Antimicrobial potential of a biosurfactant gel for the prevention of mixed biofilms formed by fluconazole-resistant C. albicans and methicillin-resistant S. aureus in catheters.

Dual-species biofilms formed by Candida albicans and Staphylococcus aureus have high virulence and drug resistance. In this context, biosurfactants produced by Pseudomonas aeruginosa have been widely studied, of which a new derivative (RLmix_Arg) stands out for possible application in formulations. The objective of this study was to evaluate the antibiofilm activity of RLmix_Arg, both alone and incorporated in a gel prepared with Pluronic F-127, against dual-species biofilms of fluconazole-resistant C. albicans (FRCA) and methicillin-resistant S. aureus (MRSA) in impregnated catheters. Broth microdilution tests, MTT reduction assays of mature biofilms, impregnation of RLmix_Arg and its gel in peripheral venous catheters, durability tests and scanning electron microscopy (SEM) were performed. RLmix_Arg showed antimicrobial activity against Candida spp. and S. aureus, by reducing the cell viability of mixed biofilms of FRCA and MRSA, and preventing their formation in a peripheral venous catheter. The incorporation of this biosurfactant in the Pluronic F-127 gel considerably enhanced its antibiofilm activity. Thus, RLmix_Arg has potential application in gels for impregnation in peripheral venous catheters, helping to prevent development of dual-species biofilms of FRCA and MRSA.

Analysis of possible pathways on the mechanism of action of minocycline and doxycycline against strains of Candida spp. resistant to fluconazole.

Species of the genus Candida, characterized as commensals of the human microbiota, are opportunistic pathogens capable of generating various types of infections with high associated costs. Considering the limited pharmacological arsenal and the emergence of antifungal-resistant strains, the repositioning of drugs is a strategy used to search for new therapeutic alternatives, in which minocycline and doxycycline have been evaluated as potential candidates. Thus, the objective was to evaluate the in vitro antifungal activity of two tetracyclines, minocycline and doxycycline, and their possible mechanism of action against fluconazole-resistant strains of Candida spp. The sensitivity test for antimicrobials was performed using the broth microdilution technique, and the pharmacological interaction with fluconazole was also analysed using the checkerboard method. To analyse the possible mechanisms of action, flow cytometry assays were performed. The minimum inhibitory concentration obtained was 4-427 µg ml-1 for minocycline and 128-512 µg ml-1 for doxycycline, and mostly indifferent and additive interactions with fluconazole were observed. These tetracyclines were found to promote cellular alterations that generated death by apoptosis, with concentration-dependent reactive oxygen species production and reduced cell viability. Therefore, minocycline and doxycycline present themselves as promising study molecules against Candida spp.

Sertraline has in vitro activity against both mature and forming biofilms of different Candida species.

Candida spp. infections are a serious health problem, especially in patients with risk factors. The acquisition of resistance, often associated with biofilm production, makes treatment more difficult due to the reduced effectiveness of available antifungals. Drug repurposing is a good alternative for the treatment of infections by Candida spp. biofilms. The present study evaluated the in vitro antibiofilm activity of sertraline in reducing the cell viability of forming and matured biofilms, in addition to elucidating whether effective concentrations are safe. Sertraline reduced biofilm cell viability by more than 80 % for all Candida species tested, acting at low and safe concentrations, both on mature biofilm and in preventing its formation, even the one with highest virulence. Its preventive mechanism seemed to be related to binding with ALS3. These data indicate that sertraline is a promising drug with anticandidal biofilm potential in safe doses. However, further studies are needed to elucidate the antibiofilm mechanism and possible application of pharmaceutical forms.

