Abstract

Opportunistic fungal pathogens may cause superficial or serious invasive infections, especially in immunocompromised and debilitated patients. Invasive mycoses represent an exponentially growing threat for human health due to a combination of slow diagnosis and the existence of relatively few classes of available and effective antifungal drugs. Therefore systemic fungal infections result in high attributable mortality. There is an urgent need to pursue and deploy novel and effective alternative antifungal countermeasures. Photodynamic therapy (PDT) was established as a successful modality for malignancies and age-related macular degeneration but photodynamic inactivation has only recently been intensively investigated as an alternative antimicrobial discovery and development platform. The concept of photodynamic inactivation requires microbial exposure to either exogenous or endogenous photosensitizer molecules, followed by visible light energy, typically wavelengths in the red/near infrared region that cause the excitation of the photosensitizers resulting in the production of singlet oxygen and other reactive oxygen species that react with intracellular components, and consequently produce cell inactivation and death. Antifungal PDT is an area of increasing interest, as research is advancing (i) to identify the photochemical and photophysical mechanisms involved in photoinactivation; (ii) to develop potent and clinically compatible photosensitizers; (iii) to understand how photoinactivation is affected by key microbial phenotypic elements multidrug resistance and efflux, virulence and pathogenesis determinants, and formation of biofilms; (iv) to explore novel photosensitizer delivery platforms; and (v) to identify photoinactivation applications beyond the clinical setting such as environmental disinfectants.

Highlights

  • FUNGAL INFECTIONS AND COUNTERMEASURES Fungi are common causative agents of diseases in both the immune competent as well as the immune compromised patientAbbreviations: ABC, ATP binding cassette; ALA, 5-aminolevulinic acid; antimicrobial PDI (APDI), antimicrobial photodynamic inactivation; BCVA, best-corrected visual acuity; BSI, blood stream infections; CDR1, Candida drug resistance 1; colony forming units (CFU), colony forming unit; CMD, choroidal major diameter; CNV, choroidal neovascularization; efflux pump inhibitors (EPIs), efflux pump inhibitor; ETC, electron transport chain; EtNBSe, selenium analog of benzophenothiazinium salt; HOMO, highest occupied molecular orbital; IA, invasive aspergillosis; IC, invasive candidiasis; IL-1, interleukin-1; lowest unoccupied molecular orbital (LUMO), lowest occupied molecular orbital; MAL, methyl 5-aminolevulinic acid; MB, methylene blue; MDR1, multidrug resistance 1; MFS, major facilitator superfamily; minimally inhibitory concentrations (MICs), minimal inhibitory concentration; NMB, new methylene blue; PDI, populations

  • Fungal diseases are endemic in certain parts of the world and include blastomycosis, chromoblastomycosis, coccidioidomycosis, histoplasmosis, paracoccidioidomycosis, penicilliosis, or pandemic including invasive aspergillosis (IA), invasive candidiasis (IC), cryptococcosis, dermatophytosis, fusariosis, and mucormycosis

  • The results suggest inhibition of the growth of C. dubliniensis after being irradiated with a 685-nm diode laser irradiation alone or crude extracts at 25 mg/ml did not significantly reduce the number of colony forming units (CFU) per milliliter

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Summary

INTRODUCTION

Photodynamic inactivation; PDR, pleiotropic drug resistance; PDT, photodynamic therapy; PEI-ce, polyethyleneimine-chlorin(e6); PMMA, poly-methyl methacrylate; PS, Photosensitizer; RB, rose bengal; RD, respiratory deficiency; RND, resistant nodulation (cell) division; RNS, reactive nitrogen species; ROS, reactive oxygen species; SOR1, singlet oxygen resistance 1; TBO, toluidine blue

Antifungal photodynamic therapy
Findings
Visible light

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