Expert Opinion on Drug Delivery, Volume (19), No (6), Year (2022-6) , Pages (743-754)

Title : ( Synthesis of a targeted, dual pH and redox-responsive nanoscale coordination polymer theranostic against metastatic breast cancer in vitro and in vivo )

Authors: Monireh Falsafi , naime hasanzade , Amir SHokooh Saljooghi , Khalil Abnous , Seyed Mohammad Taghdisi , Sirous Nekooei , Mohammad Ramezani , Mona Alibolandi ,

Access to full-text not allowed by authors

Citation: BibTeX | EndNote

Abstract

Background: Nanoscale coordination polymers (nCP) have exhibited a great potential in designing of the theranostic platforms in the latest years. However, they have low selectivity for cancerous tissues and require to be modified for becoming effective cancer therapeutics. In this study, a novel nanoscale pH and redox-responsive coordination polymer with high selectivity was synthesized. Methods: The nCP was synthesized by iron(III) chloride and dithiodiglycolic acid. After loading the prepared nCP with doxorubicin (DOX), nCP was coated with an amphiphilic copolymer composed of α- tocopheryl succinate-polyethylene glycol (VEP). Next, AS1411 aptamer was decorated on the VEP shell of the DOX-loaded nCP (Apt-VEP-nCP@DOX) to provide a guided drug delivery platform. Results: The prepared platform demonstrated high DOX loading capacity and pH and redox-responsive DOX release. Apt-VEP-nCP@DOX displayed greater DOX internalization and toxicity toward breast cancer cells of 4T1 and MCF7 compared with that of non-targeted VEP-nCP@DOX. Also, the intravenous injection of Apt-VEP-nCP@DOX (a single dose) considerably suppressed the 4T1 tumor growth in vivo. Moreover, Apt-VEP-nCP@DOX showed outstanding magnetic resonance (MR) imaging capability for 4T1 adenocarcinoma diagnosis in ectopic 4T1 tumor model in mice. Conclusions: The developed innovative intelligent Apt-VEP-nCP@DOX could serve as a safe and biocompatible theranostic platform appropriate for further translational purposes against breast cancer.

Keywords

Nano coordination polymer; theranostics; doxorubicin; breast cancer; dithiodiglycolic acid; magnetic resonance imaging; AS1411 aptamer
برای دانلود از شناسه و رمز عبور پرتال پویا استفاده کنید.

@article{paperid:1091547,
author = {Monireh Falsafi and Hasanzade, Naime and SHokooh Saljooghi, Amir and Khalil Abnous and Seyed Mohammad Taghdisi and Sirous Nekooei and Mohammad Ramezani and Mona Alibolandi},
title = {Synthesis of a targeted, dual pH and redox-responsive nanoscale coordination polymer theranostic against metastatic breast cancer in vitro and in vivo},
journal = {Expert Opinion on Drug Delivery},
year = {2022},
volume = {19},
number = {6},
month = {June},
issn = {1742-5247},
pages = {743--754},
numpages = {11},
keywords = {Nano coordination polymer; theranostics; doxorubicin; breast cancer; dithiodiglycolic acid; magnetic resonance imaging; AS1411 aptamer},
}

[Download]

%0 Journal Article
%T Synthesis of a targeted, dual pH and redox-responsive nanoscale coordination polymer theranostic against metastatic breast cancer in vitro and in vivo
%A Monireh Falsafi
%A Hasanzade, Naime
%A SHokooh Saljooghi, Amir
%A Khalil Abnous
%A Seyed Mohammad Taghdisi
%A Sirous Nekooei
%A Mohammad Ramezani
%A Mona Alibolandi
%J Expert Opinion on Drug Delivery
%@ 1742-5247
%D 2022

[Download]