The Length of Hydrophobic Chain in Amphiphilic Polypeptides Regulates the Efficiency of Gene Delivery

The Length of Hydrophobic Chain in Amphiphilic Polypeptides Regulates the Efficiency of Gene Delivery

The major challenges of non-viral carriers are low transfection efficiency and high toxicity. To overcome this bottleneck, it is very important to investigate the structure-property-function (transfection efficiency) relationships of polycations. Herein, different length hydrophobic poly(l-leucine)...

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Main Authors: Ying Zhang, Zhiping Zhou, Mingsheng Chen
Format: Article
Language:English
Published: MDPI AG 2018-04-01
Series:Polymers
Subjects:
controlled polymerization
biocompatible polypeptides
gene delivery
transfection efficiency
hydrophobic chain
structure-property-function
Online Access:http://www.mdpi.com/2073-4360/10/4/379
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spelling doaj-88e19ef0a16c43e3aedac98b5aae1cf72020-11-24T23:58:10ZengMDPI AGPolymers2073-43602018-04-0110437910.3390/polym10040379polym10040379The Length of Hydrophobic Chain in Amphiphilic Polypeptides Regulates the Efficiency of Gene DeliveryYing Zhang0Zhiping Zhou1Mingsheng Chen2School of Material Science & Engineering, Jiangsu University, 301 Xuefu Road, Zhenjiang 212013, ChinaSchool of Material Science & Engineering, Jiangsu University, 301 Xuefu Road, Zhenjiang 212013, ChinaDepartment of Pharmaceutical Sciences, College of Pharmacy, University of Michigan, Ann Arbor, MI 48109, USAThe major challenges of non-viral carriers are low transfection efficiency and high toxicity. To overcome this bottleneck, it is very important to investigate the structure-property-function (transfection efficiency) relationships of polycations. Herein, different length hydrophobic poly(l-leucine) chains in amphiphilic polypeptides were precisely synthesized by α-amino acid N-carboxyanhydrides (NCA) ring-opening polymerization and these biocompatible polypeptides were chosen as a model to further examine the transfection in vitro. These polypeptides were characterized by nuclear magnetic resonance spectroscopy (NMR) and size exclusion chromatography (SEC). Agarose gel electrophoresis (AGE) was employed to validate the ability of DNA condensation and transmission electron microscopy (TEM) was used to observe the assemblies of polyplexes. Cytotoxicity was evaluated in COS-7 cell lines and transfection was performed in normal cell COS-7 and cancer cell Hep G2. The results showed that NCA monomers were prepared and the amphiphilic polypeptides, poly(lysine(CBZ))50-block-poly(l-leucine)10, poly(l-lysine(CBZ))50-block-poly(l-leucine)15, and poly(l-lysine(CBZ))50-block-poly(l-leucine)25, were successfully synthesized with controlled molecular weight and narrow distribution. After deprotection of CBZ, these materials can condense plasmid DNA into 100 nm nanoparticles and the cellular uptake of polyplexes was as fast as 30 min. The transfection data shown these materials had a good transfection efficiency comparing to polyethylenimine (Branched, 25 kDa) while they displayed ignored cytotoxicity. More importantly, we discovered the length of hydrophobic poly(l-leucine) in amphiphilic polypeptides steadily regulates gene delivery efficiency in two kinds of cells ranking poly(l-lysine)50-block-poly(l-leucine)25 > poly(l-lysine)50-block-poly(l-leucine)15 > poly(l-lysine)50-block-poly(l-leucine)10.http://www.mdpi.com/2073-4360/10/4/379controlled polymerizationbiocompatible polypeptidesgene deliverytransfection efficiencyhydrophobic chainstructure-property-function
collection DOAJ
language English
format Article
sources DOAJ
author Ying Zhang
Zhiping Zhou
Mingsheng Chen
spellingShingle Ying Zhang
Zhiping Zhou
Mingsheng Chen
The Length of Hydrophobic Chain in Amphiphilic Polypeptides Regulates the Efficiency of Gene Delivery
Polymers
controlled polymerization
biocompatible polypeptides
gene delivery
transfection efficiency
hydrophobic chain
structure-property-function
author_facet Ying Zhang
Zhiping Zhou
Mingsheng Chen
author_sort Ying Zhang
title The Length of Hydrophobic Chain in Amphiphilic Polypeptides Regulates the Efficiency of Gene Delivery
title_short The Length of Hydrophobic Chain in Amphiphilic Polypeptides Regulates the Efficiency of Gene Delivery
title_full The Length of Hydrophobic Chain in Amphiphilic Polypeptides Regulates the Efficiency of Gene Delivery
title_fullStr The Length of Hydrophobic Chain in Amphiphilic Polypeptides Regulates the Efficiency of Gene Delivery
title_full_unstemmed The Length of Hydrophobic Chain in Amphiphilic Polypeptides Regulates the Efficiency of Gene Delivery
title_sort length of hydrophobic chain in amphiphilic polypeptides regulates the efficiency of gene delivery
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2018-04-01
description The major challenges of non-viral carriers are low transfection efficiency and high toxicity. To overcome this bottleneck, it is very important to investigate the structure-property-function (transfection efficiency) relationships of polycations. Herein, different length hydrophobic poly(l-leucine) chains in amphiphilic polypeptides were precisely synthesized by α-amino acid N-carboxyanhydrides (NCA) ring-opening polymerization and these biocompatible polypeptides were chosen as a model to further examine the transfection in vitro. These polypeptides were characterized by nuclear magnetic resonance spectroscopy (NMR) and size exclusion chromatography (SEC). Agarose gel electrophoresis (AGE) was employed to validate the ability of DNA condensation and transmission electron microscopy (TEM) was used to observe the assemblies of polyplexes. Cytotoxicity was evaluated in COS-7 cell lines and transfection was performed in normal cell COS-7 and cancer cell Hep G2. The results showed that NCA monomers were prepared and the amphiphilic polypeptides, poly(lysine(CBZ))50-block-poly(l-leucine)10, poly(l-lysine(CBZ))50-block-poly(l-leucine)15, and poly(l-lysine(CBZ))50-block-poly(l-leucine)25, were successfully synthesized with controlled molecular weight and narrow distribution. After deprotection of CBZ, these materials can condense plasmid DNA into 100 nm nanoparticles and the cellular uptake of polyplexes was as fast as 30 min. The transfection data shown these materials had a good transfection efficiency comparing to polyethylenimine (Branched, 25 kDa) while they displayed ignored cytotoxicity. More importantly, we discovered the length of hydrophobic poly(l-leucine) in amphiphilic polypeptides steadily regulates gene delivery efficiency in two kinds of cells ranking poly(l-lysine)50-block-poly(l-leucine)25 > poly(l-lysine)50-block-poly(l-leucine)15 > poly(l-lysine)50-block-poly(l-leucine)10.
topic controlled polymerization
biocompatible polypeptides
gene delivery
transfection efficiency
hydrophobic chain
structure-property-function
url http://www.mdpi.com/2073-4360/10/4/379
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