Your search keyword '"Host interactions"' showing total 120 results

1. Bifidobacterium longum subsp. longum BG-L47 boosts growth and activity of Limosilactobacillus reuteri DSM 17938 and its extracellular membrane vesicles.

Author

Lundberg, Ludwig Ermann, Mishra, Punya Pallabi, Liu, Peidi, Forsberg, Manuel Mata, Sverremark-Ekström, Eva, Grompone, Gianfranco, Håkansson, Sebastian, Linninge, Caroline, and Roos, Stefan

Subjects

*MONONUCLEAR leukocytes, *BIFIDOBACTERIUM longum, *TRPV cation channels, *NOCICEPTORS, *BIOMARKERS

Abstract

The aim of this study was to identify a Bifidobacterium strain that improves the performance of Limosilactobacillus reuteri DSM 17938. Initial tests showed that Bifidobacterium longum subsp. longum strains boosted the growth of DSM 17938 during in vivo-like conditions. Further characterization revealed that one of the strains, BG-L47, had better bile and acid tolerance compared to BG-L48, as well as mucus adhesion compared to both BG-L48 and the control strain BB536. BG-L47 also had the capacity to metabolize a broad range of carbohydrates and sugar alcohols. Mapping of glycoside hydrolase (GH) genes of BG-L47 and BB536 revealed many GHs associated with plantfiber utilization. However, BG-L47 had a broader phenotypic fiber utilization capacity. In addition, B. longum subsp. longum cells boosted the bioactivity of extracellular membrane vesicles (MV) produced by L. reuteri DSM 17938 during co-cultivation. Secreted 5'-nucleotidase (5'NT), an enzyme that converts AMP into the signal molecule adenosine, was increased in MV boosted by BG-L47. The MV exerted an improved antagonistic effect on the pain receptor transient receptor potential vanilloid 1 (TRPV1) and increased the expression of the immune development markers IL-6 and IL-1ß in a peripheral blood mononuclear cell (PBMC) model. Finally, the safety of BG-L47 was evaluated both by genome safety assessment and in a human safety study. Microbiota analysis showed that the treatment did not induce significant changes in the composition. In conclusion, B. longum subsp. longum BG-L47 has favorable physiological properties, can boost the in vitro activity of L. reuteri DSM 17938, and is safe for consumption, making it a candidate for further evaluation in probiotic studies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Obesity, the Microbiome, and Lung Disease

Author

Ingram, Jennifer L., Huang, Yvonne J., Rounds, Sharon I. S., Series Editor, Dixon, Anne E., Series Editor, Schnapp, Lynn M., Series Editor, and Forno, Erick, editor

Published

2024

3. The ChvG-ChvI Regulatory Network: A Conserved Global Regulatory Circuit Among the Alphaproteobacteria with Pervasive Impacts on Host Interactions and Diverse Cellular Processes.

Author

Greenwich, Jennifer L., Heckel, Brynn C., Alakavuklar, Melene A., and Fuqua, Clay

Abstract

The ChvG-ChvI two-component system is conserved among multiple Alphaproteobacteria. ChvG is a canonical two-component system sensor kinase with a single large periplasmic loop. Active ChvG directs phosphotransfer to its cognate response regulator ChvI, which controls transcription of target genes. In many alphaproteobacteria, ChvG is regulated by a third component, a periplasmic protein called ExoR, that maintains ChvG in an inactive state through direct interaction. Acidic pH stimulates proteolysis of ExoR, unfettering ChvG-ChvI to control its regulatory targets. Activated ChvI among different alphaproteobacteria controls a broad range of cellular processes, including symbiosis and virulence, exopolysaccharide production, biofilm formation, motility, type VI secretion, cellular metabolism, envelope composition, and growth. Low pH is a virulence signal in Agrobacterium tumefaciens, but in other systems, conditions that cause envelope stress may also generally activate ChvG-ChvI. There is mounting evidence that these regulators influence diverse aspects of bacterial physiology, including but not limited to host interactions. [ABSTRACT FROM AUTHOR]

Published

2023

4. Tick salivary gland components dampen Kasokero virus infection and shedding in its vertebrate reservoir, the Egyptian rousette bat (Rousettus aegyptiacus).

Author

Schuh, Amy J., Amman, Brian R., Guito, Jonathan C., Graziano, James C., Sealy, Tara K., and Towner, Jonathan S.

Subjects

*TICKS, *BATS, *SALIVARY glands, *VIRUS diseases, *VIRAL shedding, *TICK infestations, *ARBOVIRUS diseases, *VERTEBRATES

Abstract

Background: The human-pathogenic Kasokero virus (KASV) circulates in an enzootic transmission cycle between Egyptian rousette bats (ERBs; Rousettus aegyptiacus) and their argasid tick ectoparasites, Ornithodoros (Reticulinasus) faini. Although tick salivary gland components have been shown to potentiate virus infection in vertebrate non-reservoirs (i.e. incidental hosts or small animal models of disease), there is a lack of information on the effect of tick salivary gland components on viral infection and shedding in vertebrate reservoirs. Methods: To determine the impact of tick salivary gland components on KASV infection and shedding in ERBs, KASV loads were quantified in blood, oral swab, rectal swab, and urine specimens collected daily through 18 days post inoculation from groups of ERBs intradermally inoculated with KASV or KASV + O. (R.) faini tick salivary gland extract (SGE). Results: Bats inoculated with KASV + tick SGE had significantly lower peak and cumulative KASV viremias and rectal shedding loads compared to bats inoculated with KASV only. Conclusions: We report for the first time to our knowledge that tick salivary gland components dampen arbovirus infection and shedding in a vertebrate reservoir. This study advances our understanding of biological factors underlying arbovirus maintenance in nature. [ABSTRACT FROM AUTHOR]

Published

2023

5. Links between Diet, Intestinal Anaerobes, Microbial Metabolites and Health.

Author

Duncan, Sylvia H., Conti, Elena, Ricci, Liviana, and Walker, Alan W.

Subjects

MICROBIAL metabolites, NITROSO compounds, LARGE intestine, DIETARY carbohydrates, INTESTINES

Abstract

A dense microbial community resides in the human colon, with considerable inter-individual variability in composition, although some species are relatively dominant and widespread in healthy individuals. In disease conditions, there is often a reduction in microbial diversity and perturbations in the composition of the microbiota. Dietary complex carbohydrates that reach the large intestine are important modulators of the composition of the microbiota and their primary metabolic outputs. Specialist gut bacteria may also transform plant phenolics to form a spectrum of products possessing antioxidant and anti-inflammatory activities. Consumption of diets high in animal protein and fat may lead to the formation of potentially deleterious microbial products, including nitroso compounds, hydrogen sulphide, and trimethylamine. Gut anaerobes also form a range of secondary metabolites, including polyketides that may possess antimicrobial activity and thus contribute to microbe–microbe interactions within the colon. The overall metabolic outputs of colonic microbes are derived from an intricate network of microbial metabolic pathways and interactions; however, much still needs to be learnt about the subtleties of these complex networks. In this review we consider the multi-faceted relationships between inter-individual microbiota variation, diet, and health. [ABSTRACT FROM AUTHOR]

Published

2023

6. Editorial: Microbiome and human host interactions and their implications on human health

Author

Jazleen Leo, Chun Wie Chong, Amadeus Yeremia Pribowo, Richard Sutejo, and Jonathan W. J. Lee

Subjects

microbiome, host interactions, human health and disease, metagenomic, mucosal microbiome, Microbiology, QR1-502

Published

2023

7. The Candida glabrata Parent Strain Trap: How Phenotypic Diversity Affects Metabolic Fitness and Host Interactions

Author

Jane Usher, Gabriela F. Ribeiro, and Delma S. Childers

Subjects

Candida glabrata, phenotype, strains, metabolism, cell wall, host interactions, Microbiology, QR1-502

