4.7 Article

Bio-Responsive Carriers for Controlled Delivery of Doxorubicin to Cancer Cells

Journal

PHARMACEUTICS
Volume 14, Issue 4, Pages -

Publisher

MDPI
DOI: 10.3390/pharmaceutics14040865

Keywords

poly(N-isopropylacrylamide); 1-vinylimidazole; stimuli-sensitive polymer; drug targeting; LCST

Funding

  1. Romanian Ministry of Research, Innovation, and Digitization, CNCS/CCCDI-UEFISCDI [PN-III-P4-ID-PCCF-2016-0050]

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In this study, pH/temperature-responsive carriers were designed and characterized for the delivery of the anti-tumoral drug doxorubicin. The carriers disintegrated and released the drug under endosomal and lysosomal conditions. The results showed that the carriers were more effective in delivering the drug to hepatic carcinoma cells HepG2 compared to lung adenocarcinoma cells A549, resulting in increased cytotoxicity. Additionally, the carriers were found to be biocompatible and reduced the renal clearance of doxorubicin when administered in vivo. These findings suggest the potential importance of the newly developed carriers for the treatment of hepatic tumors.
The cellular internalization of drug carriers occurs via different endocytic pathways that ultimately involve the endosomes and the lysosomes, organelles where the pH value drops to 6.0 and 5.0, respectively. We aimed to design and characterize pH/temperature-responsive carriers for the effective delivery of the anti-tumoral drug doxorubicin. To this purpose, poly(N-isopropylacrylamide-co-vinylimidazole) was synthesized as an attractive pH/temperature-sensitive copolymer. Microspheres made of this copolymer, loaded with doxorubicin (MS-DXR), disintegrate in monodisperse nanospheres (NS-DXR) under conditions similar to that found in the bloodstream (pH = 7.4, temperature of 36 degrees C) releasing a small amount of payload. However, in environments that simulate the endosomal and lysosomal conditions, nanospheres solubilize, releasing the entire amount of drug. We followed the NS-DXR internalization using two cancer cell lines, hepatic carcinoma HepG2 cells and lung adenocarcinoma A549 cells. The data showed that NS-DXR are internalized to a greater extent by HepG2 cells than A549 cells, and this correlated with increased cytotoxicity induced by NS-DXR in HepG2 cells compared with A549 cells. Moreover, NS-DXR particles do not cause hemolysis and erythrocytes aggregation. Administered in vivo, NS-DXR localized in the liver and kidneys of mice, and the loading of DXR into NS resulted in the reduced renal clearance of DXR. In conclusion, the newly developed poly(N-isopropylacrylamide-co-vinyl imidazole) particles are biocompatible and may be introduced as carriers for doxorubicin to hepatic tumors.

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