Enhance Chemotherapy Efficacy and Minimize Anticancer Drug Side Effects by Using Reversibly Ph- and Redox-Responsive Cross-Linked Unimolecular Micelles

Enhance Chemotherapy Efficacy and Minimize Anticancer Drug Side Effects by Using Reversibly Ph- and Redox-Responsive Cross-Linked Unimolecular Micelles Publisher

Abandansari HS¹ ; Abuali M² ; Nabid MR² ; Niknejad H^{3, 4}

Show Affiliations

1. Department of Stem Cells and Developmental Biology, Cell Science Research Center, Royan Institute, Tehran, Iran
2. Faculty of Chemistry, Shahid Beheshti University, G.C., P.O. Box 1983963113, Tehran, Iran
3. Department of Tissue Engineering, School of Advanced Technologies in Medicine, Shahid Beheshti University of Medical Sciences, Tehran, Iran
4. Nanomedicine and Tissue Engineering Research Center, Shahid Beheshti University of Medical Sciences, Tehran, Iran

Source: Polymer Published:2017

Abstract

Chemotherapy side effects elimination while keeping the original therapeutic advantages has been of extensive interest over last decades. We herein develope a new pH and redox-sensitive nanogel for glutathione-mediated intracellular drug delivery employing disulfide crosselinked unimolecular micelles. We developed H40-polycaprolactone-b-polyacrylic acid-b′-methoxy poly(ethylene glycol)/poly(ethylene glycol)-folate (i.e., H40-PCL-(b-PAA-b′-MPEG/PEG-FA)2) unimolecular micelles with targeting moieties on the periphery. It was then crosslinked with cystamine in order to generate a pH and redox-sensitive nanogel. Dynamic light scattering (DLS) was performed to study pH-dependent nanogel sizes. We applied Paclitaxel, a hydrophobic anticancer drug, into delivery system and examined triggered release behaviors at different pHs upon DTT buffer exposure. Our results demonstrated that DTT presence as reductive agent within acidic environment is essential for drug release. This may potentially reduce unwanted drug release at non-cancerous acidic tissues leading to eliminated side effects. We examined biocompatibility and cytotoxicity of free nanogel and PTX-loaded nanogel to normal and cancer HeLa cells using MTT assay. Nanogel HeLa cell uptake was confirmed by Fluorescein loading into the gel followed by fluorescent microscope imaging. Our novel strategy would have profound implications in both enhanced chemotherapy efficacy and minimized side effects. © 2017

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Experts (# of related papers)

Reza Faridi Majidi (1)

Style	Citing Format
MLA	Abandansari HS, et al.. "Enhance Chemotherapy Efficacy and Minimize Anticancer Drug Side Effects by Using Reversibly Ph- and Redox-Responsive Cross-Linked Unimolecular Micelles." Polymer, vol. 116, no. , 2017, pp. 16-26.
APA	Abandansari HS, Abuali M, Nabid MR, Niknejad H (2017). Enhance Chemotherapy Efficacy and Minimize Anticancer Drug Side Effects by Using Reversibly Ph- and Redox-Responsive Cross-Linked Unimolecular Micelles. Polymer, 116(), 16-26.
Chicago	Abandansari HS, Abuali M, Nabid MR, Niknejad H. "Enhance Chemotherapy Efficacy and Minimize Anticancer Drug Side Effects by Using Reversibly Ph- and Redox-Responsive Cross-Linked Unimolecular Micelles." Polymer 116, no. (2017): 16-26.
Harvard	Abandansari HS et al. (2017) 'Enhance Chemotherapy Efficacy and Minimize Anticancer Drug Side Effects by Using Reversibly Ph- and Redox-Responsive Cross-Linked Unimolecular Micelles', Polymer, 116(), pp. 16-26.
Vancouver	Abandansari HS, Abuali M, Nabid MR, Niknejad H. Enhance Chemotherapy Efficacy and Minimize Anticancer Drug Side Effects by Using Reversibly Ph- and Redox-Responsive Cross-Linked Unimolecular Micelles. Polymer. 2017;116():16-26.
BibTex	@article{ author = {Abandansari HS and Abuali M and Nabid MR and Niknejad H}, title = {Enhance Chemotherapy Efficacy and Minimize Anticancer Drug Side Effects by Using Reversibly Ph- and Redox-Responsive Cross-Linked Unimolecular Micelles}, journal = {Polymer}, volume = {116}, number = {}, pages = {16-26}, year = {2017} }
RIS	TY - JOUR AU - Abandansari HS AU - Abuali M AU - Nabid MR AU - Niknejad H TI - Enhance Chemotherapy Efficacy and Minimize Anticancer Drug Side Effects by Using Reversibly Ph- and Redox-Responsive Cross-Linked Unimolecular Micelles JO - Polymer VL - 116 IS - SP - 16 EP - 26 PY - 2017 ER -

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