Manuel L. Lemos

Antibiotic activity of epiphytic bacteria isolated from intertidal seaweeds

A survey of antibiotic-producing bacteria from the microbial flora attached to seaweeds and the study of their antibiotic capacities were carried out. From 5 species of green and brown marine algae, 224 bacterial strains were isolated and tested for antibiotic production. A total of 38 strains displayed antibiotic activity, withEnteromorpha intestinalis being the source of the highest number of producer strains. All epiphytic bacteria with antibiotic activity were assigned to thePseudomonas-Alteromonas group. Antagonism assays among the isolates demonstrated that each producer strain inhibits the growth of the other producers, as well as of some nonproducer strains also isolated from seaweeds. Likewise, an autoinhibitory effect was observed in all antibiotic-producing strains. Antibacterial spectra of all the strains include activity againstStaphylococcus, Alcaligenes, Pseudomonas, Vibrio, Pasteurella, andAchromobacter. A preliminary characterization of the antibiotic substances produced by these epiphytic bacteria demonstrated that they are low molecular weight compounds, thermolabile, and anionic and are not affected by proteolytic enzymes. The role that these inhibitory substances can play in the natural environment is discussed.

Expressed sequence tags (ESTs) from immune tissues of turbot (Scophthalmus maximus) challenged with pathogens

BackgroundThe turbot (Scophthalmus maximus; Scophthalmidae; Pleuronectiformes) is a flatfish species of great relevance for marine aquaculture in Europe. In contrast to other cultured flatfish, very few genomic resources are available in this species. Aeromonas salmonicida and Philasterides dicentrarchi are two pathogens that affect turbot culture causing serious economic losses to the turbot industry. Little is known about the molecular mechanisms for disease resistance and host-pathogen interactions in this species. In this work, thousands of ESTs for functional genomic studies and potential markers linked to ESTs for mapping (microsatellites and single nucleotide polymorphisms (SNPs)) are provided. This information enabled us to obtain a preliminary view of regulated genes in response to these pathogens and it constitutes the basis for subsequent and more accurate microarray analysis.ResultsA total of 12584 cDNAs partially sequenced from three different cDNA libraries of turbot (Scophthalmus maximus) infected with Aeromonas salmonicida, Philasterides dicentrarchi and from healthy fish were analyzed. Three immune-relevant tissues (liver, spleen and head kidney) were sampled at several time points in the infection process for library construction. The sequences were processed into 9256 high-quality sequences, which constituted the source for the turbot EST database. Clustering and assembly of these sequences, revealed 3482 different putative transcripts, 1073 contigs and 2409 singletons. BLAST searches with public databases detected significant similarity (e-value ≤ 1e-5) in 1766 (50.7%) sequences and 816 of them (23.4%) could be functionally annotated. Two hundred three of these genes (24.9%), encoding for defence/immune-related proteins, were mostly identified for the first time in turbot. Some ESTs showed significant differences in the number of transcripts when comparing the three libraries, suggesting regulation in response to these pathogens. A total of 191 microsatellites, with 104 having sufficient flanking sequences for primer design, and 1158 putative SNPs were identified from these EST resources in turbot.ConclusionA collection of 9256 high-quality ESTs was generated representing 3482 unique turbot sequences. A large proportion of defence/immune-related genes were identified, many of them regulated in response to specific pathogens. Putative microsatellites and SNPs were identified. These genome resources constitute the basis to develop a microarray for functional genomics studies and marker validation for genetic linkage and QTL analysis in turbot.

Homology of Vibrio anguillarum strains causing epizootics in turbot, salmon and trout reared on the Atlantic coast of Spain

