The Bovhyaluronidase Azoximer Disrupts ICandida albicans/I and ICandida albicans/I-Bacterial Mixed Biofilms and Increases the Efficacy of Antifungals

Background and Objectives: Candida albicans causes various diseases ranging from superficial mycoses to life-threatening systemic infections often associated with biofilm formation, including mixed fungal–bacterial consortia. The biofilm matrix protects cells, making Candida extremely resistant to t...

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Published in:Medicina (Kaunas, Lithuania) Vol. 58; no. 12
Main Authors: Gatina, Alina, Trizna, Elena, Kolesnikova, Alena, Baidamshina, Diana, Gorshkova, Anna, Drucker, Valentin, Bogachev, Mikhail, Kayumov, Airat
Format: Journal Article
Language:English
Published: MDPI AG 01-11-2022
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Summary:Background and Objectives: Candida albicans causes various diseases ranging from superficial mycoses to life-threatening systemic infections often associated with biofilm formation, including mixed fungal–bacterial consortia. The biofilm matrix protects cells, making Candida extremely resistant to treatment. Here, we show that the bovhyaluronidase azoximer (Longidaza[sup.®] ) in vitro destroys the biofilm formed by either C. albicans alone or mixed with bacteria, this way decreasing the concentrations of antimicrobials required for the pathogen’s eradication. Materials and Methods: Bovhyaluronidase azoximer, Longidaza® was obtained from NPO Petrovax Pharm Ltd., Moscow, Russia as lyophilized powder. The antifungal activity was assessed by microdilution assay and CFUs counting. Antibiofilm activity was evaluated via biofilms staining and scanning electron microscopy. Results: Thus, treatment with Longidaza[sup.®] reduced the biofilm biomass of nine C. albicans clinical isolates by 30–60%, while mixed biofilms of C. albicans with various bacteria were destroyed by 30–40%. Furthermore, the concentration of fluconazole required to achieve a similar reduction of the residual respiratory activity of detached cell clumps of four C. albicans isolates has been reduced four-fold when combined with Longidaza[sup.®] . While in the biofilm, two of four isolates became significantly more susceptible to fluconazole in combination with Longidaza[sup.®] . Conclusion: Taken together, our data indicate that Longidaza[sup.®] is capable of suppression of tissues and artificial surfaces biofouling by C. albicans biofilms, as well as facilitating drug penetration into the cell clumps, this way decreasing the effective MIC of antifungals.
ISSN:1648-9144
DOI:10.3390/medicina58121710