AI Article Synopsis
- There is growing evidence that the effectiveness of nanodrugs in fighting tumors is much better in mouse models than in actual human tumors, likely due to the different characteristics of tumor models used.
- The study found that faster-growing tumors have lower vascular tight junctions, which increases the accumulation of nanodrugs, while orthotopic tumors have low transport activities, making it hard for nanodrugs to target these tumors effectively.
- The researchers emphasize that the enhanced permeability and retention (EPR) effect varies significantly between different tumor models, suggesting that it may not be a one-size-fits-all approach for designing antitumor nanodrugs, and caution against overstating their effectiveness based on preclinical results.
Article Abstract
Evidence is mounting that there is a significant gap between the antitumor efficacy of nanodrugs in preclinical mouse tumor models and in clinical human tumors, and that differences in tumor models are likely to be responsible for this gap. Herein, we investigated the enhanced permeability and retention (EPR) effect in mouse lung cancer models with different tumor growth rates, volumes and locations, and analyzed the nanodrug tumor targeting behaviors limited by tumor vascular pathophysiological characteristics in various tumor models. The results showed that the fast-growing tumors were characterized by lower vascular tight junctions, leading to higher vascular paracellular transport activity and nanodrug tumor accumulation. The paracellular transport activity increased with the growth of tumor, but the vascular density and transcellular transport activity decreased, and as a result, the average tumor accumulation of passive targeting nanodrugs decreased. Orthotopic tumors were rich in blood vessels, but had low vascular transcellular and paracellular transport activities, making it difficult for nanodrug accumulation in orthotopic tumors via passive targeting strategies. The antitumor efficacy of passive targeting nanodrugs in various lung cancer-bearing mice validated the aforementioned nanodrug accumulation behavior, and nanodrugs based on the angiogenesis-tumor sequential targeting strategy achieved obviously improved efficacy in orthotopic lung cancer-bearing mice. These results suggest that the EPR effect varies in different tumor models and should not be used as a universal targeting strategy for antitumor nanodrugs. Besides, attention should be paid to the animal tumor models in the evaluation of nanodrugs so as to avoid exaggerating the antitumor efficacy.
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| http://dx.doi.org/10.1016/j.jconrel.2023.01.026 | DOI Listing |
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