53 research outputs found
Microbial infection risk predicts antimicrobial potential of avian symbionts
Funding
EM-R was financed by a predoctoral contract (PRE2018-085378) while the whole research group received funds from the projects CGL2017-83103-P, PID2020-117429GB-C21, and PID2020-117429GB-C22, funded by the Ministerio de Ciencia e Innovación/Agencia Estatal de Investigación/10.13039/501100011033 and by “Fondo Europeo de Desarrollo Regional, a way of making
Europe.” The research group also benefits from facilities, including accommodation, provided by the City Hall of Guadix, where a small lab to quickly process the samples was installed.Data availability statement
Data used in this paper can be found in CSIC Institutional Repository: https://doi.org/10.20350/digitalCSIC/14748.Symbiotic bacteria on animal hosts can prevent pathogenic bacterial infections by several mechanisms. Among them, symbiotic bacteria can indirectly enhance host’s immune responses or, directly, produce antimicrobial substances against pathogens. Due to differences in life-style, different host species are under different risks of microbial infections. Consequently, if symbiotic bacteria are somewhat selected by genetically determined host characteristics, we would expect the antimicrobial properties of bacterial symbionts to vary among host species and to be distributed according to risk of infection. Here we have tested this hypothesis by measuring the antimicrobial ability of the bacterial strains isolated from the uropygial-gland skin of 19 bird species differing in nesting habits, and, therefore, in risk of microbial infection. In accordance with our predictions, intensity and range of antimicrobial effects against the indicator strains assayed varied among bird species, with hole-and open-nesters showing the highest and the lowest values, respectively. Since it is broadly accepted that hole-nesters have higher risks of microbial infection than open nesters, our results suggest that the risk of infection is a strong driver of natural selection to enhance immunocompetence of animals through selecting for antibiotic-producing symbionts. Future research should focus on characterizing symbiotic bacterial communities and detecting coevolutionary processes with particular antibiotic-producing bacteria within-host species.Ministerio de Ciencia e Innovación projects CGL2017-83103-P, PID2020-117429GB-C21, and PID2020-117429GB-C22European Regional Development FundAgencia Estatal de Investigación 10.13039/50110001103
Multiple Genome Sequences of Lactobacillus pentosus Strains Isolated from Biofilms on the Skin of Fermented Green Table Olives
The draft genome sequences of five Lactobacillus pentosus strains isolated
from biofilms on the skin of green table olives are presented here. These genome
sequences will assist in revealing the potential probiotic properties of these
strains, as the intake of fermented olives implicates the passage of millions of Lactobacillus
spp. throughout a consumer’s gastrointestinal tract.This work was funded by the Junta de Andalucía through the P11-AGR-7051 project
and by the Spanish Government through MICIIN projects AGL2013-48300-R/ALI (OliFilm
project: www.olifilm.science.com.es) and BFU2016-77297-P
Circular and L50-like leaderless enterocins share a common ABC-transporter immunity gene
Microbes live within complex communities of interacting populations, either free-living in waters and soils or symbionts of animals and plants. Their interactions include the production of antimicrobial peptides (bacteriocins) to antagonize competitors, and these producers must carry their own immunity gene for self-protection. Whether other coexisting populations are sensitive or resistant to the bacteriocin producer will be key for the population dynamics within the microbial community. The immunity gene frequently consists of an ABC transporter to repel its own bacteriocin but rarely protects against a nonrelated bacteriocin. A case where this cross-resistance occurs mediated by a shared ABC transporter has been shown between enterocins MR10A/B and AS-48. The first is an L50-like leaderless enterocin, while AS-48 is a circular enterocin. In addition, L50-like enterocins such as MR10A/B have been found in E. faecalis and E. faecium, but AS-48 appears only in E. faecalis. Thus, using the ABC transporter of the enterocin MR10A/B gene cluster of Enterococcus faecalis MRR10-3 as a cross-resistance model, we aimed to unravel to what extent a particular ABC transporter can be shared across multiple bacteriocinogenic bacterial populations. To this end, we screened the MR10A/B-ABC transporters in available microbial genomes and analyzed their sequence homologies and distribution. Overall, our main findings are as follows: (i) the MR10A/B-ABC