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Arita GS, Ma Q, Leaves I, Pradhan A, Hickey E, Dambuza I, Bebes A, Vincenzi Conrado PC, Barros Galinari C, Vicente Seixas FA, Kioshima ÉS, de Souza Bonfim-Mendonça P, Svidzinski TIE, Brown AJP. The impact of ORF19.36.1 in the pathobiology of Candida albicans. Microb Pathog 2023; 185:106437. [PMID: 37913825 DOI: 10.1016/j.micpath.2023.106437] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/12/2023] [Revised: 10/26/2023] [Accepted: 10/29/2023] [Indexed: 11/03/2023]
Abstract
BACKGROUND Our previous proteomics data obtained from Candida albicans recovered after serial passage in a murine model of systemic infection revealed that Orf19.36.1 expression correlates with the virulence of the fungus. Therefore, the impact of ORF19.36.1 upon virulence was tested in this study. MATERIALS & METHODS CRISPR-Cas9 technology was used to construct homozygous C. albicans orf19.36.1 null mutants and the phenotypes of these mutants examined in vitro (filamentation, invasion, adhesion, biofilm formation, hydrolase activities) and in vivo assays. RESULTS The deletion of ORF19.36.1 did not significantly impact the phenotypes examined or the virulence of C. albicans in two infection models. CONCLUSION These results suggest that, although Orf19.36.1 expression correlates with virulence, this protein is not essential for C. albicans pathobiology.
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Affiliation(s)
- Glaucia Sayuri Arita
- Department of Clinical Analysis and Biomedicine, Laboratory of Medical Mycology, State University of Maringa, T20 Building, Room 203, Colombo Avenue, 5790 - Zone 7, Maringá, PR, 87020-900, Brazil
| | - Qinxi Ma
- Medical Research Council Centre for Medical Mycology, University of Exeter, Geoffrey Pope Building, Stocker Road, Exeter, EX4 4QD, UK
| | - Ian Leaves
- Medical Research Council Centre for Medical Mycology, University of Exeter, Geoffrey Pope Building, Stocker Road, Exeter, EX4 4QD, UK
| | - Arnab Pradhan
- Medical Research Council Centre for Medical Mycology, University of Exeter, Geoffrey Pope Building, Stocker Road, Exeter, EX4 4QD, UK
| | - Emer Hickey
- Medical Research Council Centre for Medical Mycology, University of Exeter, Geoffrey Pope Building, Stocker Road, Exeter, EX4 4QD, UK
| | - Ivy Dambuza
- Medical Research Council Centre for Medical Mycology, University of Exeter, Geoffrey Pope Building, Stocker Road, Exeter, EX4 4QD, UK
| | - Attila Bebes
- Centre for Cytomics, University of Exeter, Geoffrey Pope Building, Stocker Road, Exeter, EX4 4QD, UK
| | - Pollyanna Cristina Vincenzi Conrado
- Department of Clinical Analysis and Biomedicine, Laboratory of Medical Mycology, State University of Maringa, T20 Building, Room 203, Colombo Avenue, 5790 - Zone 7, Maringá, PR, 87020-900, Brazil
| | - Camila Barros Galinari
- Department of Clinical Analysis and Biomedicine, Laboratory of Medical Mycology, State University of Maringa, T20 Building, Room 203, Colombo Avenue, 5790 - Zone 7, Maringá, PR, 87020-900, Brazil
| | - Flávio Augusto Vicente Seixas
- Department of Technology, State University of Maringa, Ângelo Moreira da Fonseca Avenue, 1800 - Danielle Park, Umuarama, PR, 87506-370, Brazil
| | - Érika Seki Kioshima
- Department of Clinical Analysis and Biomedicine, Laboratory of Medical Mycology, State University of Maringa, T20 Building, Room 203, Colombo Avenue, 5790 - Zone 7, Maringá, PR, 87020-900, Brazil
| | - Patrícia de Souza Bonfim-Mendonça
- Department of Clinical Analysis and Biomedicine, Laboratory of Medical Mycology, State University of Maringa, T20 Building, Room 203, Colombo Avenue, 5790 - Zone 7, Maringá, PR, 87020-900, Brazil
| | - Terezinha Inez Estivalet Svidzinski
- Department of Clinical Analysis and Biomedicine, Laboratory of Medical Mycology, State University of Maringa, T20 Building, Room 203, Colombo Avenue, 5790 - Zone 7, Maringá, PR, 87020-900, Brazil.