Abstract

ABSTRACT Reference strains improve reproducibility by standardizing observations and methodology, which has ultimately led to important insights into fungal pathogenesis. However, recent investigations have highlighted significant genotypic and phenotypic heterogeneity across isolates that influence genetic circuitry and virulence within a species. Candida glabrata is the second leading cause of candidiasis, a life-threatening infection, and undergoes extensive karyotype and phenotypic changes in response to stress. Much of the work conducted on this pathogen has focused on two sequenced strains, CBS138 (ATCC 2001) and BG2. Few studies have compared these strains in detail, but key differences include mating type and altered patterns of expression of EPA adhesins. In fact, most C. glabrata isolates and BG2 are MATa, while CBS138 is MATα. However, it is not known if other phenotypic differences between these strains play a role in our understanding of C. glabrata pathogenesis. Thus, we set out to characterize metabolic, cell wall, and host-interaction attributes for CBS138 and BG2. We found that BG2 utilized a broader range of nitrogen sources and had reduced cell wall size and carbohydrate exposure than CBS138, which we hypothesized results in differences in innate immune interactions and virulence. We observed that, although both strains were phagocytosed to a similar extent, BG2 replicated to higher numbers in macrophages and was more virulent during Galleria mellonella infection than CBS138 in a dose-dependent manner. Interestingly, deletion of SNF3, a major nutrient sensor, did not affect virulence in G. mellonella for BG2, but significantly enhanced larval killing in the CBS138 background compared to the parent strain. Understanding these fundamental differences in metabolism and host interactions will allow more robust conclusions to be drawn in future studies of C. glabrata pathogenesis. IMPORTANCE Reference strains provide essential insights into the mechanisms underlying virulence in fungal pathogens. However, recent studies in Candida albicans and other species have revealed significant genotypic and phenotypic diversity within clinical isolates that are challenging paradigms regarding key virulence factors and their regulation. Candida glabrata is the second leading cause of candidiasis, and many studies use BG2 or CBS138 for their investigations. Therefore, we aimed to characterize important virulence-related phenotypes for both strains that might alter conclusions about C. glabrata pathogenesis. Our study provides context for metabolic and cell wall changes and how these may influence host interaction phenotypes. Understanding these differences is necessary to support robust conclusions about how virulence factors may function in these and other very different strain backgrounds.

Published

2023

8. Bacterial extracellular vesicles and their novel therapeutic applications in health and cancer

Author

Niloufar Hosseini-Giv, Alyza Basas, Chloe Hicks, Emad El-Omar, Fatima El-Assaad, and Elham Hosseini-Beheshti

Subjects

bacterial extracellular vesicles, microvesicles, outer membrane vesicles, cell cargo, host interactions, infection, Microbiology, QR1-502

Abstract

Bacterial cells communicate with host cells and other bacteria through the release of membrane vesicles known as bacterial extracellular vesicles (BEV). BEV are established mediators of intracellular signaling, stress tolerance, horizontal gene transfer, immune stimulation and pathogenicity. Both Gram-positive and Gram-negative bacteria produce extracellular vesicles through different mechanisms based on cell structure. BEV contain and transfer different types of cargo such as nucleic acids, proteins and lipids, which are used to interact with and affect host cells such as cytotoxicity and immunomodulation. The role of these membranous microvesicles in host communication, intra- and inter-species cell interaction and signaling, and contribution to various diseases have been well demonstrated. Due to their structure, these vesicles can be easily engineered to be utilized for clinical application, as shown with its role in vaccine therapy, and could be used as a diagnostic and cancer drug delivery tool in the future. However, like other novel therapeutic approaches, further investigation and standardization is imperative for BEV to become a routine vector or a conventional treatment method.

Published

2022

9. Links between Diet, Intestinal Anaerobes, Microbial Metabolites and Health

Author

Sylvia H. Duncan, Elena Conti, Liviana Ricci, and Alan W. Walker

Subjects

microbial symbiosis, host interactions, Firmicutes, Bacteroidetes, dietary macro-nutrients, short-chain fatty acids, Biology (General), QH301-705.5

Abstract

A dense microbial community resides in the human colon, with considerable inter-individual variability in composition, although some species are relatively dominant and widespread in healthy individuals. In disease conditions, there is often a reduction in microbial diversity and perturbations in the composition of the microbiota. Dietary complex carbohydrates that reach the large intestine are important modulators of the composition of the microbiota and their primary metabolic outputs. Specialist gut bacteria may also transform plant phenolics to form a spectrum of products possessing antioxidant and anti-inflammatory activities. Consumption of diets high in animal protein and fat may lead to the formation of potentially deleterious microbial products, including nitroso compounds, hydrogen sulphide, and trimethylamine. Gut anaerobes also form a range of secondary metabolites, including polyketides that may possess antimicrobial activity and thus contribute to microbe–microbe interactions within the colon. The overall metabolic outputs of colonic microbes are derived from an intricate network of microbial metabolic pathways and interactions; however, much still needs to be learnt about the subtleties of these complex networks. In this review we consider the multi-faceted relationships between inter-individual microbiota variation, diet, and health.

Published

2023

10. Microbiome

Author

Paul, Debarati, Choudhury, Sangeeta, Bose, Sudeep, Arivaradarajan, Preeti, editor, and Misra, Gauri, editor

Published

2018

11. Bifidobacterium longum subsp. longum BG-L47 boosts growth and activity of Limosilactobacillus reuteri DSM 17938 and its extracellular membrane vesicles.

Author

Ermann Lundberg L, Pallabi Mishra P, Liu P, Forsberg MM, Sverremark-Ekström E, Grompone G, Håkansson S, Linninge C, and Roos S

Subjects

Humans, Limosilactobacillus reuteri metabolism, Limosilactobacillus reuteri genetics, Limosilactobacillus reuteri growth & development, Extracellular Vesicles metabolism, Probiotics, Bifidobacterium metabolism, Bifidobacterium genetics, Bifidobacterium growth & development

Abstract

The aim of this study was to identify a Bifidobacterium strain that improves the performance of Limosilactobacillus reuteri DSM 17938. Initial tests showed that Bifidobacterium longum subsp. longum strains boosted the growth of DSM 17938 during in vivo- like conditions. Further characterization revealed that one of the strains, BG-L47, had better bile and acid tolerance compared to BG-L48, as well as mucus adhesion compared to both BG-L48 and the control strain BB536. BG-L47 also had the capacity to metabolize a broad range of carbohydrates and sugar alcohols. Mapping of glycoside hydrolase (GH) genes of BG-L47 and BB536 revealed many GHs associated with plant-fiber utilization. However, BG-L47 had a broader phenotypic fiber utilization capacity. In addition, B. longum subsp. longum cells boosted the bioactivity of extracellular membrane vesicles (MV) produced by L. reuteri DSM 17938 during co-cultivation. Secreted 5'-nucleotidase (5'NT), an enzyme that converts AMP into the signal molecule adenosine, was increased in MV boosted by BG-L47. The MV exerted an improved antagonistic effect on the pain receptor transient receptor potential vanilloid 1 (TRPV1) and increased the expression of the immune development markers IL-6 and IL-1ß in a peripheral blood mononuclear cell (PBMC) model. Finally, the safety of BG-L47 was evaluated both by genome safety assessment and in a human safety study. Microbiota analysis showed that the treatment did not induce significant changes in the composition. In conclusion, B. longum subsp. longum BG-L47 has favorable physiological properties, can boost the in vitro activity of L. reuteri DSM 17938, and is safe for consumption, making it a candidate for further evaluation in probiotic studies., Importance: By using probiotics that contain a combination of strains with synergistic properties, the likelihood of achieving beneficial interactions with the host can increase. In this study, we first performed a broad screening of Bifidobacterium longum subsp. longum strains in terms of synergistic potential and physiological properties. We identified a superior strain, BG-L47, with favorable characteristics and potential to boost the activity of the known probiotic strain Limosilactobacillus reuteri DSM 17938. Furthermore, we demonstrated that BG-L47 is safe for consumption in a human randomized clinical study and by performing a genome safety assessment. This work illustrates that bacteria-bacteria interactions differ at the strain level and further provides a strategy for finding and selecting companion strains of probiotics., Competing Interests: L.E.L., G.G., S.H., C.L., and S.R. are employed by BioGaia AB.

