Essential oils isolated from popular medicinal plants and spices as alternative antimicrobial and antibiofilm compounds against the pig pathogen Actinobacilluspleuropneumoniae / Óleos essenciais isolados de plantas medicinais e temperos populares como compostos antimicrobianos e antibiofilme alternativos contra o patógeno de suínosActinobacillus pleuropneumoniae

ABSTRACT: Actinobacilluspleuropneumoniae is the causative agent of swine pleuropneumonia, a contagious respiratory disease associated with high morbidity and economic losses. While antibiotic therapy helps to control the spreading of the pathogen on the farm, resistance to several classes of antibiotics were reported, and treatment can be impaired by the bacterial ability to form biofilms. This increases the need for alternative therapy approaches, including the use of natural compounds with antimicrobial and/or antibiofilm activities. In this research we analyzed, by the broth microdilution method, the inhibitory and bactericidal activities of the essential oils obtained from eighteen Brazilian popular medicinal plants or spices against clinical isolates of Actinobacilluspleuropneumoniae. After that, sub-inhibitory concentrations of active oils were tested for their antibiofilm effects, analyzed by the crystal violet method. Among the eighteen oils tested, eight (extracted from cinnamon, coriander, peppermint, spearmint, thyme, marjoram, eucalyptus, and laurel) presented bacteriostatic and bactericidal activities against all isolates, and subinhibitory concentrations of five of them disrupted up to 80% preformed biofilms, and significantly inhibited biofilm formation. The chemical composition of such oils was assessed by gas chromatography/mass spectrometry (GC/MS) and is presented, indicating that their bactericidal and antibiofilm properties were mostly associated with the presence of monoterpenes and phenylpropanoids. To our knowledge, this is the first report of essential oils with potential to control environmental contamination and animal infection with A. pleuropneumoniae, representing an alternative to increasing levels of antibiotic resistance.

RESUMO: Actinobacillus pleuropneumoniae é o agente causador da pleuropneumonia suína, uma doença respiratória contagiosa associada à alta morbidade e perdas econômicas. Embora a antibioticoterapia ajude a controlar a disseminação do patógeno na fazenda, a resistência a várias classes de antibióticos tem sido relatada e o tratamento pode ser prejudicado pela capacidade bacteriana de formar biofilmes. Isso aumenta a necessidade de abordagens terapêuticas alternativas, que incluem o uso de compostos naturais com atividades antimicrobianas e/ou antibiofilme. Neste trabalho, analisamos, pelo método de microdiluição em caldo nutriente, os efeitos inibitórios e bactericidas dos óleos essenciais obtidos de dezoito plantas medicinais brasileiras populares e/ou temperos contra isolados clínicos de Actinobacillus pleuropneumoniae. Então, concentrações subinibitórias dos óleos ativos foram testados quanto a suas atividades antibiofilme, analisados pelo método do cristal violeta. Dentre os dezoito óleos testados, oito (extraídos da canela, coentro, hortelã-pimenta, hortelã, tomilho, manjerona, eucalipto e louro) apresentaram atividade bacteriostática e bactericida contra todos os isolados, e concentrações subinibitórias de cinco deles romperam biofilmes pré-formados em até 80%, além de inibirem fortemente a formação de biofilmes. A composição química desses óleos foi avaliada por cromatografia gasosa/espectrometria de massa (CG/MS) e é apresentada, indicando que suas propriedades bactericidas e antibiofilme estavam principalmente associadas à presença de monoterpenos e fenilpropanóides. Este é o primeiro relato de óleos essenciais com potencial para controlar a contaminação ambiental e infecção animal por A. pleuropneumoniae, representando uma alternativa contra o crescente aumento de resistência bacteriana aos antibióticos.

Essential oils isolated from popular medicinal plants and spices as alternative antimicrobial and antibiofilm compounds against the pig pathogen Actinobacilluspleuropneumoniae / Óleos essenciais isolados de plantas medicinais e temperos populares como compostos antimicrobianos e antibiofilme alternativos contra o patógeno de suínosActinobacillus pleuropneumoniae

Actinobacilluspleuropneumoniae is the causative agent of swine pleuropneumonia, a contagious respiratory disease associated with high morbidity and economic losses. While antibiotic therapy helps to control the spreading of the pathogen on the farm, resistance to several classes of antibiotics were reported, and treatment can be impaired by the bacterial ability to form biofilms. This increases the need for alternative therapy approaches, including the use of natural compounds with antimicrobial and/or antibiofilm activities. In this research we analyzed, by the broth microdilution method, the inhibitory and bactericidal activities of the essential oils obtained from eighteen Brazilian popular medicinal plants or spices against clinical isolates of Actinobacilluspleuropneumoniae. After that, sub-inhibitory concentrations of active oils were tested for their antibiofilm effects, analyzed by the crystal violet method. Among the eighteen oils tested, eight (extracted from cinnamon, coriander, peppermint, spearmint, thyme, marjoram, eucalyptus, and laurel) presented bacteriostatic and bactericidal activities against all isolates, and subinhibitory concentrations of five of them disrupted up to 80% preformed biofilms, and significantly inhibited biofilm formation. The chemical composition of such oils was assessed by gas chromatography/mass spectrometry (GC/MS) and is presented, indicating that their bactericidal and antibiofilm properties were mostly associated with the presence of monoterpenes and phenylpropanoids. To our knowledge, this is the first report of essential oils with potential to control environmental contamination and animal infection with A. pleuropneumoniae, representing an alternative to increasing levels of antibiotic resistance.