Abstract In this paper we report the physiological, biochemical, serological, and molecular properties of pathogenic Vibrio anguillarum strains isolated from turbot, salmon and trout reared at several seawater hatcheries on the Galician coast (N.W. Spain). These characteristics were compared with reference strains isolated from different fish or in other geographic areas. The role of extracellular virulence factors in the pathogenesis of vibriosis was also investigated. Agglutination reactions and LPS patterns revealed that most of our isolates belonged to serotype 1, and only the strain responsible for a turbot epizootic in 1985 belonged to serotype 2. The main differential phenotypic traits between these pathogenic vibrios were indol reaction, growth at 37°C and acid production from arabinose, galactose and sorbitol. All the isolates displayed strong protease, amylase, and phospholipase activities, and produced haemolysins against human, sheep and trout erythrocytes. In addition, these strains exhibited similar drug resistance patterns, being sensitive to nitrofuranes, flumequine, oxolinic acid, oxytetracycline and chloramphenicol, and highly resistant to ampicillin. Although the extracellular products from our Vibrio isolates displayed strong cytotoxic activity on the five fish cell lines tested, a non-pathogenic reference strain also showed a positive toxic effect, which indicates that a relationship between fish virulence and cytotoxicity cannot be established for all V. anguillarum strains. Whereas the Northwest Spain isolates belonging to serotype 1 shared one plasmid (47 Md) similar to the virulence plasmid pJM1, in the pathogenic vibrios assigned to serotype 2, no plasmids were detected and, hence, their virulence properties are chromosome-coded.

Two tonB Systems Function in Iron Transport in Vibrio anguillarum, but Only One Is Essential for Virulence

ABSTRACT We have identified two functional tonB systems in the marine fish pathogen Vibrio anguillarum, tonB1 and tonB2. Each of the tonB genes is transcribed in an operon with the cognate exbB and exbD genes in response to iron limitation. Only tonB2 is essential for transport of ferric anguibactin and virulence.

Genomic and Functional Analysis of ICEPdaSpa1, a Fish-Pathogen-Derived SXT-Related Integrating Conjugative Element That Can Mobilize a Virulence Plasmid

Integrating conjugative elements (ICEs) are self-transmissible mobile elements that transfer between bacteria via conjugation and integrate into the host chromosome. SXT and related ICEs became prevalent in Asian Vibrio cholerae populations in the 1990s and play an important role in the dissemination of antibiotic resistance genes in V. cholerae. Here, we carried out genomic and functional analyses of ICEPdaSpa1, an SXT-related ICE derived from a Spanish isolate of Photobacterium damselae subsp. piscicida, the causative agent of fish pasteurellosis. The approximately 102-kb DNA sequence of ICEPdaSpa1 shows nearly 97% DNA sequence identity to SXT in genes that encode essential ICE functions, including integration and excision, conjugal transfer, and regulation. However, approximately 25 kb of ICEPdaSpa1 DNA, including a tetracycline resistance locus, is not present in SXT. Most ICEPdaSpa1-specific DNA is inserted at loci where other SXT-related ICEs harbor element-specific DNA. ICEPdaSpa1 excises itself from the chromosome and is transmissible to other Photobacterium strains, as well as to Escherichia coli, in which it integrates into prfC. Interestingly, the P. damselae virulence plasmid pPHDP10 could be mobilized from E. coli in an ICEPdaSpa1-dependent fashion via the formation of a cointegrate between pPHDP10 and ICEPdaSpa1. pPHDP10-Cm integrated into ICEPdaSpa1 in a non-site-specific fashion independently of RecA. The ICEPdaSpa1::pPHDP10 cointegrates were stable, and markers from both elements became transmissible at frequencies similar to those observed for the transfer of ICEPdaSpa1 alone. Our findings reveal the plasticity of ICE genomes and demonstrate that ICEs can enable virulence gene transfer.

Characterization of Heme Uptake Cluster Genes in the Fish Pathogen Vibrio anguillarum

Vibrio anguillarum can utilize hemin and hemoglobin as sole iron sources. In previous work we identified HuvA, the V. anguillarum outer membrane heme receptor by complementation of a heme utilization mutant with a cosmid clone (pML1) isolated from a genomic library of V. anguillarum. In the present study, we describe a gene cluster contained in cosmid pML1, coding for nine potential heme uptake and utilization proteins: HuvA, the heme receptor; HuvZ and HuvX; TonB, ExbB, and ExbD; HuvB, the putative periplasmic binding protein; HuvC, the putative inner membrane permease; and HuvD, the putative ABC transporter ATPase. A V. anguillarum strain with an in-frame chromosomal deletion of the nine-gene cluster was impaired for growth with heme or hemoglobin as the sole iron source. Single-gene in-frame deletions were constructed, demonstrating that each of the huvAZBCD genes are essential for utilization of heme as an iron source in V. anguillarum, whereas huvX is not. When expressed in Escherichia coli hemA (strain EB53), a plasmid carrying the gene for the heme receptor, HuvA, was sufficient to allow the use of heme as the porphyrin source. For utilization of heme as an iron source in E. coli ent (strain 101ESD), the tonB exbBD and huvBCD genes were required in addition to huvA. The V. anguillarum heme uptake cluster shows some differences in gene arrangement when compared to homologous clusters described for other Vibrio species.