Published

2024

12. Symbiotic Relationships

Author

Ciancio, Aurelio and Ciancio, Aurelio

Published

2016

13. Formation of adenovirus DNA replication compartments.

Author

Hidalgo, Paloma and Gonzalez, Ramón A.

Subjects

*VIRAL genomes, *DNA replication, *VIRAL replication, *CELL nuclei, *NUCLEAR structure, *GENE expression, *MACROMOLECULES

Abstract

Adenoviruses induce an extensive reorganization of the host cell nucleus during replication. Such a process results in the assembly of viral and cellular macromolecules into nuclear structures called adenovirus replication compartments (AdRCs), which function as platforms for viral DNA replication and gene expression. AdRCs co‐opt host proteins and cellular pathways that restrict viral replication, suggesting that the mechanisms that control AdRC formation and function are essential for viral replication and lay at the basis of virus–host interactions. Here, we review the hallmarks of AdRCs and recent progress in our understanding of the formation, composition, and function of AdRCs. Furthermore, we discuss how AdRCs facilitate the interplay between viral and cellular machineries and hijack cellular functions to promote viral genome replication and expression. [ABSTRACT FROM AUTHOR]

Published

2019

14. Ecoepidemiology and Potential Transmission of Vibrio cholerae among Different Environmental Niches: An Upcoming Threat in Egypt

Author

Eman M. Ismail, Mona Kadry, Esraa A. Elshafiee, Eman Ragab, Eman A. Morsy, Omar Rizk, and Manal M. Zaki

Subjects

cholera, ecoepidemiology, viable but not culturable (VBNC), latent endemicity, Nile River, host interactions, Medicine

Abstract

Cholera is a negative public health event caused by Vibrio cholerae. Although V. cholerae is abundant in natural environments, its pattern and transmission between different niches remain puzzling and interrelated. Our study aimed to investigate the occurrence of nonpathogenic V. cholerae in the natural environment during endemicity periods. It also aimed to highlight the role of molecular ecoepidemiology in mapping the routes of spread, transmission, and prevention of possible future cholera outbreaks. V. cholerae was detected in different aquatic environments, waterfowl, and poultry farms located along the length of the Nile River in Giza, Cairo, and Delta provinces, Egypt. After polymerase chain reaction amplification of the specific target outer membrane gene (Omp W) of suspected isolates, we performed sequence analysis, eventually using phylogenetic tree analysis to illustrate the possible epidemiological relationships between different sequences. Data revealed a significant variation in the physicochemical conditions of the examined Nile districts related to temporal, spatial, and anthropogenic activities. Moreover, data showed an evident association between V. cholerae and the clinically diseased Synodontis schall fish. We found that the environmental distress triggered by the salinity shift and elevated temperature in the Middle Delta of the Nile River affects the pathogenesis of V. cholerae, in addition to the characteristics of fish host inhabiting the Rosetta Branch at Kafr El-Zayat, El-Gharbia province, Egypt. In addition, we noted a significant relationship between V. cholerae and poultry sources that feed on the Nile dikes close to the examined districts. Sequence analysis revealed clustering of the waterfowl and broiler chicken isolates with human and aquatic isolated sequences retrieved from the GenBank databases. From the obtained data, we hypothesized that waterfowl act as a potential vector for the intermediate transmission of cholera. Therefore, continuous monitoring of Nile water quality and mitigation of Nile River pollution, in addition to following good managemental practices (GMPs), general hygienic guidelines, and biosecurity in the field of animal production and industry, might be the way to break this cyclic transmission between human, aquatic, and animal sectors.

Published

2021

15. Identification of New Factors Modulating Adhesion Abilities of the Pioneer Commensal Bacterium Streptococcus salivarius

Author

Benoit Couvigny, Saulius Kulakauskas, Nicolas Pons, Benoit Quinquis, Anne-Laure Abraham, Thierry Meylheuc, Christine Delorme, Pierre Renault, Romain Briandet, Nicolas Lapaque, and Eric Guédon

Subjects

adhesion gene, biofilm formation, aggregation, sedimentation, host interactions, commensal bacteria, Microbiology, QR1-502

Abstract

Biofilm formation is crucial for bacterial community development and host colonization by Streptococcus salivarius, a pioneer colonizer and commensal bacterium of the human gastrointestinal tract. This ability to form biofilms depends on bacterial adhesion to host surfaces, and on the intercellular aggregation contributing to biofilm cohesiveness. Many S. salivarius isolates auto-aggregate, an adhesion process mediated by cell surface proteins. To gain an insight into the genetic factors of S. salivarius that dictate host adhesion and biofilm formation, we developed a screening method, based on the differential sedimentation of bacteria in semi-liquid conditions according to their auto-aggregation capacity, which allowed us to identify twelve mutations affecting this auto-aggregation phenotype. Mutations targeted genes encoding (i) extracellular components, including the CshA surface-exposed protein, the extracellular BglB glucan-binding protein, the GtfE, GtfG and GtfH glycosyltransferases and enzymes responsible for synthesis of cell wall polysaccharides (CwpB, CwpK), (ii) proteins responsible for the extracellular localization of proteins, such as structural components of the accessory SecA2Y2 system (Asp1, Asp2, SecA2) and the SrtA sortase, and (iii) the LiaR transcriptional response regulator. These mutations also influenced biofilm architecture, revealing that similar cell-to-cell interactions govern assembly of auto-aggregates and biofilm formation. We found that BglB, CshA, GtfH and LiaR were specifically associated with bacterial auto-aggregation, whereas Asp1, Asp2, CwpB, CwpK, GtfE, GtfG, SecA2 and SrtA also contributed to adhesion to host cells and host-derived components, or to interactions with the human pathogen Fusobacterium nucleatum. Our study demonstrates that our screening method could also be used to identify genes implicated in the bacterial interactions of pathogens or probiotics, for which aggregation is either a virulence trait or an advantageous feature, respectively.

Published

2018

16. Complete genome sequence of Agrobacterium pusense VsBac-Y9, a bacterial symbiont of the dark septate endophytic fungus Veronaeopsis simplex Y34 with potential for improving fungal colonization in roots.

Author

Guo, Yong, Matsuoka, Yuuto, Miura, Takamasa, Nishizawa, Tomoyasu, Ohta, Hiroyuki, and Narisawa, Kazuhiko

Subjects

*NUCLEOTIDE sequencing, *AGROBACTERIUM, *ENDOPHYTIC fungi, *TRIM proteins, *SYMBIOSIS

Abstract

Highlights • The first complete genome sequence of a bacterial symbiont Agrobacterium pusense VsBac-Y9 of the DSE fungus Veronaeopsis simplex Y34 is reported. • Co-inoculation of Y34 with VsBac-Y9 improve the fungal colonization in the tomato roots, resulting in a significant increase in the biomass. • The VsBac-Y9 genome contains a series of genes associated with the host interactions with both fungus and plant. • Genome analysis of A. pusense VsBac-Y9 is useful to develop novel co-inoculants of DSE fungi and rhizobacteria in future agricultural innovation. Abstract A Rhizobium -related bacterium (Rhizobium sp. VsBac-Y9) is a symbiont living with the dark septate endophytic (DSE) fungus Veronaeopsis simplex Y34. Co-inoculation of Rhizobium sp. VsBac-Y9 with V. simplex Y34 improves the fungal colonization of tomato roots, resulting in a significant increase in aboveground biomass. This study sequenced the complete genome of this V. simplex -helper bacterium using the PacBio and Illumina MiSeq platforms. Hybrid assembly using SPAdes outputted a circular chromosome, a linear chromid, and a circular plasmid for a total genome 5,321,211 bp in size with a G + C content of 59.2%. Analysis of concatenated housekeeping genes (atpD-dnaK-groEL-lepA-recA-rpoB-thrE) and calculation of average nucleotide identity, showed that VsBac-Y9 was affiliated with the species Agrobacterium pusense (syn. Rhizobium pusense). Genome analysis revealed that A. pusense VsBac-Y9 contains a series of genes responsible for the host interactions with both fungus and plant. Such genomic information will provide new insights into developing co-inoculants of endophytic fungus and its symbiotic bacterium in future agricultural innovation. [ABSTRACT FROM AUTHOR]

Published

2018

17. Interactions between metabolically active bacteria and host gene expression at the cecal mucosa in pigs of diverging feed efficiency.