Actinobacillus pleuropneumoniae é o agente causador da pleuropneumonia suína, uma doença respiratória contagiosa associada à alta morbidade e perdas econômicas. Embora a antibioticoterapia ajude a controlar a disseminação do patógeno na fazenda, a resistência a várias classes de antibióticos tem sido relatada e o tratamento pode ser prejudicado pela capacidade bacteriana de formar biofilmes. Isso aumenta a necessidade de abordagens terapêuticas alternativas, que incluem o uso de compostos naturais com atividades antimicrobianas e/ou antibiofilme. Neste trabalho, analisamos, pelo método de microdiluição em caldo nutriente, os efeitos inibitórios e bactericidas dos óleos essenciais obtidos de dezoito plantas medicinais brasileiras populares e/ou temperos contra isolados clínicos de Actinobacillus pleuropneumoniae. Então, concentrações subinibitórias dos óleos ativos foram testados quanto a suas atividades antibiofilme, analisados pelo método do cristal violeta. Dentre os dezoito óleos testados, oito (extraídos da canela, coentro, hortelã-pimenta, hortelã, tomilho, manjerona, eucalipto e louro) apresentaram atividade bacteriostática e bactericida contra todos os isolados, e concentrações subinibitórias de cinco deles romperam biofilmes pré-formados em até 80%, além de inibirem fortemente a formação de biofilmes. A composição química desses óleos foi avaliada por cromatografia gasosa/espectrometria de massa (CG/MS) e é apresentada, indicando que suas propriedades bactericidas e antibiofilme estavam principalmente associadas à presença de monoterpenos e fenilpropanóides. Este é o primeiro relato de óleos essenciais com potencial para controlar a contaminação ambiental e infecção animal por A. pleuropneumoniae, representando uma alternativa contra o crescente aumento de resistência bacteriana aos antibióticos.

Identification of small RNAs associated with RNA chaperone Hfq reveals a new stress response regulator in Actinobacillus pleuropneumoniae.

The RNA chaperone Hfq promotes the association of small RNAs (sRNAs) with cognate mRNAs, controlling the expression of bacterial phenotype. Actinobacillus pleuropneumoniae hfq mutants strains are attenuated for virulence in pigs, impaired in the ability to form biofilms, and more susceptible to stress, but knowledge of the extent of sRNA involvement is limited. Here, using A. pleuropneumoniae strain MIDG2331 (serovar 8), 14 sRNAs were identified by co-immunoprecipitation with Hfq and the expression of eight, identified as trans-acting sRNAs, were confirmed by Northern blotting. We focused on one of these sRNAs, named Rna01, containing a putative promoter for RpoE (stress regulon) recognition. Knockout mutants of rna01 and a double knockout mutant of rna01 and hfq, both had decreased biofilm formation and hemolytic activity, attenuation for virulence in Galleria mellonella, altered stress susceptibility, and an altered outer membrane protein profile. Rna01 affected extracellular vesicle production, size and toxicity in G. mellonella. qRT-PCR analysis of rna01 and putative cognate mRNA targets indicated that Rna01 is associated with the extracytoplasmic stress response. This work increases our understanding of the multilayered and complex nature of the influence of Hfq-dependent sRNAs on the physiology and virulence of A. pleuropneumoniae.

Serovar-dependent differences in Hfq-regulated phenotypes in Actinobacillus pleuropneumoniae.

The RNA chaperone Hfq regulates diverse processes in numerous bacteria. In this study, we compared phenotypes (growth rate, adherence, response to different stress conditions and virulence in Galleria mellonella) of wild-type (WT) and isogenic hfq mutants of three serovars (1, 8 and 15) of the porcine pathogen Actinobacillus pleuropneumoniae. Similar growth in rich broth was seen for all strains except Ap1∆hfq, which showed slightly reduced growth throughout the 24 h time course, and the complemented Ap8∆hfqC mutant had a prolonged lag phase. Differences were seen between the three serovar WT strains regarding adherence, stress response and virulence in G. mellonella, and deletion of hfq affected some, but not all of these phenotypes, depending on serovar. Complementation by expression of cloned hfq from an endogenous promoter only restored some WT phenotypes, indicating that complex regulatory networks may be involved, and that levels of Hfq may be as important as presence/absence of the protein regarding its contribution to gene regulation. Our results support that Hfq is a pleiotropic global regulator in A. pleuropneumoniae, but serovar-related differences exist. These results highlight the importance of testing multiple strains/serovars within a given species when determining contributions of global regulators, such as Hfq, to expression of complex phenotypes.