Antimicrobial activity of selective serotonin reuptake inhibitors in bacteria and fungi: a systematic review / Atividade antimicrobiana de inibidores seletivos de recaptação de serotonina em bactérias e fungos: uma revisão sistemática

Objective: this systematic review aims to compile literature data on the antimicrobial action of Selective Serotonin Reuptake Inhibitors (SSRI). Methods: To this end, the articles in this review were searched in the PubMed database between the years 2010 to 2020, using terms found in MESH as descriptors. The PRISMA flow diagram was used to analyze the process flow of the research. Later, inclusion and exclusion criteria and eligibility for data extraction and statistical analysis were applied. Results: Thus, of 252 articles found, 13 were used for this systematic review. The period in which there were more publications was in 2016-2017. All articles demonstrated the antimicrobial activity of ISRS, such as sertraline, fluoxetine, and paroxetine, in addition to their synergistic activity with some antifungals and antibacterial. Conclusion: With this, it could be concluded that the repositioning of non-antibiotic drugs that have antimicrobial activity is a promising alternative for the scientific community and, in the future, in clinical practice

Objetivo: compilar dados da literatura sobre a ação antimicrobiana dos Inibidores Seletivos de Recaptação de Serotonina (ISRS). Métodos: os artigos desta revisão foram pesquisados na base de dados PubMed, entre os anos de 2010 a 2020, utilizando, como descritores, termos encontrados no MESH. O fluxograma PRISMA foi utilizado para analisar o fluxo do processo da pesquisa. Posteriormente, foram aplicados os critérios de inclusão e exclusão e de elegibilidade para extração de dados e análise estatística. Resultados: dos 252 artigos encontrados, 13 foram utilizados para esta revisão sistemática. O período em que houve mais publicações foi em 2016-2017. Todos os artigos demonstraram a atividade antimicrobiana do ISRS, como sertralina, fluoxetina e paroxetina, além de sua atividade sinérgica com alguns antifúngicos e antibacterianos. Conclusão: o reposicionamento de medicamentos não antibióticos que possuam atividade antimicrobiana é uma alternativa promissora para a comunidade científica e, futuramente, na prática clínica.

Mutagenic Evaluation of Fluoxetine and Fluoxetine-Galactomannan Complex Through the Analysis of Chromosomal Aberrations in Human Peripheral Leukocytes and Salmonella typhimurium/Microssome Assay / Avaliação Mutagênica de Fluoxetina e Complexo Fluoxetina-Galactomanana Através da Análise de Aberrações Cromossômicas em Leucócitos Periféricos Humanos e em Salmonella typhimurium / Ensaio Microssômico

Objectives: The purpose of this study was to evaluate the mutagenic potential of fluoxetine and fluoxetine-galactomannan. Methods: Chromosomal aberration test and Salmonella typhimurium/microsome mutagenicity assay. Results: The results showed that fluoxetine (250 µg/mL) can cause chromosomal breaks of treated leukocytes and increase the frequency of reversion of the tester strains of S. typhimurium / microsome assay only at the highest concentration (5 mg/mL), while fluoxetine encapsulated in galactomannan did not cause these changes (leukocytes and S. typhimuriums strains). Conclusion: In summary, fluoxetine showed a mutagenic effect detectable only at high concentrations in both eukaryotic and prokaryotic models. Furthermore, the fluoxetine/galactomannan complex, in this first moment, prevented the mutagenicity attributed to fluoxetine, emphasizing that the present encapsulation process can be an alternative in preventing these effects in vitro.

Objetivos: avaliar o potencial mutagênico da fluoxetina e da fluoxetina-galactomanana. Métodos: Teste de aberração cromossômica e ensaio de mutagenicidade de Salmonella typhimurium /microssoma. Resultados: a fluoxetina (250 µg/mL) pode causar quebras cromossômicas de leucócitos tratados e aumentar a frequência de reversão das cepas testadoras de S. typhimurium /microssoma apenas na concentração mais alta (5 mg/mL), enquanto a fluoxetina encapsulada em galactomanano não causou essas alterações (leucócitos e cepas de S. typhimurium). Conclusão: a fluoxetina mostrou um efeito mutagênico detectável apenas em altas concentrações em modelos eucarióticos e procarióticos. Além disso, o complexo fluoxetina/galactomanan, neste primeiro momento, evitou a mutagenicidade atribuída à fluoxetina, ressaltando que o presente processo de encapsulamento pode ser uma alternativa na prevenção desses efeitos in vitro.