transporter is associated with multiple enterocin gene clusters; (ii) the different enterocins associated with this transporter have a saposin-like fold in common; (iii) the Mr10E component of the transporter is more conserved within its associated enterocin, while the Mr10FGH components are more conserved within the carrying species. This is the least known component of the transporter, but it has shown the greatest specificity to its corresponding enterocin. Bacteriocins are now being investigated as an alternative to antibiotics; hence, the wider or narrower distribution of the particular immunity gene should be taken into account for clinical applications to avoid the selection of resistant strains. Further research will be needed to investigate the mechanistic interactions between the Mr10E transporter component and the bacteriocin as well as the specific ecological and evolutionary mechanisms involved in the spread of the immunity transporter across multiple bacteriocins.Junta de Andalucía A-BIO-083-UGR18, BIO 309Ministerio de Ciencia e Innovación PEJ2018-003019-
Beneficial Shifts in the Gut Bacterial Community of Gilthead Seabream (Sparus aurata) Juveniles Supplemented with Allium-Derived Compound Propyl Propane Thiosulfonate (PTSO)
This study analyzes the potential use of an Allium-derived compound, propyl propane
thiosulfonate (PTSO), as a functional feed additive in aquaculture. Gilthead seabream (Sparus aurata)
juveniles had their diet supplemented with this Allium-derived compound (150 mg/kg of PTSO)
and were compared with control fish. The effects of this organosulfur compound were tested by
measuring the body weight and analyzing the gut microbiota after 12 weeks. The relative abundance
of potentially pathogenic Vibrio and Pseudomonas in the foregut and hindgut of supplemented fish
significantly decreased, while potentially beneficial Lactobacillus increased compared to in the control
fish. Shannon’s alpha diversity index significantly increased in both gut regions of fish fed with a
PTSO-supplemented diet. Regarding beta diversity, significant differences between treatments only
appeared in the hindgut when minority ASVs were taken into account. No differences occurred
in body weight during the experiment. These results indicate that supplementing the diet with
Allium-derived PTSO produced beneficial changes in the intestinal microbiota while maintaining the
productive parameters of gilthead seabream juveniles.AQUAHEALTH project (Operational Programme Smart Growth 2014-2020) IDI-20170032FEDER-INNTERCONECTA-CDTI 2018, Centro para el Desarrollo Industrial, Spanish Ministry of Economy and Competitiveness ITC-20181099Programa Operativo de Empleo Juvenil (Fondo Social Europeo, Junta de Andalucia) 612
Special structures of hoopoe eggshells enhance the adhesion of symbionts-carrying uropygial secretion to prevent embryo infection
This is the pre-peer-reviewed version of the following article: Martín-Vivaldi, M.; et al. Special structures of hoopoe eggshells enhance the adhesion of symbionts-carrying uropygial secretion to prevent embryo infection. Journal of Animal Ecology, (2014). which has been published in final form at: http://onlinelibrary.wiley.com/doi/10.1111/1365-2656.12243/abstract1. Animals live in a bacterial world, and detecting and exploring adaptations favouring mutualistic relationships with antibiotic-producing bacteria as a strategy to fight pathogens are of prime importance for evolutionary ecologists.
2. Uropygial secretion of European hoopoes (Upupa epops, Linnaeus) contains antimicrobials from mutualistic bacteria that may be used to prevent embryo infection. Here, we investigated the microscopic structure of hoopoe eggshells looking for special features favouring the adhesion of antimicrobial uropygial secretions.
3. We impeded female access to the uropygial gland and compared microscopic characteristics of eggshells, bacterial loads of eggs and of uropygial secretion, and hatching success of experimental and control females. Then, we explored the link between microbiological characteristics of uropygial secretion and these of eggs of hoopoes, as well as possible fitness benefits.
4. The microscopic study revealed special structures in hoopoes' eggshells (crypts). The experimental prevention of females' gland access demonstrated that crypts are filled with uropygial secretion and that symbiotic enterococci bacteria on the eggshells come, at least partially, from those in the female's uropygial gland. Moreover, the experiment resulted in a higher permeability of eggshells by several groups of bacteria and in elimination of the positive relationships detected for control nests between hatching success and density of symbiotic bacteria, either in the uropygial secretion of females or on the eggshell.
