Photodynamic action of a water-soluble hypocrellin derivative with enhanced absorptivity in the phototherapeutic window II. Photosensitized generation of active oxygen species

Abstract

Cysteine-substituted hypocrellin B (Cys-HB) is a water-soluble perylenequinonoid derivative with significantly enhanced absorptivity in the range of wavelength longer than 600 nm. Electron paramagnetic resonance (EPR) measurements, quenching experiments and 9,10-diphenyl-anthracene bleaching studies were used to investigate the photodynamic action of Cys-HB in the presence of oxygen. Illumination of Cys-HB solution, in the presence of oxygen, generated singlet oxygen, superoxide anion radical, hydroxyl radical and hydrogen peroxide. The accumulation of active oxygen species was transformed into that of the semiquinone anion radical with the depletion of oxygen, detected by the spin counteraction of TEMPO radical formed via the reaction of TEMP with singlet oxygen produced by Cys-HB photosensitization. Oxygen content, Cys-HB concentration and reaction environment affected the transformation and the competition between the Type I and Type II reactions. Compared with hypocrellin B (HB), Cys-HB primarily remained similar and slightly lower capability of active oxygen-generation, confirmed to be a favorable phototherapeutic agent.