RESUMEN
Aims: Considering the need to identify new compounds with antifungal action, the activity of five 3-phenacylideneoxindoles compounds was evaluated. Materials & methods: The compounds were synthesized, and their antifungal activity was elucidated through minimum inhibitory concentration tests and interaction assay with other antifungals. Potential targets of compounds were predicted in silico. Results: 3-phenacylideneoxindoles compounds inhibited fungal growth with minimum inhibitory concentration and minimum fungicidal concentration ranging from 3.05 to 12.26 µM. The compounds demonstrated high selectivity index and presented a synergistic effect with itraconazole. In silico prediction revealed the pentafunctional AROM polypeptide, enolase, superoxide dismutase, catalase and kinases as proteins targets of the compound 4a. Conclusion: The results demonstrate that 3-phenacylideneoxindoles is a potential new class of antifungal compounds for paracoccidioidomycosis treatment.
Patients affected by paracoccidioidomycosis (PCM) require long-term treatment, which commonly influences their adherence. In addition, only three drugs are in clinical use, which indicates the relevance of research in identifying new drugs for treating PCM. Thus, five drugs were tested in the laboratory to verify whether they could prevent the growth of the fungus without being toxic to humans. In addition, whether these compounds in combination with drugs used to treat PCM could be even more potent was evaluated. All compounds tested efficiently inhibited the growth of Paracoccidioides, the fungus that causes PCM. One drug was identified that, combined with itraconazole, decreased the required dose of both the discovered compound and itraconazole needed to inhibit fungal growth. Using computational tools, this work suggests how the new drug could act against the fungus. The results demonstrate a potential new treatment option, but more studies are needed to confirm the safety of these drugs.