| | - Alistair J P Brown
- Medical Research Council Centre for Medical Mycology, University of Exeter, Geoffrey Pope Building, Stocker Road, Exeter, EX4 4QD, UK
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Legabão BC, Galinari CB, Santos RSD, Bruschi ML, Gremião IDF, Boechat JS, Pereira SA, Malacarne LC, Caetano W, Bonfim-Mendonça PS, Svidzinski TIE. In vitro antifungal activity of curcumin mediated by photodynamic therapy on Sporothrix brasiliensis. Photodiagnosis Photodyn Ther 2023; 43:103659. [PMID: 37336466 DOI: 10.1016/j.pdpdt.2023.103659] [Citation(s) in RCA: 2] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/13/2023] [Revised: 06/06/2023] [Accepted: 06/16/2023] [Indexed: 06/21/2023]
Abstract
BACKGROUND Sporothrix brasiliensis is a pathogenic dimorphic fungus that affects humans and animals causing sporotrichosis. The treatment of this disease with conventional antifungals commonly results in therapeutic failures and resistance. Therefore, this study aimed to evaluate the in vitro effect of curcumin (CUR) mediated by photodynamic therapy (PDT) in its pure state and incorporated into pharmaceutical formulation in gel form, on the filamentous and yeast forms of S. brasiliensis. METHODS Cells from both forms of the fungus were treated with pure curcumin (PDT-CUR). For this, CUR concentrations ranging from 0.09 to 50 μM were incubated for 15 min and then irradiated with blue LED at 15 J/cm². Similarly, it was performed with PDT-CUR-gel, at lower concentration with fungistatic action. After, a qualitative and quantitative (colony forming units (CFU)) analysis of the results was performed. Additionally, reactive oxygen species (ROS) were detected by flow cytometry. Results PDT with 0.78 μM of CUR caused a significant reduction (p < 0.05) in cells of the filamentous and yeast form, 1.38 log10 and 1.18 log10, respectively, in comparison with the control. From the concentration of 1.56 μM of CUR, there was a total reduction in the number of CFU (≥ 3 log10). The PDT-CUR-gel, in relation to its base without CUR, presented a significant reduction (p < 0.05) of 0.83 log10 for the filamentous form and for the yeast form, 0.72 log10. ROS release was detected after the PDT-CUR assay, showing that this may be an important pathway of death caused by photoinactivation. Conclusion PDT-CUR has an important in vitro antifungal action against S. brasiliensis strains in both morphologies.
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Affiliation(s)
- Bárbara Cipulo Legabão
- Graduate Student (Master's), Biosciences and Pathophysiology Program, State University of Maringá, Maringá, Brazil
| | - Camila Barros Galinari
- Postgraduate student (PhD), Biosciences and Pathophysiology Program, State University of Maringá, Maringá, Brazil
| | - Rafaela Said Dos Santos
- Postgraduate student (PhD), R & D Laboratory of Drug Distribution Systems, Department of Pharmacy, State University of Maringá, Maringá, Brazil
| | - Marcos Luciano Bruschi
- Professor, Drug Distribution Systems R&D Laboratory, Department of Pharmacy, State University of Maringá, Maringá, Brazil
| | - Isabella Dib Ferreira Gremião
- Laboratory of clinical Research Dermatozoonoses in Domestic Animals, Evandro Chagas National Institute of Infectious Diseases, Oswaldo Cruz Foundation. Av. Brasil, 4365 - Manguinhos, Rio de Janeiro 21040-900, Brazil
| | - Jéssica Sepúlveda Boechat
- Laboratory of clinical Research Dermatozoonoses in Domestic Animals, Evandro Chagas National Institute of Infectious Diseases, Oswaldo Cruz Foundation. Av. Brasil, 4365 - Manguinhos, Rio de Janeiro 21040-900, Brazil
| | - Sandro Antônio Pereira
- Laboratory of clinical Research Dermatozoonoses in Domestic Animals, Evandro Chagas National Institute of Infectious Diseases, Oswaldo Cruz Foundation. Av. Brasil, 4365 - Manguinhos, Rio de Janeiro 21040-900, Brazil
| | | | - Wilker Caetano
- Professor, Department of Chemistry, State University of Maringá, Maringá, Brazil
| | - Patrícia S Bonfim-Mendonça
- Professor, Department of Clinical Analysis and Biomedicine, State University of Maringá, Av. Colombo 5790, block T20 room 203, Maringá CEP: 87020-900, Brazil
| | - Terezinha I E Svidzinski
- Professor, Department of Clinical Analysis and Biomedicine, State University of Maringá, Av. Colombo 5790, block T20 room 203, Maringá CEP: 87020-900, Brazil.