Author

Metzler-Zebeli, Barbara U, Lawlor, Peadar G, Magowan, Elizabeth, and Zebeli, Qendrim

Subjects

*MUCOSAL diseases in cattle, *GUT microbiome, *SWINE nutrition, *INCRETINS, *IMMUNE response, *ESCHERICHIA

Abstract

Little is known about the role of the gut mucosal microbiota and microbe–host signaling in the variation of pig’s feed efficiency (FE). This study therefore aimed to investigate the FE-related differences in the metabolically active mucosal bacterial microbiota and expression of genes for innate immune response, barrier function, nutrient uptake, and incretins in the cecum of finishing pigs. Pigs (n = 72) were ranked for their residual feed intake (RFI; metric for FE) between days 42 and 91 postweaning and were stratified within litter and sex into high (HRFI; n = 8) and low RFI (LRFI; n = 8). Cecal mucosa and digesta were collected on day 137–141 of life. After isolating total RNA from the mucosa, the RNA was transcribed into cDNA which was used for gene expression analysis, total bacterial quantification, and high-throughput sequencing (Illumina MiSeq) of the hypervariable V3-V4 region of the 16S rRNA gene. The RFI differed by 2.1 kg between low RFI (LRFI; good FE) and high RFI (HRFI; poor FE) pigs (P < 0.001). The cecal mucosa was mainly colonized by Helicobacteraceae, Campylobacteraceae, Veillonellaceae, Lachnospiraceae, and Prevotellaceae. Despite the lack of differences in microbial diversity and absolute abundance, RFI-associated compositional differences were found. The predominant genus Campylobacter tended (P < 0.10) to be 0.4-fold more abundant in LRFI pigs, whereas low abundant Escherichia/Shigella (P < 0.05), Ruminobacter (P < 0.05), and Veillonella (P < 0.10) were 3.4-, 6.6-, and 4.4-fold less abundant at the cecal mucosa of LRFI compared to HRFI pigs. Moreover, mucin 2 and zona occludens-1 were less expressed (P < 0.05) in the cecal mucosa of LRFI compared to HRFI pigs. Cecal mucosal expression of monocarboxylate transporter-1, glucagon-like peptide-1, and peptide YY further tended (P < 0.10) to be downregulated in LRFI compared to HRFI pigs, indicating an enhanced VFA uptake and signaling in HRFI pigs. Sparse partial least square regression and relevance networking support the hypothesis that certain mucosal bacteria and luminal microbial metabolites were more associated than others with differences in RFI and cecal gene expression. However, present results do not allow the determination of whether mucosal bacterial changes contributed to variation in FE or were rather a consequence of FE-related changes in the pig’s physiology or feeding behavior. [ABSTRACT FROM AUTHOR]

Published

2018

18. Identification of New Factors Modulating Adhesion Abilities of the Pioneer Commensal Bacterium Streptococcus salivarius.

Author

Couvigny, Benoit, Kulakauskas, Saulius, Pons, Nicolas, Quinquis, Benoit, Abraham, Anne-Laure, Meylheuc, Thierry, Delorme, Christine, Renault, Pierre, Briandet, Romain, Lapaque, Nicolas, and Guédon, Eric

Subjects

BACTERIAL adhesion, BACTERIAL typing, STREPTOCOCCUS salivarius

Abstract

Biofilm formation is crucial for bacterial community development and host colonization by Streptococcus salivarius, a pioneer colonizer and commensal bacterium of the human gastrointestinal tract. This ability to form biofilms depends on bacterial adhesion to host surfaces, and on the intercellular aggregation contributing to biofilm cohesiveness. Many S. salivarius isolates auto-aggregate, an adhesion process mediated by cell surface proteins. To gain an insight into the genetic factors of S. salivarius that dictate host adhesion and biofilm formation, we developed a screening method, based on the differential sedimentation of bacteria in semi-liquid conditions according to their auto-aggregation capacity, which allowed us to identify twelve mutations affecting this auto-aggregation phenotype. Mutations targeted genes encoding (i) extracellular components, including the CshA surface-exposed protein, the extracellular BglB glucan-binding protein, the GtfE, GtfG and GtfH glycosyltransferases and enzymes responsible for synthesis of cell wall polysaccharides (CwpB, CwpK), (ii) proteins responsible for the extracellular localization of proteins, such as structural components of the accessory SecA2Y2 system (Asp1, Asp2, SecA2) and the SrtA sortase, and (iii) the LiaR transcriptional response regulator. These mutations also influenced biofilm architecture, revealing that similar cell-to-cell interactions govern assembly of auto-aggregates and biofilm formation. We found that BglB, CshA, GtfH and LiaR were specifically associated with bacterial auto-aggregation, whereas Asp1, Asp2, CwpB, CwpK, GtfE, GtfG, SecA2 and SrtA also contributed to adhesion to host cells and host-derived components, or to interactions with the human pathogen Fusobacterium nucleatum. Our study demonstrates that our screening method could also be used to identify genes implicated in the bacterial interactions of pathogens or probiotics, for which aggregation is either a virulence trait or an advantageous feature, respectively. [ABSTRACT FROM AUTHOR]

Published

2018

19. Latitudinal influence on gametogenesis and host–parasite ecology in a marine bivalve model

Author

Rebecca E Laffan, Kate E. Mahony, Sarah C. Culloty, Sharon A. Lynch, Simão Correia, Rosa Freitas, Sian Egerton, Xavier de Montaudouin, and Nathalie Mesmer-Dudons

Subjects

0106 biological sciences, Cerastoderma edule, media_common.quotation_subject, Population, parasite&#8211, spatial variation, Biology, 010603 evolutionary biology, 01 natural sciences, Latitude, reproduction, 03 medical and health sciences, trematodes, 14. Life underwater, Cockle, education, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Shellfish, Original Research, 030304 developmental biology, Nature and Landscape Conservation, media_common, host interactions, parasite–host interactions, 0303 health sciences, education.field_of_study, Ecology, Host (biology), latitude, biology.organism_classification, shellfish, fisheries, boom and bust, cockles, Spatial variability, Reproduction

Abstract

Reproduction and parasites have significant impacts on marine animal populations globally. This study aimed to investigate the associative effects of host reproduction and a host–parasite interplay on a marine bivalve, along a geographic gradient of latitude. Cockles Cerastoderma edule were sampled from five European sites (54°N to 40°N), between April 2018 and October 2019. A histological survey provided data on trematode (metacercaria and sporocyst life stages), prevalence, and cockle stage of gametogenesis to assess the influence of a latitudinal gradient on both interplays. Sex ratios at the northernmost sites were skewed toward females, and spawning size was reduced at the lower latitudes. Trematode infection did not follow a latitudinal gradient. Localized site‐related drivers, namely seawater temperature, varied spatially, having an impact on cockle–trematode interactions. Spawning was related to elevated temperatures at all sites. Prolonged spawning occurred at southern latitudes, where seawater temperatures were warmer. Trematode prevalence and the impact of trematodes on gametogenesis were found to be spatially variable, but not latitudinally. Therefore, it is not possible to determine the likelihood of boom and bust events in cockles, based on the latitudinal location of a population. In terms of sublethal impacts, it appeared that energy was allocated to reproduction rather than somatic growth in southern populations, with less energy allocated to reproduction in the larger, northern cockles. The demonstrated spatial trend of energy allocation indicates the potential of a temporal trend of reduced cockle growth at northern sites, as a result of warming sea temperatures. This awareness of the spatially varying drivers of populations is crucial considering the potential for these drivers/inhibitors to be exacerbated in a changing marine environment., A European‐wide field study was conducted on parasitism and reproduction in Cerastoderma edule, an ecologically and economically important bivalve. Spatially varying health status of cockles resulted from localized drivers and allocation of energy to reproduction rather than growth at southern locations. Of particular importance was the influence of seawater temperature, with prolonged spawning at southern, warmer sites.

