Potential health benefits of Artemisia gorgonum extracts

Relevância etnofarmacológica: Artemisia gorgonum (Asteraceae), conhecida como “losna ou lorna”, é usada em Cabo Verde na medicina tradicional para o tratamento de inflamações, febre e gastroenterites. Estudos recentes sugerem que artimetina, isolada a partir de Artemisa gorgonum, poderia ser usada para o tratamento da malária devido à sua atividade antiplasmodial. Objetivo do estudo: Avaliação in vitro da atividade anti-microbiana e sinergética dos extratos hidroetanol (70%) e metanol de A. gorgonum (EHAG e EMAG) em bactérias do trato urinário e uma espécie de fungo. A atividade antioxidante dos extratos de hidroetanol (70%), metanol, clorofórmio e clorofórmio-metanol (1:2), e o efeito protetor de EHAG contra lesões hepáticas em ratos induzidos com CCl4 também foram analisados. Material e métodos: A atividade antimicrobiana dos extratos de A. gorgonum foi testada in vitro contra sete estirpes de microrganismos, incluindo bactérias Gram-positivas, Gram-negativas e uma espécie de fungo. O método DAA (Decimal assay for additivity) foi determinado para atividade antibacteriana do EHAG contra Pseudomonas aeruginosa. O efeito antioxidante in vitro de vários extratos de A. gorgonum foi analisado pelo método DPPH. A lesão hepática foi induzida por injeção intrapeitoral do CCl4. Seguidamente, os ratos foram administrados oralmente com EHAG, diariamente, por um período de 7 dias. Resultados e Discussão: Foi observada atividade antibacteriana dos extratos de EHAG e EMAG contra todos os microrganismos usados neste estudo. O crescimento das estirpes de Escherichia coli e Pseudomonas aeruginosa foi o mais inibido por ambos os extratos, apresentando valores significativos, enquanto o crescimento das estirpes S. aureus e Klebsiella spp. foi o menos afetado. Candida albicans foi inibida fortemente pelo EMAG. As combinações de extrato hidroetanólico com antibióticos demonstraram atividade antibacteriana sinergética contra todos os patogénicos testados. Em contrapartida, a combinação de extrato metanólico com antibióticos permitiu observar efeitos antagónicos contra todas as bactérias, exceto Klebsiella spp. que apresentou atividade sinérgica. O EHAG e EMAG mostraram efeito significativo na eliminação do radical DPPH. A atividade hepatoprotetora foi observada em ratos previamente administrados com CCl4. Estes estudos evidenciam os potenciais benefícios de A. gorgonum.

Resistance to last-resort antibiotics in natural environments

Last-resort antibiotics are the final line of action for treating serious infections caused by multiresistant strains. Over the years the prevalence of resistant bacteria has been increasing. Natural environments are reservoirs of antibiotic resistance, highly influenced by human-driven activities. The importance of aquatic systems on the evolution of antibiotic resistance is highlighted from the assumption that clinically-relevant resistance genes have originated in strains ubiquitous in these environments. We hypothesize that: a) rivers are reservoirs and disseminators of antibiotic resistance; b) anthropogenic activities potentiate dissemination of resistance to last-resort antibiotics. Hence, the main goal of the work is to compare the last-resort antibiotics resistome, in polluted and unpolluted water. Rivers from the Vouga basin, exposed to different anthropogenic impacts, were sampled. Water quality parameters were determined to classify rivers as unpolluted or polluted. Two bacterial collections were established enclosing bacteria resistant to cefotaxime (3rd generation cephalosporin) and to imipenem (carbapenem). Each collection was characterized regarding: phylogenetic diversity, antibiotic susceptibility, resistance mechanisms and mobile genetic elements. The prevalence of cefotaxime- and imipenem-resistant bacteria was higher in polluted water. Results suggested an important role in the dissemination of antibiotic resistance for Enterobacteriaceae, Pseudomonas and Aeromonas. The occurrence of bacteria resistant to non-beta-lactams was higher among isolates from polluted water as also the number of multiresistant strains. Among strains resistant to cefotaxime, extended-spectrum beta-lactamase (ESBL) genes were detected (predominantly blaCTX-M-like) associated to mobile genetic elements previously described in clinical strains. ESBL-producers were often multiresistant as a result of co-selection mechanisms. Culture-independent methods showed clear differences between blaCTX-M-like sequences found in unpolluted water (similar to ancestral genes) and polluted water (sequences identical to those reported in clinical settings). Carbapenem resistance was mostly related to the presence of intrinsically resistant bacteria. Yet, relevant carbapenemase genes were detected as blaOXA-48-like in Shewanella spp. (the putative origin of these genes), and blaVIM-2 in Pseudomonas spp. isolated from polluted rivers. Culture-independent methods showed an higher than the previously reported diversity of blaOXA-48-like genes in rivers. Overall, clear differences between polluted and unpolluted systems were observed, regarding prevalence, phylogenetic diversity and susceptibility profiles of resistant bacteria and occurrence of clinically relevant antibiotic resistance genes, thus validating our hypotheses. In this way, rivers act as disseminators of resistance genes, and anthropogenic activities potentiate horizontal gene transfer and promote the constitution of genetic platforms that combine several resistance determinants, leading to multiresistance phenotypes that may persist even in the absence of antibiotics.

Inactivation of Pseudomonas spp. biofilms with natural and synthetic photossensitizers

Cationic porphyrins have been widely used as photosensitizers (PSs) in the inactivation of microorganisms, both in biofilms and in planktonic forms. However, the application of curcumin, a natural PS, in the inactivation of biofilms, is poorly studied. The objectives of this study were (1) to evaluate and compare the efficiency of a cationic porphyrin tetra (Tetra-Py+-Me) and curcumin in the photodynamic inactivation of biofilms of Pseudomonas spp and the corresponding planktonic form; (2) to evaluate the effect of these PSs in cell adhesion and biofilm maturation. In eradication assays, biofilms of Pseudomonas spp adherent to silicone tubes were subjected to irradiation with white light (180 J cm-2) in presence of different concentrations (5 and 10 μM) of PS. In colonization experiments, solid supports were immersed in cell suspensions, PS was added and the mixture experimental setup was irradiated (864 J cm-2) during the adhesion phase. After transference solid supports to new PS-containing medium, irradiation (2592 J cm-2) was resumed during biofilm maturation. The assays of inactivation of planktonic cells were conducted in cell suspensions added of PS concentrations equivalent to those used in experiments with biofilms. The inactivation of planktonic cells and biofilms (eradication and colonization assays) was assessed by quantification of viable cells after plating in solid medium, at the beginning and at the end of the experiments. The results show that porphyrin Tetra-Py+-Me effectively inactivated planktonic cells (3.7 and 3.0 log) and biofilms of Pseudomonas spp (3.2 and 3.6 log). In colonization assays, the adhesion of cells was attenuated in 2.2 log, and during the maturation phase, a 5.2 log reduction in the concentration of viable cells was observed. Curcumin failed to cause significant inactivation in planktonic cells (0.7 and 0.9 log) and for that reason it was not tested in biofilm eradication assays. In colonization assays, curcumin did not affect the adhesion of cells to the solid support and caused a very modest reduction (1.0 log) in the concentration of viable cells during the maturation phase. The results confirm that the photodynamic inactivation is a promising strategy to control installed biofilms and in preventing colonization. Curcumin, however, does not represent an advantageous alternative to porphyrins in the case of biofilms of Pseudomonas spp.