5. The findings of specialized crypts on the eggshells of hoopoes, and of video-recorded females smearing secretion containing symbiotic bacteria at a high density onto the eggshells strongly support a link between secretion and bacteria on eggs. Moreover, the detected associations between bacteria and hatching success suggest that crypts enhancing the adhesion of symbiont-carrying uropygial secretion likely protect embryos against infections.Support by funding was provided by Spanish Ministerio de Ciencia e Innovación, European funds (FEDER) (CGL2009-14006, CGL2010-19233-C03-01 and CGL2010-19233-C03-03) and Junta de Andalucía (P09-RNM-4557)
Diversity and antimicrobial potential in sea anemone and holothurian microbiomes
Marine invertebrates, as holobionts, contain symbiotic bacteria that coevolve and develop
antimicrobial substances. These symbiotic bacteria are an underexplored source of new
bioactive molecules to face the emerging antibiotic resistance in pathogens. Here, we
explored the antimicrobial activity of bacteria retrieved from the microbiota of two sea anemones
(Anemonia sulcata, Actinia equina) and two holothurians (Holothuria tubulosa,
Holothuria forskali). We tested the antimicrobial activity of the isolated bacteria against pathogens
with interest for human health, agriculture and aquaculture. We isolated 27 strains
with antibacterial activity and 12 of these isolates also showed antifungal activity. We taxonomically
identified these strains being Bacillus and Vibrio species the most representative
producers of antimicrobial substances. Microbiome species composition of the two sea
anemones was similar between them but differed substantially of seawater bacteria. In contrast,
microbiome species composition of the two holothurian species was different between
them and in comparison with the bacteria in holothurian feces and seawater. In all the holobiont
microbiomes Bacteroidetes was the predominant phylum. For each microbiome, we
determined diversity and the rank-abundance dominance using five fitted models (null, preemption,
log-Normal, Zipf and Zipf-Mandelbrot). The models with less evenness (i.e. Zipf
and Zipf-Mandelblot) showed the best fits in all the microbiomes. Finally, we tracked (using
the V4 hypervariable region of 16S rRNA gene) the relative abundance of these 27 isolates
with antibacterial activity in the total pool of sequences obtained for the microbiome of each
holobiont. Coincidences, although with extremely low frequencies, were detected only in the
microbiome of H. forskali. This fact suggests that these isolated bacteria belong to the long
tail of rare symbiotic bacteria. Therefore, more and more sophisticated culture techniques
are necessary to explore this apparently vast pool of rare symbiontic bacteria and to determine
their biotechnological potentiality.This work was supported by Campus de
Excelencia Internacional BIOTIC (CEI Biotic)
Universidad de Granada, http://biotic.ugr.es, Grant
PBS46. iMare Natural S.L. provided support in the
form of salaries for author PAA, but did not have
any additional role in the study design, data
collection and analysis, decision to publish, or
preparation of the manuscript. The specific role of
this author is articulated in the `author
contributions' section
Article Lactiplantibacillus paraplantarum BPF2 and Pediococcus acidilactici ST6, Two Bacteriocinogenic Isolated Strains from Andalusian Spontaneous Fermented Sausages
Traditional spontaneously fermented foods are well known for their sensory and safety
properties, which is mainly due to their indigenous microflora. Within this group of food, Mediterranean
dry-cured sausages stand out as a significant source of lactic-acid bacterial strains (LAB)
with biotechnological properties, such as their antimicrobial activity. The aim of this study was
to investigate the biodiversity of antagonistic LAB strains from different Andalusian traditional
sausages, such as salchichón and chorizo. First, a screening was carried out focusing on the antimicrobial
activity against foodborne pathogens, such as Listeria monocytogenes, Escherichia coli,
Clostridium perfringens, and Staphylococcus aureus, selecting two strains due to their higher antibiosis properties,
both in agar and liquid media. These bacteria were identified as Lactiplantibacillus paraplantarum
BPF2 and Pediococcus acidilactici ST6. In addition, genomic studies confirmed the presence of certain
structural genes related to the production of bacteriocins. Finally, the culture supernatants of both
strains were purified and analyzed by LC-MS/MS, obtaining the relative molecular mass and the
amino acid sequence and identifying the peptides as the bacteriocins Pediocin-PA and Leucocin K.
In conclusion, genomes and antimicrobial substances of P. acidilactici ST6, a Pediocin-PA producer,
and Lpb. paraplantarum BPF2, a Leucocin K producer, isolated from Andalusian salchichón and chorizo,
respectively, are presented in this work. Although further studies are required, these strains could be
used alone or in combination as starters or protective cultures for the food industryPRIMA program, under BioProMedFood project
(Reference Number: 2019-SECTION2-4; CUP: J34I19004820005)PRIMA program is supported
by the European Union H2020 program and innovation progra
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