Published

2021

20. Infection kinetics, phylogenetics, and host interactions of bacteriophages

Author

Koonjan, Shazeeda and Koonjan, Shazeeda

Abstract

Bacteriophages, or as they are most commonly referred to as phages, are viruses which are capable of infecting bacteria. They are environmentally plenty, found everywhere from the ground we walk on to contributing to our microbiome. They are highly diverse, coming in various sizes, shapes, and genomic compositions. Compared to animal viruses, phages have larger genomes that are highly mosaic, with different segments having diverse evolutionary backgrounds. Around 96% of all phages found are tailed phages with double stranded DNA genomes, belonging to the order Caudovirales. Phage infection can be categorized into three stages; adsorption whereby the phage attaches to its host bacterial cell wall followed by the maturation and lysis stages, whereby a phage primarily replicates either via the lytic (i.e. progressively take over bacterial transcription machinery and materials in favor of its own and results in bacterial lysis) or the lysogenic cycle (i.e. integration of its genome into the host genome). As phages are ubiquitous and require a bacterial host for replication, it is not surprising that they interact with their surrounding environments and other phages (e.g. influencing global nutrient cycling as well as affecting bacterial pathogenicity), constantly coevolving. With the continuing rise in antibiotic resistance and dawning of the “post-antibiotic” era, there has been renewed interest in phage research and their therapeutic potential. However, there are many obstacles that must be overcome before phages can reach clinical settings and be widely applied (e.g. regulatory issues and phage pharmacology). The main element behind these obstacles is a phage’s inherent biology. As such, this thesis aimed to improve the understanding of phage biology by addressing specific components such as infection kinetics, phylogenetics, and host interactions. In Papers I and II, phages vB_EcoD_SU57 (SU57) and vB_EcoP_SU7 (SU7) were characterized based on their infection kinetic

Published

2022

21. Immunopathogenesis and Virus--Host Interactions of Enterovirus 71 in Patients with Hand, Foot and Mouth Disease.

Author

Cox, Jonathan A., Hiscox, Julian A., Solomon, Tom, Mong-How Ooi, and Ng, Lisa F. P.

Subjects

HAND, foot & mouth disease, IMMUNOPATHOLOGY, PATHOGENICITY of enteroviruses

Abstract

Enterovirus 71 (EV71) is a global infectious disease that affects millions of people. The virus is the main etiological agent for hand, foot, and mouth disease with outbreaks and epidemics being reported globally. Infection can cause severe neurological, cardiac, and respiratory problems in children under the age of 5. Despite on-going efforts, little is known about the pathogenesis of EV71, how the host immune system responds to the virus and the molecular mechanisms behind these responses. Moreover, current animal models remain limited, because they do not recapitulate similar disease patterns and symptoms observed in humans. In this review the role of the host--viral interactions of EV71 are discussed together with the various models available to examine: how EV71 utilizes its proteins to cleave host factors and proteins, aiding virus replication; how EV71 uses its own viral proteins to disrupt host immune responses and aid in its immune evasion. These discoveries along with others, such as the EV71 crystal structure, have provided possible targets for treatment and drug interventions. [ABSTRACT FROM AUTHOR]

Published

2017

22. Expression of eukaryotic-like protein in the microbiome of sponges.

Author

Díez‐Vives, C., Moitinho‐Silva, L., Nielsen, S., Reynolds, D., and Thomas, T.

Subjects

*EUKARYOTIC cells, *PROKARYOTES, *SPONGES (Invertebrates), *HOSTS (Biology), *RIBOSOMAL RNA, *SYMBIOSIS

Abstract

Eukaryotic-like proteins ( ELPs) are classes of proteins that are found in prokaryotes, but have a likely evolutionary origin in eukaryotes. ELPs have been postulated to mediate host-microbiome interactions. Recent work has discovered that prokaryotic symbionts of sponges contain abundant and diverse genes for ELPs, which could modulate interactions with their filter-feeding and phagocytic host. However, the extent to which these ELP genes are actually used and expressed by the symbionts is poorly understood. Here, we use metatranscriptomics to investigate ELP expression in the microbiomes of three different sponges ( Cymbastella concentrica, Scopalina sp. and Tedania anhelens). We developed a workflow with optimized rRNA removal and in silico subtraction of host sequences to obtain a reliable symbiont metatranscriptome. This showed that between 1.3% and 2.3% of all symbiont transcripts contain genes for ELPs. Two classes of ELPs (cadherin and tetratricopeptide repeats) were abundantly expressed in the C. concentrica and Scopalina sp. microbiomes, while ankyrin repeat ELPs were predominant in the T. anhelens metatranscriptome. Comparison with transcripts that do not encode ELPs indicated a constitutive expression of ELPs across a range of bacterial and archaeal symbionts. Expressed ELPs also contained domains involved in protein secretion and/or were co-expressed with proteins involved in extracellular transport. This suggests these ELPs are likely exported, which could allow for direct interaction with the sponge. Our study shows that ELP genes in sponge symbionts represent actively expressed functions that could mediate molecular interaction between symbiosis partners. [ABSTRACT FROM AUTHOR]

Published

2017

23. Zinc Cluster Transcription Factors Alter Virulence in Candida albicans.

Author

Issi, Luca, Farrer, Rhys A., Pastor, Kelly, Landry, Benjamin, Delorey, Toni, Bell, George W., Thompson, Dawn A., Cuomo, Christina A., and Rao, Reeta P.

Subjects

*FUNGAL virulence, *CANDIDA albicans, *TRANSCRIPTION factors, *OXIDATIVE stress, *PHAGOCYTES

Abstract

Almost all humans are colonized with Candida albicans. However, in immunocompromised individuals, this benign commensal organism becomes a serious, life-threatening pathogen. Here, we describe and analyze the regulatory networks that modulate innate responses in the host niches. We identified Zcf15 and Zcf29, two Zinc Cluster transcription Factors (ZCF) that are required for C. albicans virulence. Previous sequence analysis of clinical C. albicans isolates from immunocompromised patients indicates that both ZCF genes diverged during clonal evolution. Using in vivo animal models, ex vivo cell culture methods, and in vitro sensitivity assays, we demonstrate that knockout mutants of both ZCF15 and ZCF29 are hypersensitive to reactive oxygen species (ROS), suggesting they help neutralize the host-derived ROS produced by phagocytes, as well as establish a sustained infection in vivo. Transcriptomic analysis of mutants under resting conditions where cells were not experiencing oxidative stress revealed a large network that control macro and micronutrient homeostasis, which likely contributes to overall pathogen fitness in host niches. Under oxidative stress, both transcription factors regulate a separate set of genes involved in detoxification of ROS and down-regulating ribosome biogenesis. ChIP-seq analysis, which reveals vastly different binding partners for each transcription factor (TF) before and after oxidative stress, further confirms these results. Furthermore, the absence of a dominant binding motif likely facilitates their mobility, and supports the notion that they represent a recent expansion of the ZCF family in the pathogenic Candida species. Our analyses provide a framework for understanding new aspects of the interface between C. albicans and host defense response, and extends our understanding of how complex cell behaviors are linked to the evolution of TFs. [ABSTRACT FROM AUTHOR]