Photobacterium damselae subsp. damselae, a bacterium pathogenic for marine animals and humans

Photobacterium damselae subsp. damselae (formerly Vibrio damsela) is a pathogen of a variety of marine animals including fish, crustaceans, molluscs, and cetaceans. In humans, it can cause opportunistic infections that may evolve into necrotizing fasciitis with fatal outcome. Although the genetic basis of virulence in this bacterium is not completely elucidated, recent findings demonstrate that the phospholipase-D Dly (damselysin) and the pore-forming toxins HlyApl and HlyAch play a main role in virulence for homeotherms and poikilotherms. The acquisition of the virulence plasmid pPHDD1 that encodes Dly and HlyApl has likely constituted a main driving force in the evolution of a highly hemolytic lineage within the subspecies. Interestingly, strains that naturally lack pPHDD1 show a strong pathogenic potential for a variety of fish species, indicating the existence of yet uncharacterized virulence factors. Future and deep analysis of the complete genome sequence of Photobacterium damselae subsp. damselae will surely provide a clearer picture of the virulence factors employed by this bacterium to cause disease in such a varied range of hosts.

Purification and characterization of an antibacterial substance produced by a marine Alteromonas species.

An extracellular inhibitory substance produced by the marine Alteromonas strain P-31 (NCMB 2144) was isolated and purified. The inhibitor was a macromolecule with a molecular weight of 90,000 estimated by Sephadex G-100 chromatography and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The inhibitory activity was antagonized by proteinase K and beta-amylase and inactivated by heating at 80 degrees C for 30 min. The purified substance exhibited two typical absorption bands in the infrared spectrum at 1,650 and 1,075 cm-1, corresponding to peptide linkages and carbohydrate residues, respectively. These findings allowed us to characterize the antimicrobial compound as a thermolabile glycoprotein. The substance exhibited a broad inhibitory spectrum, being active against clinical and environmental isolates from related and nonrelated taxonomical bacterial groups as well as against the producer strain and other similar marine bacterial strains. The inhibitory glycoprotein did not display cytotoxicity toward mammalian and fish cell lines. Images

Population dynamics of heterotrophic bacterial communities associated withFucus vesiculosus andUlva rigida in an estuary

The heterotrophic bacterial communities associated with the seaweedsFucus vesiculosus andUlva rigida in an estuary were studied. Changes in these communities were monitored by monthly sampling during the year. The isolated strains were identified at the genus level and grouped into 14 clusters by their similarities. Seasonal changes in genera and clusters as well as variations in diversity were related to primary production periods and fluctuation of salinity levels. TheFlavobacterium group was the major inhabitant of algal surfaces, being dominant after the primary production peaks occurred in spring and autumn. The decrease of dissolved organic matter after these peaks yielded an increase in diversity. Important alterations in these bacterial communities were observed during a period of large decrease in the salinity of estuarine water. In general, the epiphytic communities of both seaweeds were similar in their composition and dynamics, but they were very different from the surrounding water communities.

Iron-binding proteins and heme compounds as iron sources forVibrio anguillarum

Utilization of several iron sources available from the host was investigated in different strains ofVibrio anguillarum. We tested the ability to use transferrins, heme, hemoglobin, and haptoglobin-hemoglobin as iron sources in strains ofV. anguillarum possessing different iron uptake systems mediated by siderophores. Only the wild-type pathogenic strains with an intact siderophore-mediated iron transport system were able to obtain iron from transferrins. None of the low-virulence derivatives lacking siderophore production could grow in the presence of transferrins. However, all strains, wild-type and iron-deficient derivatives, could utilize heme, hemoglobin, and haptoglobin-hemoglobin as iron sources when added to iron-deficient media. The ability to grow in fish serum was also evaluated. Although only wild-type strains could grow in fresh serum, derivative strains lacking siderophore production also were able to grow when serum was heat inactivated or when a utilizable siderophore was present in serum. The results indicate that besides the siderophore-mediated mechanism,V. anguillarum can also obtain iron from other sources presumably available from the host, although its importance for growth in vivo is so far unknown.