Ethel J Ngen 1 , Ying Chen 1 , Babak Behnam Azad 1 , Srikanth Boinapally 1 , Desmond Jacob 1 , Ala Lisok 1 , Chentian Shen 1 , Mir S Hossain 1 , Jiefu Jin 1 , Zaver M Bhujwalla 1,2 , Martin G Pomper 1,2 , Sangeeta R Banerjee 1,2,3 Show Affiliations »
Abstract
Enhanced vascular permeability in tumors plays an essential role in nanoparticle delivery. Prostate-specific membrane antigen (PSMA) is overexpressed on the epithelium of aggressive prostate cancers (PCs). Here, we evaluated the feasibility of increasing the delivery of PSMA-targeted magnetic nanoparticles (MNPs) to tumors by enhancing vascular permeability in PSMA(+) PC tumors with PSMA-targeted photodynamic therapy (PDT). Method: PSMA(+) PC3 PIP tumor-bearing mice were given a low-molecular-weight PSMA-targeted photosensitizer and treated with fluorescence image-guided PDT, 4 h after. The mice were then given a PSMA-targeted MNP immediately after PDT and monitored with fluorescence imaging and T2-weighted magnetic resonance imaging (T2-W MRI) 18 h, 42 h, and 66 h after MNP administration. Untreated PSMA(+) PC3 PIP tumor-bearing mice were used as negative controls. Results: An 8-fold increase in the delivery of the PSMA-targeted MNPs was detected using T2-W MRI in the pretreated tumors 42 h after PDT, compared to untreated tumors. Additionally, T2-W MRIs revealed enhanced peripheral intra-tumoral delivery of the PSMA-targeted MNPs. That finding is in keeping with two-photon microscopy, which revealed higher vascular densities at the tumor periphery. Conclusion: These results suggest that PSMA-targeted PDT enhances the delivery of PSMA-targeted MNPs to PSMA(+) tumors by enhancing the vascular permeability of the tumors. © The author(s).
Enhanced vascular permeability in tumors plays an essential role in nanoparticle delivery. Prostate-specific membrane antigen (PSMA ) is overexpressed on the epithelium of aggressive prostate cancers (PCs). Here, we evaluated the feasibility of increasing the delivery of PSMA -targeted magnetic nanoparticles (MNPs) to tumors by enhancing vascular permeability in PSMA (+) PC tumors with PSMA -targeted photodynamic therapy (PDT). Method: PSMA (+) PC3 PIP tumor -bearing mice were given a low-molecular-weight PSMA -targeted photosensitizer and treated with fluorescence image-guided PDT, 4 h after. The mice were then given a PSMA -targeted MNP immediately after PDT and monitored with fluorescence imaging and T2-weighted magnetic resonance imaging (T2-W MRI) 18 h, 42 h, and 66 h after MNP administration. Untreated PSMA (+) PC3 PIP tumor -bearing mice were used as negative controls. Results: An 8-fold increase in the delivery of the PSMA -targeted MNPs was detected using T2-W MRI in the pretreated tumors 42 h after PDT, compared to untreated tumors . Additionally, T2-W MRIs revealed enhanced peripheral intra-tumoral delivery of the PSMA -targeted MNPs. That finding is in keeping with two-photon microscopy, which revealed higher vascular densities at the tumor periphery. Conclusion: These results suggest that PSMA -targeted PDT enhances the delivery of PSMA -targeted MNPs to PSMA (+) tumors by enhancing the vascular permeability of the tumors . © The author(s).
Entities: Chemical
Disease
Gene
Mutation
Species
Keywords:
enhanced permeability and retention (EPR) effect; magnetic nanoparticle delivery; magnetic resonance imaging (MRI); photodynamic therapy (PDT); prostate cancer
Year: 2021
PMID: 33564617 PMCID: PMC7868004 DOI: 10.7150/ntno.52361
Source DB: PubMed Journal: Nanotheranostics ISSN: 2206-7418