Avaliação da interação farmacológica de antifúngicos e quimioterápicos: uma revisão sistemática / Evaluation of pharmacological interaction of antifungals and chemotherapy: a systematic review

Objetivo: avaliar, por meio da literatura existente, a interação farmacológica de antifúngicos e quimioterápicos. Métodos: foi realizado um estudo de revisão sistemática de acordo com o diagrama de fluxo do processo de pesquisa PRISMA. Os descritores escolhidos foram: drug interactions, CYP inhibitors, antifungal e antineoplastic, mediante análise realizada no MESH. As bases de dados escolhidas foram: Pubmed, Lilacs e Scielo. O período considerado para busca de artigos publicados foi de 2015 a 2020. Resultados: no banco de dados PubMed, foram encontrados 54 artigos, enquanto, nas bases Lilacs e Scielo, não foram encontrados artigos de acordo com os critérios estabelecidos. Dos 54 artigos, 7 foram selecionados para esta revisão. O intervalo com maior número de publicações foi de 2015-2016. Os antifúngicos mais citados nos resultados foram os inibidores fortes da CYP (Cetoconazol, Itraconazol e Voriconazol). Conclusão: a revisão sistemática da literatura mostrou que não existe uma correlação exata entre a interação farmacológica dos antifúngicos com os antineoplásicos, quando administrados de forma simultânea. São necessários mais estudos atuais que possam monitorar e estabelecer, de forma precisa, a relação dessas interações.

Objective: to evaluate, through the existing literature, the pharmacological interaction of antifungals and chemotherapeutics. Methods: a systematic review study was conducted according to the PRISMA research process flow diagram. The descriptors were chosen by analysis performed in MESH. The descriptors chosen were: drug interactions, CYP inhibitors, antifungal and antineoplastic. The databases chosen were: Pubmed, Lilacs, and Scielo. The period considered for the search of published articles was from 2015 to 2020. Results: in the PubMed database, 54 articles were found, while in the Lilacs and Scielo databases, no articles were found according to the established criteria. Of the 54 articles, 8 were selected for this review. The interval that had the highest number of publications was 2015-2016. The most cited antifungal drugs in the results were the strong CYP inhibitors. Conclusion: the systematic review of the literature showed that there is no exact correlation between the pharmacological interaction of antifungals with antineoplastic drugs when administered simultaneously. More current studies are needed that can accurately monitor and establish the relationship between these interactions.

Study of the interactions of di- and tri-terpenes from Stillingia loranthacea with the enzyme NSP16-NSP10 of SARS-CoV-2 / Estudo das interações de di- e tri-terpenos de Stillingia loranthacea com a enzima NSP16-NSP10 de SARS-CoV-2

Objective: This study aimed to evaluate the interactions of di- and tri-terpenes from Stillingia loranthacea with the enzyme NSP16-NSP10 of SARS-CoV-2, important for viral replication. Methods: The molecular docking technique was used to evaluate this interaction. Results: The analysis showed that the evaluated compounds obtained RMSD values of 0.888 to 1.944 Å and free energy of -6.1 to -9.4 kcal/mol, with the observation of hydrogen bonds, salt bridges, and pi-sulfur, pi-alkyl, and hydrophobic interactions. Conclusion: Thus, the results obtained show the potential of the compounds analyzed against the selected target. Since computer simulations are only an initial step in projects for the development of antiviral drugs, this study provides important data for future research.

Objetivo: avaliar as interações de di- e tri-terpenos de Stillingia loranthacea com a enzima NSP16-NSP10 de SARS-CoV-2, importante para a replicação viral. Métodos: A técnica de docking molecular foi utilizada para avaliar essa interação. Resultados: A análise mostrou que os compostos avaliados obtiveram valores de RMSD de 0,888 a 1,944 Å e energia livre de -6,1 a -9,4 kcal/mol, observando-se ligações de hidrogênio, pontes salinas e pi-enxofre, pi-alquil, e interações hidrofóbicas. Conclusão: Assim, os resultados obtidos mostram o potencial dos compostos analisados frente ao alvo selecionado. Como as simulações computacionais são apenas um passo inicial nos projetos de desenvolvimento de medicamentos antivirais, este estudo fornece dados importantes para pesquisas futuras.

