Programa de Pós-graduação em Genética e Biologia Molecular
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Navegando Programa de Pós-graduação em Genética e Biologia Molecular por Assunto "Antifungal"
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Item Efeitos de argentilactona sobre o perfil transcricional, parede celular e estresse oxidativo de Paracoccidioides spp(Universidade Federal de Goiás, 2014-06-02) Araújo, Felipe Souto; Pereira, Maristela; http://lattes.cnpq.br/1345781867765758; Pereira, Maristela; Schrank, Augusto; Cravo, Pedro Vitor Lemos; Soares, Célia Maria de Almeida; Rocha, Juliana ParenteParacoccidioides spp, dimorphic pathogenic fungi, is the etiologic agent of paracoccidioidomycosis (PCM). PCM is an endemic disease that affects at least 10 million people in Latin America, causing severe public health problem. The drugs used against pathogenic fungi have various side effects and have limited efficacy, therefore there is an inevitable and urgent medical needing for the development of new antifungal drugs. In the present study, we evaluated the transcriptional profile of Paracoccidioides spp exposed to argentilactone, a constituent of the essential oil of Hyptis ovalifolia. A total of 1,058 genes were identified, of which 208 were up-regulated and 850 down-regulated. The cell rescue, defense and virulence, with a total of 26 genes, was a functional category with a large number of genes induced, among them, heat shock protein 90 (hsp 90), cytochrome c peroxidase (ccp), hemoglobin ligant RBT5 (rbt5) and superoxide dismutase (sod). Quantitative real-time PCR revealed an increase in the expression level of all those genes. Enzymatic assay showed a significant increase in SOD activity. The reduced growth of Pbhsp90-aRNA, Pbccp-aRNA, Pbsod-aRNA, Pbrbt5-aRNA isolates in the presence of argentilactone indicates the importance of these genes in Paracoccidioides spp responding to argentilacone. Paracoccidioides spp cell wall was also evaluated. The results showed that argentilactone causes a decrease in the levels of polymers of the cell wall. These results suggest that argentilactone is a potential candidate for antifungal therapy.Item Identificação proteômica de alterações metabólicas em Paracoccidioides brasiliensis induzidas por derivado de chalcona(Universidade Federal de Goiás, 2021-09-30) Carvalho Júnior, Marcos Antonio Batista de; Silva, Kleber Santiago Freitas e; http://lattes.cnpq.br/3813868830071259; Pereira, Maristela; http://lattes.cnpq.br/1345781867765758; Pereira, Maristela; Curcio, Juliana Santana de; Soares, Célia Maria de AlmeidaParacoccidioidomycosis is one of the most important systemic mycoses in Latin America. The infection occurs through the inhalation of fungal propagules belonging to Paracoccidioides genus that are present in soils, being largely associated with the contamination of rural workers, who are constantly exposed to this potentially contaminated material. Even more than a century after its discovery, the treatment of this infection with the currently available antifungal arsenal still represents a challenge, due to the long treatment time required, as well as the high toxicity of the drugs used. These questions highlight the need for research to develop and characterize new compounds with the potential to inhibit the growth of these microorganisms. In this sense, a class of molecules called chalcones has shown great versatility for demonstrating broad biological properties, including antifungal activity among them. Through a virtual screening methodology, a chalcone derivative named compound 3 was identified by our group as a promising inhibitor of Paracoccidioides spp. Thus, in order to understand the mode of action of compound 3, we applied a proteomic approach to identify the induced and repressed proteins of P. brasiliensis in the presence of compound 3. In addition, validation assays were performed on the results found. The analysis indicated that the compound can cause an imbalance in the fungal energy homeostasis by reducing the activity of the glycolytic pathway, beta-oxidation and citric acid cycle. In vitro validations also demonstrated that reactive oxygen species accumulate within the cells during exposure to compound 3, which can destabilize cellular components such as the plasma membrane. The molecular docking assay between compound 3 and the enzyme dihydropteroate synthase, which had its expression induced after the treatment, suggest that compound 3 may act as an inhibitor of this protein, impairing the folate biosynthesis that participates as a cofactor in synthesis of nucleotides and some amino acids. Therefore, these data support the efficiency of compound 3 in producing imbalances in key pathways for the P. brasiliensis' metabolic maintenance, contributing to its antifungal role.