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Galinari CB, Biachi TDP, Gonçalves RS, Cesar GB, Bergmann EV, Malacarne LC, Kioshima Cotica ÉS, Bonfim-Mendonça PDS, Svidzinski TIE. Photoactivity of hypericin: from natural product to antifungal application. Crit Rev Microbiol 2023; 49:38-56. [PMID: 35171731 DOI: 10.1080/1040841x.2022.2036100] [Citation(s) in RCA: 2] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 02/01/2023]
Abstract
Considering the multifaceted and increasing application of photodynamic therapy (PDT), in recent years the antimicrobial employment of this therapy has been highlighted, because of the antiviral, antibacterial, antiparasitic, and antifungal activities that have already been demonstrated. In this context, research focussed on antimycological action, especially for treatment of superficial infections, presents promising growth due to the characteristics of these infections that facilitate PDT application as new therapeutic options are needed in the field of medical mycology. Among the more than one hundred classes of photosensitizers the antifungal action of hypericin (Hyp) stands out due to its ability to permeate the lipid membrane and accumulate in different cytoplasmic organelles of eukaryotic cells. In this review, we aim to provide a complete overview of the origin, physicochemical characteristics, and optimal alternative drug deliveries that promote the photodynamic action of Hyp (Hyp-PDT) against fungi. Furthermore, considering the lack of a methodological consensus, we intend to compile the best strategies to guide researchers in the antifungal application of Hyp-PDT. Overall, this review provides a future perspective of new studies and clinical possibilities for the advances of such a technique in the treatment of mycoses in humans.
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Affiliation(s)
- Camila Barros Galinari
- Department of Analysis Clinics & Biomedicine, State University of Maringá, Paraná, Brazil
| | - Tiago de Paula Biachi
- Department of Analysis Clinics & Biomedicine, State University of Maringá, Paraná, Brazil
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Galinari CB, Conrado PCV, Arita GS, Mosca VAB, Melo RC, Bianchi TDP, Faria DR, Sakita KM, Malacarne LC, Gonçalves RS, Pereira PCDS, Cesar GB, Caetano W, de Souza M, da Silva Palácios R, Baesso ML, Svidzinski TIE, Cotica ÉSK, Bonfim-Mendonça PDS. Nanoencapsulated hypericin in P-123 associated with photodynamic therapy for the treatment of dermatophytosis. J Photochem Photobiol B 2020; 215:112103. [PMID: 33383558 DOI: 10.1016/j.jphotobiol.2020.112103] [Citation(s) in RCA: 4] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 08/25/2020] [Revised: 12/08/2020] [Accepted: 12/11/2020] [Indexed: 12/26/2022]
Abstract
The antifungal application of photodynamic therapy (PDT) has been widely explored. According to superficial nature of tinea capitis and the facility of application of light sources, the use of nanoencapsulated hypericin in P-123 associated with PDT (P123-Hy-PDT) has been a poweful tool to treat this pathology. Thus, the aim of this study was to evaluate the efficiency of P123-Hy-PDT against planktonic cells and in a murine model of dermatophytosis caused by Microsporum canis. In vitro antifungal susceptibility and in vivo efficiency tests were performed, including a skin toxicity assay, analysis of clinical signs by evaluating score, and photoacoustic spectroscopy. In addition, tissue analyses by histopathology and levels of pro-inflammatory cytokines, such as quantitative and qualitative antifungal assays, were employed. The in vitro assays demonstrated antifungal susceptibility with 6.25 and 12.5 μmol/L P123-Hy-PDI; these experiments are the first that have used this treatment of animals. P123-Hyp-mediated PDT showed neither skin nor biochemical alteration in vivo; it was safe for dermatophytosis treatment. Additionally, the treatment revealed rapid improvement in clinical signs at the site of infection after only three treatment sessions, with a clinical score confirmed by photoacoustic spectroscopy. The mycological reduction occurred after six treatment sessions, with a statistically significant decrease compared with untreated infected animals. These findings showed that P123-Hy-PDT restored tissue damage caused by infection, a phenomenon confirmed by histopathological analysis and proinflammatory cytokine levels. Our results reveal for the first time that P123-Hy-PDT is a promising treatment for tinea capitis and tinea corporis caused by M. canis, because it showed rapid clinical improvement and mycological reduction without causing toxicity.
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Affiliation(s)
- Camila Barros Galinari
- Department of Analysis Clinics & Biomedicine, State University of Maringá, Paraná, Brazil
| | | | - Glaucia Sayuri Arita
- Department of Analysis Clinics & Biomedicine, State University of Maringá, Paraná, Brazil
| | | | - Raquel Cabral Melo
- Department of Analysis Clinics & Biomedicine, State University of Maringá, Paraná, Brazil
| | - Tiago de Paula Bianchi
- Department of Analysis Clinics & Biomedicine, State University of Maringá, Paraná, Brazil
| | - Daniella Renata Faria
- Department of Analysis Clinics & Biomedicine, State University of Maringá, Paraná, Brazil
| | - Karina Mayumi Sakita
- Department of Analysis Clinics & Biomedicine, State University of Maringá, Paraná, Brazil
| | | | | | | | | | - Wilker Caetano
- Department of Chemistry, State University of Maringá, Paraná, Brazil
| | - Monique de Souza
- Department of Physics, State University of Maringá, Paraná, Brazil
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