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  • Hyper-Branched Cationic Cyclodextrin Polymers for Improving Plasmid Transfection in 2D and 3D Spheroid Cells.

Hyper-Branched Cationic Cyclodextrin Polymers for Improving Plasmid Transfection in 2D and 3D Spheroid Cells.

Pharmaceutics (2022-12-24)
Yousef Khazaei Monfared, Mohammad Mahmoudian, Claudio Cecone, Fabrizio Caldera, Sanya Haiaty, Hamid Reza Heidari, Reza Rahbarghazi, Adrián Matencio, Parvin Zakeri-Milani, Francesco Trotta
ABSTRACT

In this article, we used monolayer two dimensional (2D) and 3D multicellular spheroid models to improve our understanding of the gene delivery process of a new modified cationic hyper-branched cyclodextrin-based polymer (Ppoly)-loaded plasmid encoding Enhanced Green Fluorescent Protein (EGFP). A comparison between the cytotoxicity effect and transfection efficiency of the plasmid DNA (pDNA)-loaded Ppoly system in 2D and 3D spheroid cells determined that the transfection efficiency and cytotoxicity of Ppoly-pDNA nanocomplexes were lower in 3D spheroids than in 2D monolayer cells. Furthermore, histopathology visualization of Ppoly-pDNA complex cellular uptake in 3D spheroids demonstrated that Ppoly penetrated into the inner layers. This study indicated that the Ppoly, as a non-viral gene delivery system in complex with pDNA, is hemocompatible, non-toxic, high in encapsulation efficiency, and has good transfection efficiency in both 2D and 3D cell cultures compared to free pDNA and lipofectamine (as the control).

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Sigma-Aldrich
Sieroalbumina, heat shock fraction, pH 5.2, ≥96%
Sigma-Aldrich
Albumin from porcine serum, lyophilized powder, ≥98% (agarose gel electrophoresis)