Photodynamic inactivation of different Candida species and inhibition of biofilm formation induced by water-soluble porphyrins

• Published in: Photodiagnosis and photodynamic therapy Vol. 42; p. 103343
• Main Authors: Amorim, Carolina Ferreira, Iglesias, Bernardo Almeida, Pinheiro, Ticiane Rosa, Lacerda, Luiz Eduardo, Sokolonski, Ana Rita, Pedreira, Beatriz Oliveira, Moreira, Kelly Schneider, Burgo, Thiago Augusto Lima, Meyer, Roberto, Azevedo, Vasco, Portela, Ricardo Wagner
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.06.2023
• Subjects: Biofilm; Candidiasis; Microbial resistance; Photodynamic antimicrobial therapy; Biofilm; Candidiasis; Microbial resistance; Photodynamic antimicrobial therapy
• ISSN: 1572-1000; 1873-1597
• DOI: 10.1016/j.pdpdt.2023.103343

•The tetra-cationic porphyrins totally inactivated and killed Candida spp.•The cationic porphyrins interfered with Candida spp. biofilm formation.•3-H2TMeP+ decreased the adhesion force of Candida parapsilosis. Background: Candida spp. is the main fungal genus related to infections in humans, and its treatment has become a challenge due to the production of biofilm and its resistance/multi-resistance profile to conventional antifungals. Antimicrobial photodynamic therapy stands out as a treatment characterized by a broad spectrum of antimicrobial action, being able to induce oxidative stress in pathogens, and porphyrins are photosensitizers with high selectivity to pathogens. Thus, this work aimed to analyze the photoinactivation of different species of Candida by two cationic (4-H2TMeP+ and 3-H2TMeP+) and one anionic (4-H2TPSP‒) porphyrins. Materials and Methods: Microdilution assays were performed to determine the MIC100, with subsequent determination of MFC100. Determination of oxidative species was done through the use of scavengers, while biofilm morphological features were investigated using the atomic force microscopy. Results: Cationic porphyrins were significantly efficient in inactivating Candida albicans and non-albicans species with 100% growth inhibition and fungicidal activity (MFC100/MIC100 ≤ 4.0). The cationic porphyrins were also able to interfere in Candida spp biofilm formation. The photo-oxidative mechanism activated by 3-H2TMeP+ in Candida spp. is concurrent with the production of singlet oxygen and oxygen radical species. In the AFM analysis, 3-H2TMeP+ was able to reduce yeast adhesion to the surface. Conclusions: Cationic porphyrins can photo-inactivate different species of Candida in both planktonic and biofilm-associated forms, and reduce the adhesion of these fungi to the surface. [Display omitted]