Virtual screening based on molecular docking of lysosomotropic compounds as therapeutic agents for COVID-19 / Triagem virtual baseada no encaixe molecular de compostos lisossomotrópicos como agentes terapêuticos para COVID-19

Objective: Analyze lysosomotropic agents and their action on COVID-19 targets using the molecular docking technique. Methods: Molecular docking analyses of these lysosomotropic agents were performed, namely of fluoxetine, imipramine, chloroquine, verapamil, tamoxifen, amitriptyline, and chlorpromazine against important targets for the pathogenesis of SARS-CoV-2. Results: The results revealed that the inhibitors bind to distinct regions of Mpro COVID-19, with variations in RMSD values from 1.325 to 1.962 Å and binding free energy of -5.2 to -4.3 kcal/mol. Furthermore, the analysis of the second target showed that all inhibitors bonded at the same site as the enzyme, and the interaction resulted in an RMSD variation of 0.735 to 1.562 Å and binding free energy ranging from -6.0 to -8.7 kcal/mol. Conclusion: Therefore, this study allows proposing the use of these lysosomotropic compounds. However, these computer simulations are just an initial step toward conceiving new projects for the development of antiviral molecules.

Objetivo: aAnalisar agentes lisossomotrópicos e sua ação em alvos de COVID-19 usando a técnica de docking molecular. Métodos: Foram realizadas análises de docagem molecular destes agentes lisossomotrópicos, nomeadamente de fluoxetina, imipramina, cloroquina, verapamil, tamoxifeno, amitriptilina e clorpromazina contra alvos importantes para a patogenia do SARS-CoV-2. Resultados: Os resultados revelaram que os inibidores se ligam a regiões distintas do Mpro COVID-19, com variações nos valores de RMSD de 1.325 a 1.962 Å e energia livre de ligação de -5,2 a -4,3 kcal/mol. Além disso, a análise do segundo alvo mostrou que todos os inibidores se ligaram no mesmo sítio da enzima, e a interação resultante em uma variação de RMSD de 0,735 a 1.562 Å e energia livre de ligação variando de -6,0 a -8,7 kcal/mol. Conclusão: Portanto, este estudo permite propor o uso desses compostos lisossomotrópicos. No entanto, essas simulações em computador são apenas um passo inicial para a concepção de novos projetos para o desenvolvimento de moléculas antivirais.

Evaluation of interactions of silibinin with the proteins ALS3 and SAP5 against Candida albicans / Avaliação das interações da silibinina com as proteínas ALS3 e SAP5 contra Candida albicans

Objective: to evaluate the molecular interaction of silibinin with the targets ALS3 and SAP5. Methodology: Molecular docking protocols were conducted to analyze the binding interaction of silibinin with ALS3 and SAP5. Results: Eleven interactions of ALS3 with silibinin and four with fluconazole were found, while six interactions were observed of SAP5 with silibinin and four with fluconazole. Conclusion: Molecular docking between silibinin and ALS3 identified important interactions, but no significant interactions were observed with SAP5, even though silibinin can exhibit affinity and interactions with other SAP5 sites.

Objetivo: Avaliar a interação molecular da silibinina com os alvos ALS3 e SAP5. Metodologia: Protocolos de docking molecular foram conduzidos para analisar a interação de ligação da silibinina com ALS3 e SAP5. Resultados: Foram encontradas onze interações de ALS3 com silibinina e quatro com fluconazol, enquanto seis interações foram observadas de SAP5 com silibinina e quatro com fluconazol. Conclusão: Docking molecular entre silibinina e ALS3 identificou interações importantes, mas não foram observadas interações significativas com SAP5, embora a silibinina possa apresentar afinidade e interações com outros sítios SAP5.

Evaluation of the antifungal effect of chlorogenic acid against strains of Candida spp. resistant to fluconazole: apoptosis induction and in silico analysis of the possible mechanisms of action.