Published

2017

24. SARS-CoV-2-Encoded Proteome and Human Genetics: From Interaction-Based to Ribosomal Biology Impact on Disease and Risk Processes

Author

Jacob Bauss, Caleb Bupp, Tom Freeland, Jeremy W. Prokop, Olivia Sirpilla, Ruchir Gupta, Joseph A. Carcillo, Nicholas L. Hartog, Surender Rajasekaran, Dinah Qutob, and Adam Underwood

Subjects

nonsense-mediated decay, 0301 basic medicine, Proteome, viruses, Pneumonia, Viral, Nonsense-mediated decay, nucleocapsid, Reviews, viral-induced genetics, Disease, Computational biology, Biology, Proteomics, Biochemistry, Virus, Transcriptome, transcriptomics, Betacoronavirus, Viral Proteins, 03 medical and health sciences, proteomics, Databases, Genetic, medicine, risk factors, Humans, Pandemics, host interactions, 030102 biochemistry & molecular biology, SARS-CoV-2, Gene Expression Profiling, COVID-19, General Chemistry, medicine.disease, Human genetics, 030104 developmental biology, Host-Pathogen Interactions, Coronavirus Infections, Cytokine storm, Ribosomes

Abstract

SARS-CoV-2 (COVID-19) has infected millions of people worldwide, with lethality in hundreds of thousands. The rapid publication of information, both regarding the clinical course and the viral biology, has yielded incredible knowledge of the virus. In this review, we address the insights gained for the SARS-CoV-2 proteome, which we have integrated into the Viral Integrated Structural Evolution Dynamic Database, a publicly available resource. Integrating evolutionary, structural, and interaction data with human proteins, we present how the SARS-CoV-2 proteome interacts with human disorders and risk factors ranging from cytokine storm, hyperferritinemic septic, coagulopathic, cardiac, immune, and rare disease-based genetics. The most noteworthy human genetic potential of SARS-CoV-2 is that of the nucleocapsid protein, where it is known to contribute to the inhibition of the biological process known as nonsense-mediated decay. This inhibition has the potential to not only regulate about 10% of all biological transcripts through altered ribosomal biology but also associate with viral-induced genetics, where suppressed human variants are activated to drive dominant, negative outcomes within cells. As we understand more of the dynamic and complex biological pathways that the proteome of SARS-CoV-2 utilizes for entry into cells, for replication, and for release from human cells, we can understand more risk factors for severe/lethal outcomes in patients and novel pharmaceutical interventions that may mitigate future pandemics.

Published

2020

25. Identification of Dual Receptor Binding Protein Systems in Lactococcal 936 Group Phages

Author

Stephen Hayes, Yoan Duhoo, Horst Neve, James Murphy, Jean-Paul Noben, Charles M. A. P. Franz, Christian Cambillau, Jennifer Mahony, Arjen Nauta, and Douwe van Sinderen

Subjects

virus, lactic acid bacteria, structure, host interactions, Microbiology, QR1-502

Abstract

Siphoviridae of the lactococcal 936 group are the most commonly encountered bacteriophages in the dairy processing environment. The 936 group phages possess a discrete baseplate at the tip of their tail—a complex harbouring the Receptor Binding Protein (RBP) which is responsible for host recognition and attachment. The baseplate-encoding region is highly conserved amongst 936 phages, with 112 of 115 publicly available phages exhibiting complete synteny. Here, we detail the three exceptions (Phi4.2, Phi4R15L, and Phi4R16L), which differ from this genomic architecture in possessing an apparent second RBP-encoding gene upstream of the “classical„ rbp gene. The newly identified RBP possesses an elongated neck region relative to currently defined 936 phage RBPs and is genetically distinct from defined 936 group RBPs. Through detailed characterisation of the representative phage Phi4.2 using a wide range of complementary techniques, we demonstrated that the above-mentioned three phages possess a complex and atypical baseplate structure. Furthermore, the presence of both RBPs in the tail tip of the mature virion was confirmed, while the anticipated host-binding capabilities of both proteins were also verified.

Published

2018

26. Secretion Systems and Secreted Proteins in Gram-Negative Entomopathogenic Bacteria: Their Roles in Insect Virulence and Beyond

Author

Rebecca McQuade and S. Patricia Stock

Subjects

secretion systems, Gram-negative bacteria, host interactions, entomopathogens, Science

Abstract

Many Gram-negative bacteria have evolved insect pathogenic lifestyles. In all cases, the ability to cause disease in insects involves specific bacterial proteins exported either to the surface, the extracellular environment, or the cytoplasm of the host cell. They also have several distinct mechanisms for secreting such proteins. In this review, we summarize the major protein secretion systems and discuss examples of secreted proteins that contribute to the virulence of a variety of Gram-negative entomopathogenic bacteria, including Photorhabdus, Xenorhabdus, Serratia, Yersinia, and Pseudomonas species. We also briefly summarize two classes of exported protein complexes, the PVC-like elements, and the Tc toxin complexes that were first described in entomopathogenic bacteria.

Published

2018

27. The recombinant LIC10508 is a plasma fibronectin, plasminogen, fibrinogen and C4BP-binding protein of Leptospira interrogans.

Author

Siqueira, Gabriela H., Teixeira, Aline F., Fernandes, Luis G., de Souza, GiseleO., Kirchgatter, Karin, Romero, Eliete C., Vasconcellos, Silvio A., Vieira, Monica L., and Nascimento, Ana LuciaT.O.

Subjects

*FIBRONECTINS, *PLASMINOGEN, *FIBRINOGEN, *LEPTOSPIRA interrogans, *CARRIER proteins, *BLOOD testing

Abstract

Leptospirosis is a zoonosis caused by pathogenic Leptospira spp. In this study, we report that the recombinant proteins LIC10507, LIC10508 and LIC10509 are recognized by confirmed leptospirosis serum samples at both phases of the disease. The recombinant rLIC10508 and rLIC10507 are plasminogen (PLG)-binding proteins, capable of generating plasmin in the presence of a PLG activator. The proteins bind to PLG in a dose-dependent and saturable manner, fulfilling host-ligand interaction. Furthermore, rLIC10508 interacts with fibrinogen (Fg), plasma fibronectin and C4b binding protein (C4BP). The binding of rLIC10508 to Fg decreases the fibrin clotting in a thrombin-catalyzed reaction. The incubation with 4 μM of protein promoted 40% inhibition upon clotting formation. C4BP bound to rLIC10508 retained its cofactor activity for factor I promoting the cleavage of C4b protein, which may reduce the membrane attack complex formation. Although these proteins have high amino acid sequence similarity, rLIC10508 is the most talented of the three, a behavior that might be explained by its unique putative 3D structure, whereas structures of rLIC10507 and rLIC10509 are very similar. Plasmin generation (rLIC10507 and rLIC10508), together with decreasing fibrin clot formation (rLIC10508) and impairment of the complement system (rLIC10508) may help the bacteria to overcome host defense, facilitating the infection process. [ABSTRACT FROM AUTHOR]

Published

2016

28. Latitudinal influence on gametogenesis and host–parasite ecology in a marine bivalve model

Author

Mahony, Kate E., Lynch, Sharon A., Egerton, Sian, Laffan, Rebecca E., Correia, Simão, De Montaudouin, Xavier, Mesmer‐dudons, Nathalie, Freitas, Rosa, Culloty, Sarah C., Mahony, Kate E., Lynch, Sharon A., Egerton, Sian, Laffan, Rebecca E., Correia, Simão, De Montaudouin, Xavier, Mesmer‐dudons, Nathalie, Freitas, Rosa, and Culloty, Sarah C.

