covalent Vectorsmentioning

confidence: 99%

Growing Prospects of Dynamic Covalent Chemistry in Delivery Applications

2019

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“…In the present study, we have addressed and investigated the above mentioned issues by applying a dynamic combinatorial chemistry approach developed by our group [34,35,36] to produce a series of new systems (dynamic combinatorial frameworks (DCFs)) containing PEGylated squalene (SQ-PEG-NH 2 ) [34,37], poly-(ethyleneglycol)-bis(3-aminopropyl) (Mn~1500 g/mol) (NH 2 -PEG-HN 2 ), and branched polyethylenimine of 2000 Da (PEI2000) components, reversibly connected in a hyperbranched structure. The obtained frameworks were capable to self-assemble in supramolecular amphiphilic architectures, driven by self-assembly properties of squalene derivatives, thus cumulating the number of PEI units per carrier.…”

Section: Introductionmentioning

confidence: 99%

Synergistic Effect of Low Molecular Weight Polyethylenimine and Polyethylene Glycol Components in Dynamic Nonviral Vector Structure, Toxicity, and Transfection Efficiency

et al. 2019

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When studying polyethylenimine derivatives as nonviral vectors for gene delivery, among the important issues to be addressed are high toxicity, low transfection efficiency, and nucleic acid polyplex condensation. The molecular weight of polyethylenimine, PEGylation, biocompatibility and, also, supramolecular structure of potential carrier can all influence the nucleic acid condensation behavior, polyplex size, and transfection efficiency. The main challenge in building an efficient carrier is to find a correlation between the constituent components, as well as the synergy between them, to transport and to release, in a specific manner, different molecules of interest. In the present study, we investigated the synergy between components in dynamic combinatorial frameworks formed by connecting PEGylated squalene, poly-(ethyleneglycol)-bis(3-aminopropyl) and low molecular weight polyethylenimine components to 1,3,5-benzenetrialdehyde, via reversible imine bond, applying a dynamic combinatorial chemistry approach. We report comparative structural and morphological data, DNA binding affinity, toxicity and transfection efficiency concerning the ratio of polyethylenimine and presence or absence of poly-(ethyleneglycol)-bis(3-aminopropyl) in composition of dynamic combinatorial frameworks. In vitro biological assessments have revealed the fact that nonviral vectors containing poly-(ethyleneglycol)-bis(3-aminopropyl) and the lowest amount of polyethylenimine have significant transfection efficiency at N/P 50 ratio and display insignificant cytotoxicity on the HeLa cell line.

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Dynamic constitutional frameworks (DCFs) as nanovectors for cellular delivery of DNA

Cited by 22 publications

References 33 publications

Dynamic covalent polymers for biomedical applications

Dynamic covalent polymers for biomedical applications

Growing Prospects of Dynamic Covalent Chemistry in Delivery Applications

Synergistic Effect of Low Molecular Weight Polyethylenimine and Polyethylene Glycol Components in Dynamic Nonviral Vector Structure, Toxicity, and Transfection Efficiency

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