Introduction. Candida spp. are commensal fungal pathogens of humans, but when there is an imbalance in the microbiota, or weak host immunity, these yeasts can become pathogenic, generating high medical costs.Gap Statement. With the increase in resistance to conventional antifungals, the development of new therapeutic strategies is necessary. This study evaluated the in vitro antifungal activity of chlorogenic acid against fluconazole-resistant strains of Candida spp. Mechanism of action through flow cytometry and in silico analyses, as well as molecular docking assays with ALS3 and SAP5, important proteins in the pathogenesis of Candida albicans associated with the adhesion process and biofilm formation.Results. The chlorogenic acid showed in vitro antifungal activity against the strains tested, causing reduced cell viability, increased potential for mitochondrial depolarization and production of reactive oxygen species, DNA fragmentation and phosphatidylserine externalization, indicating an apoptotic process. Concerning the analysis through docking, the complexes formed between chlorogenic acid and the targets Thymidylate Kinase, CYP51, 1Yeast Cytochrome BC1 Complex e Exo-B-(1,3)-glucanase demonstrated more favourable binding energy. In addition, chlorogenic acid presented significant interactions with the ALS3 active site residues of C. albicans, important in the adhesion process and resistance to fluconazole. Regarding molecular docking with SAP5, no significant interactions were found between chlorogenic acid and the active site of the enzyme.Conclusion. We concluded that chlorogenic acid has potential use as an adjuvant in antifungal therapies, due to its anti-Candida activity and ability to interact with important drug targets.

Effects of ketamine in methicillin-resistant Staphylococcus aureus and in silico interaction with sortase A.

Methicillin-resistant Staphylococcus aureus (MRSA) is one of the main human pathogens and is responsible for many diseases, ranging from skin infections to more invasive infections. These infections are dangerous and expensive to treat because these strains are resistant to a large number of conventional antibiotics. Thus, the antibacterial effect of ketamine against MRSA strains, its mechanism of action, and in silico interaction with sortase A were evaluated. The antibacterial effect of ketamine was assessed using the broth microdilution method. Subsequently, the mechanism of action was assessed using flow cytometry and molecular docking assays with sortase A. Our results showed that ketamine has a significant antibacterial activity against MRSA strains in the range of 2.49-3.73 mM. Their mechanism of action involves alterations in membrane integrity and DNA damage, reducing cell viability, and inducing apoptosis. In addition, ketamine had an affinity for S. aureus sortase A. These results indicate that this compound can be used as an alternative to develop new strategies to combat infections caused by MRSA.

Diazepam's antifungal activity in fluconazole-resistant Candida spp. and biofilm inhibition in C. albicans: evaluation of the relationship with the proteins ALS3 and SAP5.

The genus Candida spp. has been highlighted as one of the main etiological agents causing fungal infections, with Candida albicans being the most prominent, responsible for most cases of candidemia. Due to its capacity for invasion and tissue adhesion, it is associated with the formation of biofilms, mainly in the environment and hospital devices, decreasing the effectiveness of available treatments. The repositioning of drugs, which is characterized by the use of drugs already on the market for other purposes, together with molecular-docking methods can be used aiming at the faster development of new antifungals to combat micro-organisms. This study aimed to evaluate the antifungal effect of diazepam on mature C. albicans biofilms in vitro and its action on biofilm in formation, as well as its mechanism of action and interaction with structures related to the adhesion of C. albicans, ALS3 and SAP5. To determine the MIC, the broth microdilution test was used according to protocol M27-A3 (CLSI, 2008). In vitro biofilm formation tests were performed using 96-well plates, followed by molecular-docking protocols to analyse the binding agent interaction with ALS3 and SAP5 targets. The results indicate that diazepam has antimicrobial activity against planktonic cells of Candida spp. and C. albicans biofilms, interacting with important virulence factors related to biofilm formation (ALS3 and SAP5). In addition, treatment with diazepam triggered a series of events in C. albicans cells, such as loss of membrane integrity, mitochondrial depolarization and increased production of EROs, causing DNA damage and consequent cell apoptosis.