Abstract

Reproduction and parasites have significant impacts on marine animal populations globally. This study aimed to investigate the associative effects of host reproduction and a host–parasite interplay on a marine bivalve, along a geographic gradient of latitude. Cockles Cerastoderma edule were sampled from five European sites (54°N to 40°N), between April 2018 and October 2019. A histological survey provided data on trematode (metacercaria and sporocyst life stages), prevalence, and cockle stage of gametogenesis to assess the influence of a latitudinal gradient on both interplays. Sex ratios at the northernmost sites were skewed toward females, and spawning size was reduced at the lower latitudes. Trematode infection did not follow a latitudinal gradient. Localized site‐related drivers, namely seawater temperature, varied spatially, having an impact on cockle–trematode interactions. Spawning was related to elevated temperatures at all sites. Prolonged spawning occurred at southern latitudes, where seawater temperatures were warmer. Trematode prevalence and the impact of trematodes on gametogenesis were found to be spatially variable, but not latitudinally. Therefore, it is not possible to determine the likelihood of boom and bust events in cockles, based on the latitudinal location of a population. In terms of sublethal impacts, it appeared that energy was allocated to reproduction rather than somatic growth in southern populations, with less energy allocated to reproduction in the larger, northern cockles. The demonstrated spatial trend of energy allocation indicates the potential of a temporal trend of reduced cockle growth at northern sites, as a result of warming sea temperatures. This awareness of the spatially varying drivers of populations is crucial considering the potential for these drivers/inhibitors to be exacerbated in a changing marine environment.

Published

2021

29. Protein interaction prediction on PHI networks using graph convolution networks

Author

Koca, Mehmet Burak, Karadeniz, İlknur, Nourani, Esmaeil, Sevilgen, Fatih Erdoğan, Işık Üniversitesi, Mühendislik Fakültesi, Bilgisayar Mühendisliği Bölümü, Işık University, Faculty of Engineering, Department of Computer Engineering, and Karadeniz, İlknur

Subjects

PHI ağlar, Signal processing, Protein-protein interaction prediction, Biyoinformatik, Interaction networks, Bioinformatics, Host interactions, Protein-protein interactions, Protein interaction, Arts computing, Çizge evrişim ağları, Proteins, PHI networks, Topology, Convolution, Biological molecule, Amino acid sequence, Topological information, Biological process, Protein-protein etkileşim tahmini, Graph convolution networks, Forecasting

Abstract

Proteinler yaşamsal faaliyetlerin gerçekleşmesinde kritik rol oynayan biyolojik moleküllerdir. Konak canlı proteinleri ile patojen proteinleri arasındaki etkileşimler patojenkonak etkileşim (PHI) ağlarını oluşturmaktadır. Bu iki parçalı etkileşim ağları patojenin hangi yaşamsal faaliyetleri etkilediğini belirlemede ve dolayısıyla sebep olabileceği hastalıkların tespitinde büyük öneme sahiptir. Proteinler arası etkileşimlerin laboratuvar ortamında tespiti hem zaman alıcı hem de maliyetlidir. Deneysel olarak saptanabilen etkileşim sayısının kısıtlı olması ve bazı etkileşimlerin gözden kaçması hesaplamalı tahmin yöntemlerinin geliştirilmesine önayak olmaktadır. Bu çalışmada PHI ağlarında protein etkileşim tahmini yapmayı sağlayan çizge evrişim ağı (GCN) tabanlı bir yöntem sunulmaktadır. Gözetimsiz olarak eğitilen GCN modeli (GraphSAGE) topolojik bilginin yanı sıra temel öznitelik olarak amino asit dizilimlerini kullanmaktadır. Bu çalışma bildiğimiz kadarıyla PHI ağlarında GCN tabanlı etkileşim tahmini sağlayan ilk çalışmadır. Deneysel sonuçlar geliştirilen modelin kıyaslama için kullanılan PHI veri seti üzerinde yüksek performanslı algoritmalardan %10 daha iyi performans göstererek %96 oranında doğrulukla etkileşim tahmini yaptığını göstermektedir. Proteins are biological molecules that play a critical role in vital biological processes. Interactions between pathogen proteins and host proteins form pathogen-host interaction (PHI) networks. These bipartite interaction networks have great importance in determining which vital activities are affected by the pathogen and the diseases it may cause. Experimental detection of the protein interactions in wet labs is both timeconsuming and costly. The limited number of experimentally detectable interactions and overlook of some potential interactions lead to development of computational methods. In this study, a graph convolution network (GCN) based method is presented that enables to predict protein-protein interactions in PHI networks. The unsupervised trained GCN model (GraphSAGE) uses amino acid sequences as node features as well as the topological information. This is the first study to the best of our knowledge which provides GCN models to do protein-protein interaction prediction in PHI networks. The experimental results show that the developed model performs 10% better than the state-of-art algorithms on the benchmark PHI dataset and it predicts interactions with 96% accuracy. Publisher's Version

Published

2021

30. Phage-host interactions in Streptococcus thermophilus

Author

Lavelle, Katherine, Mahony, Jennifer, and van Sinderen, Douwe

Subjects

Host interactions, food and beverages, Cell wall polysaccharide, Bacteriophage, Dairy fermentation

Abstract

Streptococcus thermophilus is a Gram-positive, ovococcoid bacterium which belongs to the biotechnologically important Lactic Acid Bacteria. S. thermophilus is subject to heavy industrial, and indeed, artisanal use for the production of fermented milk products including yogurt and various cheeses. Such extensive application exposes this economically important species to (bacterio)phage predation which may lead to compromised product quality, delayed production schedules and, consequently, financial losses. Phages of S. thermophilus belong to one of five known groups – cos (now termed Moineauvirus), pac (now termed Brussowvirus), 987, 5093 and P738. While the Moineauvirus and Brussowvirus phage species have retained dominance in industrial production settings, recent biodiversity studies have confirmed increasing incidences of 987 and 5093 species isolation, highlighting the rapid circulation of S. thermophilus phages, once established on a proficient host. Further to this, the 987, 5093 and P738 species have emerged through recombination events with phages capable of infecting other ovococcal species (such as Lactococcus lactis and pathogenic streptococci), highlighting the rapid evolutionary ability of S. thermophilus siphophages. To protect against this persistent and ever evolving risk of phage proliferation, it is necessary to elucidate the molecular players – both host and phage encoded - which underpin the phage-host interaction process of S. thermophilus. In this thesis, a detailed scientific investigation into molecular aspects of the phage- host interaction process between S. thermophilus, and its phages was undertaken. This investigation commenced with an extensive phage screen to assess S. thermophilus phage diversity and was followed by a detailed bioinformatic analysis of the proteins that form part of the host recognition device of selected phages, prompting a re-classification of the overall baseplate structure of S. thermophilus Moineauvirus and Brussowvirus phages. The scientific efforts described above were followed by the generation of non- CRISPR mediated bacteriophage insensitive mutants, which were subjected to genomic analysis. This allowed the identification of cell wall polysaccharide- associated genes which are critical to facilitate phage infection. Subsequently, the genomic locus which encodes the rhamnose containing cell wall polysaccharides of various S. thermophilus strains was assessed for its diversity and gene content, with assigned putative functions allowing for the establishment of a biosynthesis pathway for this polymeric cell wall-associated glycan, designated here as Rgp, in this species. Finally, the biochemical structure of the Rgp isolated from representative strains of S. thermophilus was elucidated allowing for a genome to structure relationship to be established, while also enhancing our understanding of phage-host interactions in this species, thereby allowing parallels to be drawn concerning phage-host interactions that occur among members of ovococcoid species.

