Litcius/Paper detail

pH/redox responsive size‐switchable intelligent nanovehicle for tumor microenvironment targeted DOX release

Fahimeh Badparvar, Ahmad Poursattar Marjani, Roya Salehi, Fatemeh Ramezani

2023Scientific Reports30 citationsDOIOpen Access PDF

Abstract

Abstract Tumor microenvironment (TME) targeted strategy could control the drug release in tumor cells more accurately and creates a new opportunity for enhanced site-specific targeted delivery. In this study, (PAA-b-PCL-S-S-PCL-b-PAA) copolymeric nanoparticles (NPs) with size-switchable ability and dual pH/redox-triggered drug release behavior were designed to significantly promote cancer uptake (cell internalization of around 100% at 30 min) and site-specific targeted doxorubicin (DOX) delivery in MDA-MB-231 tumor cells. NPs surface charge was shifted from − 17.8 to − 2.4 and their size shrunk from 170.3 to 93 nm in TME. The cell cycle results showed that DOX-loaded NPs showed G2/M (68%) arrest, while free DOX showed sub-G1 arrest (22%). Apoptosis tests confirmed that the cells treated with DOX-loaded NPs showed a higher amount of apoptosis (71.6%) than the free DOX (49.8%). Western blot and RT-PCR assays revealed that the apoptotic genes and protein levels were significantly upregulated using the DOX-loaded NPs vs. the free DOX ( P value < 0.001). In conclusion, dual pH/redox-responsive and size-switchable DOX-loaded NPs developed here showed outstanding anti-tumoral features compared with free DOX that might present a prospective platform for tumor site-specific accumulation and drug release that suggest further in vivo research.

Topics & Concepts

DoxorubicinInternalizationApoptosisIn vivoTumor microenvironmentChemistryViability assayCancer researchDrug deliveryCellDownregulation and upregulationWestern blotBiophysicsChemotherapyBiochemistryMedicineTumor cellsBiologyGeneOrganic chemistryBiotechnologySurgeryNanoparticle-Based Drug DeliveryNanoplatforms for cancer theranosticsRNA Interference and Gene Delivery