Yeon Lim Jang scite author profile

Efficient gene transfer into mammalian cells mediated by small molecular amphiphile-polymer conjugates, bile acid-polyethylenimine (BA-PEI), is demonstrated, opening an efficient transport route for genetic materials across the cell membrane. This process occurs without the aid of endocytosis or other energy-consuming processes, thus mimicking macromolecular transduction by cell-penetrating peptides. The exposure of a hydrophilic face of the amphiphilic BA moiety on the surface of BA-PEI/DNA complex that mediates direct contact of the BA molecules to the cell surface seems to play an important role in the endocytosis- and energy-independent internalization process. The new modality of the polymeric biomimetics can be applied to enhanced delivery of macromolecular therapeutics.

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Cell-penetrating peptide mimicking polymer-based combined delivery of paclitaxel and siRNA for enhanced tumor growth suppression

Jang

Yun

Lee

et al. 2012

International Journal of Pharmaceutics

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Facial amphipathic deoxycholic acid-modified polyethyleneimine for efficient MMP-2 siRNA delivery in vascular smooth muscle cells

Kim

Lee

Jang

et al. 2012

European Journal of Pharmaceutics and Biopharmaceutics

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Self-assembled PEGylated albumin nanoparticles (SPAN) as a platform for cancer chemotherapy and imaging

et al. 2018

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Paclitaxel (PTX) is used as a major antitumor agent for the treatment of recurrent and metastatic breast cancer. For the clinical application of PTX, it needs to be dissolved in an oil/detergent-based solvent due to its poor solubility in an aqueous medium. However, the formulation often causes undesirable complications including hypersensitivity reactions and limited tumor distribution, resulting in a lower dose-dependent antitumor effect. Herein, we introduce a facile and oil-free method to prepare albumin-based PTX nanoparticles for efficient systemic cancer therapy using a conjugate of human serum albumin (HSA) and poly(ethyleneglycol) (PEG). PTX were efficiently incorporated in the self-assembled HSA-PEG nanoparticles (HSA-PEG/PTX) using a simple film casting and re-hydration procedure without additional processes such as application of high pressure/shear or chemical crosslinking. The spherical HSA-PEG nanoparticle with a hydrodynamic diameter of ca. 280 nm mediates efficient cellular delivery, leading to comparable or even higher cytotoxicity in various breast cancer cells than that of the commercially available Abraxane®. When systemically administered in a mouse xenograft model for human breast cancer, the HSA-PEG-based nanoparticle formulation exhibited an extended systemic circulation for more than 96 h and enhanced intratumoral accumulation, resulting in a remarkable anticancer effect and prolonged survival of the animals.

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Yeon Lim Jang

Energy‐Independent Intracellular Gene Delivery Mediated by Polymeric Biomimetics of Cell‐Penetrating Peptides

Cell-penetrating peptide mimicking polymer-based combined delivery of paclitaxel and siRNA for enhanced tumor growth suppression

Facial amphipathic deoxycholic acid-modified polyethyleneimine for efficient MMP-2 siRNA delivery in vascular smooth muscle cells

Self-assembled PEGylated albumin nanoparticles (SPAN) as a platform for cancer chemotherapy and imaging

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