Subtherapeutic Photodynamic Treatment Facilitates Tumor Nanomedicine Delivery and Overcomes Desmoplasia

Overview

Journal Nano Lett

Publisher American Chemical Society

Specialty Biotechnology

Date 2020 Dec 10

PMID 33301689

Citations 18

Authors

Marta Overchuk

Kara M Harmatys

Shrey Sindhwani

Maneesha A Rajora

Adam Koebel

Danielle M Charron

Abdullah M Syed

Juan Chen

Martin G Pomper

Brian C Wilson

Warren C W Chan

Gang Zheng

Affiliations

Soon will be listed here.

Abstract

Limited tumor nanoparticle accumulation remains one of the main challenges in cancer nanomedicine. Here, we demonstrate that subtherapeutic photodynamic priming (PDP) enhances the accumulation of nanoparticles in subcutaneous murine prostate tumors ∼3-5-times without inducing cell death, vascular destruction, or tumor growth delay. We also found that PDP resulted in an ∼2-times decrease in tumor collagen content as well as a significant reduction of extracellular matrix density in the subendothelial zone. Enhanced nanoparticle accumulation combined with the reduced extravascular barriers improved therapeutic efficacy in the absence of off-target toxicity, wherein 5 mg/kg of Doxil with PDP was equally effective in delaying tumor growth as 15 mg/kg of Doxil. Overall, this study demonstrates the potential of PDP to enhance tumor nanomedicine accumulation and alleviate tumor desmoplasia without causing cell death or vascular destruction, highlighting the utility of PDP as a minimally invasive priming strategy that can improve therapeutic outcomes in desmoplastic tumors.

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