Preparation of Cholesteryl-Modified Aminated Pullulan Nanoparticles to Evaluate Nanoparticle of Hydrophobic Degree on Drug Release and Cytotoxicity

Preparation of Cholesteryl-Modified Aminated Pullulan Nanoparticles to Evaluate Nanoparticle of Hydrophobic Degree on Drug Release and Cytotoxicity

The formation of nanoparticles (NPs) and surface properties such as size and charge are affected by the amphiphilic property of polymer, which is vital for evaluating their function. Here, we synthesized cholesteryl-modified aminated pullulan polymers (CHPNs) with different amounts of cholesterol su...

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Main Authors: Huabing Yuan, Wu Zhong, Rong Wang, Ping Zhou, Yu Nie, Wei Hu, Xiaojun Tao, Ping Yang
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:Journal of Nanomaterials
Online Access:http://dx.doi.org/10.1155/2020/7171209
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spelling doaj-799ff714b60246548cff7476225232c02020-11-25T02:47:37ZengHindawi LimitedJournal of Nanomaterials1687-41101687-41292020-01-01202010.1155/2020/71712097171209Preparation of Cholesteryl-Modified Aminated Pullulan Nanoparticles to Evaluate Nanoparticle of Hydrophobic Degree on Drug Release and CytotoxicityHuabing Yuan0Wu Zhong1Rong Wang2Ping Zhou3Yu Nie4Wei Hu5Xiaojun Tao6Ping Yang7The First People’s Hospital of Tianmen in Hubei Province, ChinaHubei Province Key Laboratory of Occupational Hazard Identification and Control, Wuhan University of Science and Technology, ChinaHubei Province Key Laboratory of Occupational Hazard Identification and Control, Wuhan University of Science and Technology, ChinaHubei Province Key Laboratory of Occupational Hazard Identification and Control, Wuhan University of Science and Technology, ChinaHubei Province Key Laboratory of Occupational Hazard Identification and Control, Wuhan University of Science and Technology, ChinaHubei Province Key Laboratory of Occupational Hazard Identification and Control, Wuhan University of Science and Technology, ChinaHubei Province Key Laboratory of Occupational Hazard Identification and Control, Wuhan University of Science and Technology, ChinaThe First People’s Hospital of Tianmen in Hubei Province, ChinaThe formation of nanoparticles (NPs) and surface properties such as size and charge are affected by the amphiphilic property of polymer, which is vital for evaluating their function. Here, we synthesized cholesteryl-modified aminated pullulan polymers (CHPNs) with different amounts of cholesterol succinate (CHS). We characterized the three hydrophobically modified polymers (CHPN1, CHPN2, and CHPN3) (CHS: Pu‐NH2=1/5,2/5,3/5) by Fourier transform infrared spectrometry. Dynamic light scattering (DLS) was used to measure particle size and zeta potential of CHPN NPs. The particle sizes of the three NPs CHPN1, CHPN2, and CHPN3 were 178.0, 144.4, and 97.8 nm, respectively. The particle size was related to the cholesteryl substitution of polymers to a certain extent: the stronger the hydrophobicity, the smaller the particle size. In 48 h, the drug release for CHPN3 and CHPN1 NPs was 57.8% and 72.7%. Thus, the NPs showed good sustained drug release: the greater the degree of hydrophobic substitution, the better the sustained release. The cytotoxicity findings were reversed: CHPN1 NPs, with low hydrophobic substitution, showed the best inhibition of Lewis lung cancer cells.http://dx.doi.org/10.1155/2020/7171209
collection DOAJ
language English
format Article
sources DOAJ
author Huabing Yuan
Wu Zhong
Rong Wang
Ping Zhou
Yu Nie
Wei Hu
Xiaojun Tao
Ping Yang
spellingShingle Huabing Yuan
Wu Zhong
Rong Wang
Ping Zhou
Yu Nie
Wei Hu
Xiaojun Tao
Ping Yang
Preparation of Cholesteryl-Modified Aminated Pullulan Nanoparticles to Evaluate Nanoparticle of Hydrophobic Degree on Drug Release and Cytotoxicity
Journal of Nanomaterials
author_facet Huabing Yuan
Wu Zhong
Rong Wang
Ping Zhou
Yu Nie
Wei Hu
Xiaojun Tao
Ping Yang
author_sort Huabing Yuan
title Preparation of Cholesteryl-Modified Aminated Pullulan Nanoparticles to Evaluate Nanoparticle of Hydrophobic Degree on Drug Release and Cytotoxicity
title_short Preparation of Cholesteryl-Modified Aminated Pullulan Nanoparticles to Evaluate Nanoparticle of Hydrophobic Degree on Drug Release and Cytotoxicity
title_full Preparation of Cholesteryl-Modified Aminated Pullulan Nanoparticles to Evaluate Nanoparticle of Hydrophobic Degree on Drug Release and Cytotoxicity
title_fullStr Preparation of Cholesteryl-Modified Aminated Pullulan Nanoparticles to Evaluate Nanoparticle of Hydrophobic Degree on Drug Release and Cytotoxicity
title_full_unstemmed Preparation of Cholesteryl-Modified Aminated Pullulan Nanoparticles to Evaluate Nanoparticle of Hydrophobic Degree on Drug Release and Cytotoxicity
title_sort preparation of cholesteryl-modified aminated pullulan nanoparticles to evaluate nanoparticle of hydrophobic degree on drug release and cytotoxicity
publisher Hindawi Limited
series Journal of Nanomaterials
issn 1687-4110
1687-4129
publishDate 2020-01-01
description The formation of nanoparticles (NPs) and surface properties such as size and charge are affected by the amphiphilic property of polymer, which is vital for evaluating their function. Here, we synthesized cholesteryl-modified aminated pullulan polymers (CHPNs) with different amounts of cholesterol succinate (CHS). We characterized the three hydrophobically modified polymers (CHPN1, CHPN2, and CHPN3) (CHS: Pu‐NH2=1/5,2/5,3/5) by Fourier transform infrared spectrometry. Dynamic light scattering (DLS) was used to measure particle size and zeta potential of CHPN NPs. The particle sizes of the three NPs CHPN1, CHPN2, and CHPN3 were 178.0, 144.4, and 97.8 nm, respectively. The particle size was related to the cholesteryl substitution of polymers to a certain extent: the stronger the hydrophobicity, the smaller the particle size. In 48 h, the drug release for CHPN3 and CHPN1 NPs was 57.8% and 72.7%. Thus, the NPs showed good sustained drug release: the greater the degree of hydrophobic substitution, the better the sustained release. The cytotoxicity findings were reversed: CHPN1 NPs, with low hydrophobic substitution, showed the best inhibition of Lewis lung cancer cells.
url http://dx.doi.org/10.1155/2020/7171209
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