Purpose: To evaluate the effect of transarterial infusion of iRGD-modified and doxorubicin-loaded zirconia-composite nanoparticles (R-DZCNs) with lipiodol in the improvement of the distribution of doxorubicin (DOX) in liver tumors and its antitumor efficacy.
Materials and methods: The effect of R-DZCNs was evaluated in vitro by tumor cellular uptake and cytotoxicity assays. For the in vivo study, DOX distribution and antitumor efficiency were assessed. In the DOX distribution study, VX2 tumor-bearing rabbits received transarterial infusion of lipiodol with DOX, doxorubicin-loaded zirconia-composite nanoparticles (DZCNs), or R-DZCNs, respectively. DOX distribution was assessed by immunofluorescence. In the antitumor study, tumor-bearing rabbits received transarterial infusions of lipiodol with DOX, DZCNs, R-DZCNs, or saline respectively. Tumor volume was measured using magnetic resonance imaging, and the expression of apoptosis-related factors (caspase-3, Bax, Bcl-2) was analyzed by immunohistochemistry and Western blotting.
Results: R-DZCNs increased cellular uptake and caused stronger cytotoxicity. Compared with the DOX + lipiodol or DZCNs + lipiodol group, the R-DZCNs + lipiodol group showed more DOX fluorescence spots (2,449.15 ± 444.14 vs. 3,464.73 ± 632.75 or 5,062.25 ± 585.62, respectively; P < .001) and longer penetration distance (117.58 ± 19.36 vs 52.64 ± 8.53 or 83.37 ± 13.76 μm, respectively; P < .001). In the antitumor study, the R-DZCNs + lipiodol group showed smaller tumor volumes than the DOX + lipiodol or DZCNs + lipiodol group (1,223.87 ± 223.58 vs. 3,695.26 ± 666.25 or 2281.06 ± 457.21 mm3, respectively; P = .005).The greatest extent of tumor cell apoptosis was observed in R-DZCNs + lipiodol group immunohistochemistry and Western blotting results.
Conclusions: Transarterial infusion of R-DZCNs with lipiodol improved the distribution of DOX and enhanced its antitumor efficacy.
Copyright © 2019 SIR. Published by Elsevier Inc. All rights reserved.