Antimicrobial resistance, biofilm formation and virulence reveal Actinobacillus pleuropneumoniae strains' pathogenicity complexity.

Porcine pleuropneumonia is an important cause of lowered productivity and economic loss in the pig industry worldwide, associated primarily with Actinobacillus pleuropneumoniae infection. Its colonization and persistence within the upper respiratory tract of affected pigs depends upon interactions between a number of genetically controlled virulence factors, such as pore-forming repeats-in-toxin exoproteins, biofilm formation, and antimicrobial resistance. This study investigated correlations between biofilm-forming capacity, antimicrobial resistance, and virulence of A. pleuropneumoniae obtained from clinical outbreaks of disease, using a Galleria mellonella alternative infection model. Results suggest that virulence is diverse amongst the 21 strains of A. pleuropneumoniae examined and biofilm formation correlated with genetic control of antimicrobial resistance.

p518, a small floR plasmid from a South American isolate of Actinobacillus pleuropneumoniae.

A small (3.9kb) plasmid (p518), conferring resistance to florfenicol (MIC >8µg/mL) and chloramphenicol (MIC >8µg/mL) was isolated from an Actinobacillus pleuropneumoniae clinical isolate from Southeastern Brazil. To date, this is the smallest florfenicol resistance plasmid isolated from a member of the Pasteurellaceae. The complete nucleotide of this plasmid revealed a unique gene arrangement compared to previously reported florfenicol resistance plasmids found in other members of the Pasteurellaceae. In addition to the floR gene and a lysR gene, common to various florfenicol resistance plasmids, p518 also encodes strA and a partial strB sequence. An origin of replication (oriV) similar to that in the broad host range plasmid, pLS88, was identified in p518, and transformation into Escherichia coli MFDpir confirmed the ability to replicate in other species. Mobilisation genes appear to have been lost, with only a partial mobC sequence remaining, and attempts to transfer p518 from a conjugal donor strain (E. coli MFDpir) were not successful, suggesting this plasmid is not mobilisable. Similarly, attempts to transfer p518 into a competent A. pleuropneumoniae strain, MIDG2331, by natural transformation were also not successful. These results suggest that p518 may be only transferred by vertical descent.

A computational strategy for the search of regulatory small RNAs in Actinobacillus pleuropneumoniae.

Bacterial regulatory small RNAs (sRNAs) play important roles in gene regulation and are frequently connected to the expression of virulence factors in diverse bacteria. Only a few sRNAs have been described for Pasteurellaceae pathogens and no in-depth analysis of sRNAs has been described for Actinobacillus pleuropneumoniae, the causative agent of porcine pleuropneumonia, responsible for considerable losses in the swine industry. To search for sRNAs in A. pleuropneumoniae, we developed a strategy for the computational analysis of the bacterial genome by using four algorithms with different approaches, followed by experimental validation. The coding strand and expression of 17 out of 23 RNA candidates were confirmed by Northern blotting, RT-PCR, and RNA sequencing. Among them, two are likely riboswitches, three are housekeeping regulatory RNAs, two are the widely studied GcvB and 6S sRNAs, and 10 are putative novel trans-acting sRNAs, never before described for any bacteria. The latter group has several potential mRNA targets, many of which are involved with virulence, stress resistance, or metabolism, and connect the sRNAs in a complex gene regulatory network. The sRNAs identified are well conserved among the Pasteurellaceae that are evolutionarily closer to A. pleuropneumoniae and/or share the same host. Our results show that the combination of newly developed computational programs can be successfully utilized for the discovery of novel sRNAs and indicate an intricate system of gene regulation through sRNAs in A. pleuropneumoniae and in other Pasteurellaceae, thus providing clues for novel aspects of virulence that will be explored in further studies.

A BOX-SCAR fragment for the identification of Actinobacillus pleuropneumoniae.

Bacterial respiratory diseases are responsible for considerable mortality, morbidity and economic losses in the swine industry. Actinobacillus pleuropneumoniae, the causative agent of porcine pleuropneumonia, is one of the most important disease agents, but its identification and surveillance can be impaired by the existence of many other related bacteria in normal swine microbiota. In this work, we have evaluated a BOX-A1R-based repetitive extragenic palindromic-PCR (BOX-PCR) sequence characterised amplified region (SCAR) marker for the specific identification of A. pleuropneumoniae and its use in a multiplex PCR to detect additionally Haemophilus parasuis and Pasteurella multocida, two other major respiratory pathogens of pigs that are members of the family Pasteurellaceae. PCRs based on the BOX-SCAR fragment developed were rapid, sensitive and differentiated A. pleuropneumoniae from all swine-related members of the Pasteurellaceae family tested. Single and multiplex BOX-SCAR fragment-based PCRs can be used to identify A. pleuropneumoniae from other bacterial swine pathogens and will be useful in surveillance and epidemiological studies.