Bingwei He scite author profile

Polymers are widely used as non-viral carriers for siRNA delivery, but concern has also arisen in their limited efficacy and inherent toxicity. Whilst many of previous efforts have been documented towards improving the performance of polymers via chemical modifications, the structure-activity relationships (SAR) of these ligand-modified polymers are not well understood. To address this issue, we systemically prepared a library of surface-engineered dendrimers (>300) as the screening pool to discover efficient siRNA carriers. The modified ligands include alkyls and fluoroalkyls, amino acids, benzene derivatives and heterocyclic compounds. Gene silencing results showed that the lead material shows excellent efficacy even in hard-to-transfect cells such as mesenchymal stem cells. The SAR studies revealed that ligands containing appropriate hydrophobicity, or ligands with both hydrophobic and functional atoms/groups are essential for polymers to achive efficient knockdown efficacy. A second-generation library designed based on the above principles further confirms the proposed design criteria. The results enable the future rational design of potent siRNA carriers.

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Polymers modified with double-tailed fluorous compounds for efficient DNA and siRNA delivery

Wang

Shao

et al. 2015

Acta Biomaterialia

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A cationic motif in Engrailed-2 homeoprotein controls its internalization via selective cell-surface glycosaminoglycans interactions

Cardon

Bolbach

Hervis

et al. 2021

Preprint

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Engrailed-2 (En2) is a transcription factor that possesses as most homeoproteins the unique and intriguing property to transfer from cell to cell through unconventional pathways. The internalization mechanism of this cationic protein is far from being fully understood and is proposed to require an initial interaction with cell-surface glycosaminoglycans (GAGs). To decipher the role of GAGs in the recognition of En2 at the cell surface, we have quantified the internalization of the homeodomain region in cell lines that differ in their content in cell-surface GAGs. The binding specificity to GAGs and the influence of this interaction on the structure and dynamics of En2 was also investigated at the amino acid level. Our results show that a high-affinity GAG-binding hexadecapeptide (RKPKKKNPNKEDKRPR) located upstream of the homeodomain controls internalization efficiency of En2 through selective interactions with highly-sulfated GAGs of heparan sulfate type. Our data underline the functional importance of the intrinsically disordered basic region that precedes the prominent internalization domain in En2, and demonstrate the critical role of GAGs as an entry gate for En2, finely tuning its capacity to internalize into cells.

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Hydrogen-bonding dramatically modulates the gene transfection efficacy of surface-engineered dendrimers

Shao

Wang

et al. 2015

Biomater. Sci.

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Dendrimers have shown great promise in the design of efficient gene vectors. However, high transfection efficacy is usually associated with serious cytotoxicity for these cationic polymers. Here, we report a facile strategy to prepare surface-engineered dendrimers with a dramatic transfection efficacy and reduced cytotoxicity. Surface-engineered dendrimers with multiple hydrogen bonding ligands such as guanamine and nucleobase derivatives show superior efficacy and low cytotoxicity on commonly used cells as well as 3D tumor spheroids to representative transfection reagents such as Lipofectamine 2000. Complementary multiple hydrogen bonding interactions between the modified ligands and DNA nucleobases play essential roles in efficient gene transfection. The hydrogen-bond modulation strategy represents a promising tool in the design of highly efficient and less cytotoxic gene materials.

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Bingwei He

Fluoropolymers for intracellular and in vivo protein delivery

Screening of efficient siRNA carriers in a library of surface-engineered dendrimers

Polymers modified with double-tailed fluorous compounds for efficient DNA and siRNA delivery

A cationic motif in Engrailed-2 homeoprotein controls its internalization via selective cell-surface glycosaminoglycans interactions

Hydrogen-bonding dramatically modulates the gene transfection efficacy of surface-engineered dendrimers

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