Investigating the reactive oxygen species production of Rose Bengal and Merocyanine 540-loaded radioluminescent nanoparticles

Anne Nsubuga; Gabrielle A Mandl; John A Capobianco

doi:10.1039/d0na00964d

Investigating the reactive oxygen species production of Rose Bengal and Merocyanine 540-loaded radioluminescent nanoparticles

Nanoscale Adv. 2021 Feb 17;3(5):1375-1381. doi: 10.1039/d0na00964d. eCollection 2021 Mar 9.

Authors

Anne Nsubuga¹, Gabrielle A Mandl¹, John A Capobianco¹

Affiliation

¹ Department of Chemistry and Biochemistry, Centre for NanoScience Research, Concordia University 7141 Rue Sherbrooke Ouest Montreal QC H4B 1R6 Canada John.capobianco@concordia.ca.

Abstract

Radioluminescent nanomaterials have garnered significant attention in the past decade due to their potential to perform X-ray mediated photodynamic therapy (X-PDT). Many of these materials are assumed to produce singlet oxygen based on a single assay. Herein we demonstrate that multiple assays are required to confidently determine whether singlet oxygen or other reactive oxygen species are being produced through type I or type II PDT mechanisms. Rose Bengal and Merocyanine 540 photosensitizers were loaded into mesoporous silica-coated NaLuF₄:Dy³⁺,Gd³⁺ nanoparticles and the combination of ABDA, DPBF, and NaN₃ assays along with electron paramagnetic resonance were employed to determine that superoxide and hydroxyl radicals were exclusively produced from this system under X-ray excitation. Knowledge of the correct PDT mechanism is crucial for informing what types of disease may be best suited for treatment using PDT nanosystems.