Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in vivo

Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in vivo

Resistance to platinum agents is challenging in cancer treatment with platinum drugs. Such resistant cells prevent effective platinum accumulation intracellular and alter cellular adaptations to survive from cytotoxicity by regulating corresponding proteins expression. Ideal therapeutics should comb...

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Main Authors: Yu, Chang, Ding, Binbin, Zhang, Xinyang, Deng, Xiaoran, Deng, Kerong, Cheng, Ziyong, Xing, Bengang, Jin, Dayong, Ma, Ping'an, Lin, Jun
Other Authors: School of Physical and Mathematical Sciences
Format: Article
Language:English
Published: 2020
Subjects:
Science::Chemistry
Iron Nanoparticles
Cisplatin Resistant
Online Access:https://hdl.handle.net/10356/141679
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1416792020-06-10T02:41:35Z Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in vivo Yu, Chang Ding, Binbin Zhang, Xinyang Deng, Xiaoran Deng, Kerong Cheng, Ziyong Xing, Bengang Jin, Dayong Ma, Ping'an Lin, Jun School of Physical and Mathematical Sciences Science::Chemistry Iron Nanoparticles Cisplatin Resistant Resistance to platinum agents is challenging in cancer treatment with platinum drugs. Such resistant cells prevent effective platinum accumulation intracellular and alter cellular adaptations to survive from cytotoxicity by regulating corresponding proteins expression. Ideal therapeutics should combine resolution to these pump and non-pump relevant resistance of cancer cells to achieve high efficacy and low side effect. Fe3O4 nanocarrier loaded with drugs could enter cells in a more efficient endocytosis manner which circumvents pump-relevant drug resistance. EZH2 protein which was previously found to be over-expressed in drug-resistant cancer cells was reported to be involved in platinum drug resistance and play a vital role in anti-apoptosis pathways. Here, we report Fe3O4 nanoparticles loaded with siEZH2 (siRNA), a platinum prodrug in +4 oxidation state (cis, cis, trans-diamminedichlorodisuccinato-platinum-(IV), namely Pt(IV)) and luteinizing hormone-releasing hormone (LHRH) targeting polypeptides. Results show that targeted nanoparticles loading with siEZH2 synergize with Pt(IV) and result in similar cell killing performance to A2780/DDP cells (cisplatin resistant) compared with non-siEZH2 loaded nanoparticles to A2780 cells (cisplatin sensitive). Thus, this Fe3O4@PEI-Pt(IV)-PEG-LHRH@siEZH2 nanoparticles reverse the cisplatin resistance from the pump and non-pump relevant aspects, fully taking advantage of nanocarrier system. 2020-06-10T02:41:35Z 2020-06-10T02:41:35Z 2018 Journal Article Yu, C., Ding, B., Zhang, X., Deng, X., Deng, K., Cheng, Z., . . ., Lin, J. (2018). Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in Vivo. Biomaterials, 155, 112-123. doi:10.1016/j.biomaterials.2017.11.014 0142-9612 https://hdl.handle.net/10356/141679 10.1016/j.biomaterials.2017.11.014 29175080 2-s2.0-85034640199 155 112 123 en Biomaterials © 2017 Elsevier Ltd. All rights reserved.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Science::Chemistry
Iron Nanoparticles
Cisplatin Resistant
spellingShingle Science::Chemistry
Iron Nanoparticles
Cisplatin Resistant
Yu, Chang
Ding, Binbin
Zhang, Xinyang
Deng, Xiaoran
Deng, Kerong
Cheng, Ziyong
Xing, Bengang
Jin, Dayong
Ma, Ping'an
Lin, Jun
Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in vivo
description Resistance to platinum agents is challenging in cancer treatment with platinum drugs. Such resistant cells prevent effective platinum accumulation intracellular and alter cellular adaptations to survive from cytotoxicity by regulating corresponding proteins expression. Ideal therapeutics should combine resolution to these pump and non-pump relevant resistance of cancer cells to achieve high efficacy and low side effect. Fe3O4 nanocarrier loaded with drugs could enter cells in a more efficient endocytosis manner which circumvents pump-relevant drug resistance. EZH2 protein which was previously found to be over-expressed in drug-resistant cancer cells was reported to be involved in platinum drug resistance and play a vital role in anti-apoptosis pathways. Here, we report Fe3O4 nanoparticles loaded with siEZH2 (siRNA), a platinum prodrug in +4 oxidation state (cis, cis, trans-diamminedichlorodisuccinato-platinum-(IV), namely Pt(IV)) and luteinizing hormone-releasing hormone (LHRH) targeting polypeptides. Results show that targeted nanoparticles loading with siEZH2 synergize with Pt(IV) and result in similar cell killing performance to A2780/DDP cells (cisplatin resistant) compared with non-siEZH2 loaded nanoparticles to A2780 cells (cisplatin sensitive). Thus, this Fe3O4@PEI-Pt(IV)-PEG-LHRH@siEZH2 nanoparticles reverse the cisplatin resistance from the pump and non-pump relevant aspects, fully taking advantage of nanocarrier system.
author2 School of Physical and Mathematical Sciences
author_facet School of Physical and Mathematical Sciences
Yu, Chang
Ding, Binbin
Zhang, Xinyang
Deng, Xiaoran
Deng, Kerong
Cheng, Ziyong
Xing, Bengang
Jin, Dayong
Ma, Ping'an
Lin, Jun
format Article
author Yu, Chang
Ding, Binbin
Zhang, Xinyang
Deng, Xiaoran
Deng, Kerong
Cheng, Ziyong
Xing, Bengang
Jin, Dayong
Ma, Ping'an
Lin, Jun
author_sort Yu, Chang
title Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in vivo
title_short Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in vivo
title_full Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in vivo
title_fullStr Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in vivo
title_full_unstemmed Targeted iron nanoparticles with platinum-(IV) prodrugs and anti-EZH2 siRNA show great synergy in combating drug resistance in vitro and in vivo
title_sort targeted iron nanoparticles with platinum-(iv) prodrugs and anti-ezh2 sirna show great synergy in combating drug resistance in vitro and in vivo
publishDate 2020
url https://hdl.handle.net/10356/141679
_version_ 1681057944522719232

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