Published

2021

31. The Candida glabrata Parent Strain Trap: How Phenotypic Diversity Affects Metabolic Fitness and Host Interactions.

Author

Usher J, Ribeiro GF, and Childers DS

Subjects

Fungal Proteins genetics, Reproducibility of Results, Phenotype, Virulence Factors, Candida glabrata genetics, Candidiasis microbiology

Abstract

Reference strains improve reproducibility by standardizing observations and methodology, which has ultimately led to important insights into fungal pathogenesis. However, recent investigations have highlighted significant genotypic and phenotypic heterogeneity across isolates that influence genetic circuitry and virulence within a species. Candida glabrata is the second leading cause of candidiasis, a life-threatening infection, and undergoes extensive karyotype and phenotypic changes in response to stress. Much of the work conducted on this pathogen has focused on two sequenced strains, CBS138 (ATCC 2001) and BG2. Few studies have compared these strains in detail, but key differences include mating type and altered patterns of expression of EPA adhesins. In fact, most C. glabrata isolates and BG2 are MATa , while CBS138 is MATα . However, it is not known if other phenotypic differences between these strains play a role in our understanding of C. glabrata pathogenesis. Thus, we set out to characterize metabolic, cell wall, and host-interaction attributes for CBS138 and BG2. We found that BG2 utilized a broader range of nitrogen sources and had reduced cell wall size and carbohydrate exposure than CBS138, which we hypothesized results in differences in innate immune interactions and virulence. We observed that, although both strains were phagocytosed to a similar extent, BG2 replicated to higher numbers in macrophages and was more virulent during Galleria mellonella infection than CBS138 in a dose-dependent manner. Interestingly, deletion of SNF3 , a major nutrient sensor, did not affect virulence in G. mellonella for BG2, but significantly enhanced larval killing in the CBS138 background compared to the parent strain. Understanding these fundamental differences in metabolism and host interactions will allow more robust conclusions to be drawn in future studies of C. glabrata pathogenesis. IMPORTANCE Reference strains provide essential insights into the mechanisms underlying virulence in fungal pathogens. However, recent studies in Candida albicans and other species have revealed significant genotypic and phenotypic diversity within clinical isolates that are challenging paradigms regarding key virulence factors and their regulation. Candida glabrata is the second leading cause of candidiasis, and many studies use BG2 or CBS138 for their investigations. Therefore, we aimed to characterize important virulence-related phenotypes for both strains that might alter conclusions about C. glabrata pathogenesis. Our study provides context for metabolic and cell wall changes and how these may influence host interaction phenotypes. Understanding these differences is necessary to support robust conclusions about how virulence factors may function in these and other very different strain backgrounds.

Published

2023

32. Editorial: Microbiome and human host interactions and their implications on human health.

Author

Leo J, Chong CW, Pribowo AY, Sutejo R, and Lee JWJ

Abstract

Competing Interests: JL is a co-founder of AMILI and serves as a member of the scientific advisory board. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2023

33. Ecoepidemiology and Potential Transmission of Vibrio cholerae among Different Environmental Niches: An Upcoming Threat in Egypt

Author

Esraa A. Elshafiee, Eman M. Ismail, Mona Kadry, Eman A Morsy, Eman A. Ragab, Omar Rizk, and Manal M. Zaki

Subjects

Microbiology (medical), 030231 tropical medicine, Biosecurity, lcsh:Medicine, Zoology, cholera, Omp W gene, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Article, 03 medical and health sciences, 0302 clinical medicine, viable but not culturable (VBNC), Synodontis, medicine, Waterfowl, Immunology and Allergy, Molecular Biology, 0105 earth and related environmental sciences, ecoepidemiology, Ecological niche, host interactions, General Immunology and Microbiology, biology, waterfowls, lcsh:R, Outbreak, biology.organism_classification, medicine.disease, Cholera, Infectious Diseases, latent endemicity, Vibrio cholerae, Vector (epidemiology), good managemental practices, Nile River

Abstract

Cholera is a negative public health event caused by Vibrio cholerae. Although V. cholerae is abundant in natural environments, its pattern and transmission between different niches remain puzzling and interrelated. Our study aimed to investigate the occurrence of nonpathogenic V. cholerae in the natural environment during endemicity periods. It also aimed to highlight the role of molecular ecoepidemiology in mapping the routes of spread, transmission, and prevention of possible future cholera outbreaks. V. cholerae was detected in different aquatic environments, waterfowl, and poultry farms located along the length of the Nile River in Giza, Cairo, and Delta provinces, Egypt. After polymerase chain reaction amplification of the specific target outer membrane gene (Omp W) of suspected isolates, we performed sequence analysis, eventually using phylogenetic tree analysis to illustrate the possible epidemiological relationships between different sequences. Data revealed a significant variation in the physicochemical conditions of the examined Nile districts related to temporal, spatial, and anthropogenic activities. Moreover, data showed an evident association between V. cholerae and the clinically diseased Synodontis schall fish. We found that the environmental distress triggered by the salinity shift and elevated temperature in the Middle Delta of the Nile River affects the pathogenesis of V. cholerae, in addition to the characteristics of fish host inhabiting the Rosetta Branch at Kafr El-Zayat, El-Gharbia province, Egypt. In addition, we noted a significant relationship between V. cholerae and poultry sources that feed on the Nile dikes close to the examined districts. Sequence analysis revealed clustering of the waterfowl and broiler chicken isolates with human and aquatic isolated sequences retrieved from the GenBank databases. From the obtained data, we hypothesized that waterfowl act as a potential vector for the intermediate transmission of cholera. Therefore, continuous monitoring of Nile water quality and mitigation of Nile River pollution, in addition to following good managemental practices (GMPs), general hygienic guidelines, and biosecurity in the field of animal production and industry, might be the way to break this cyclic transmission between human, aquatic, and animal sectors.

Published

2021

34. The Protective Effect of Staphylococcus epidermidis Biofilm Matrix against Phage Predation

Author

Joana Azeredo, Diana Vilas-Boas, Carina Almeida, Sanna Sillankorva, Nuno Cerca, Luís Daniel Rodrigues Melo, Graça Pinto, Fernando Eduardo Freitas Oliveira, and Universidade do Minho

Subjects

0301 basic medicine, Lysis, medicine.drug_class, 030106 microbiology, Antibiotics, lcsh:QR1-502, Colony Count, Microbial, Virulence, phage/host interactions, Matrix (biology), S. epidermidis, lcsh:Microbiology, Article, biofilm matrix, Microbiology, 03 medical and health sciences, Staphylococcus epidermidis, Virology, medicine, phage, Caudovirales, Biomass, epidermidis, host interactions, Science & Technology, biology, Chemistry, Extracellular Polymeric Substance Matrix, Biofilm, Biofilm matrix, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, 3. Good health, 030104 developmental biology, Infectious Diseases, Biofilms, Host-Pathogen Interactions, biofilms, Staphylococcus Phages, Bacteria

Abstract

Staphylococcus epidermidis is a major causative agent of nosocomial infections, mainly associated with the use of indwelling devices, on which this bacterium forms structures known as biofilms. Due to biofilms’ high tolerance to antibiotics, virulent bacteriophages were previously tested as novel therapeutic agents. However, several staphylococcal bacteriophages were shown to be inefficient against biofilms. In this study, the previously characterized S. epidermidis-specific Sepunavirus phiIBB-SEP1 (SEP1), which has a broad spectrum and high activity against planktonic cells, was evaluated concerning its efficacy against S. epidermidis biofilms. The in vitro biofilm killing assays demonstrated a reduced activity of the phage. To understand the underlying factors impairing SEP1 inefficacy against biofilms, this phage was tested against distinct planktonic and biofilm-derived bacterial populations. Interestingly, SEP1 was able to lyse planktonic cells in different physiological states, suggesting that the inefficacy for biofilm control resulted from the biofilm 3D structure and the protective effect of the matrix. To assess the impact of the biofilm architecture on phage predation, SEP1 was tested in disrupted biofilms resulting in a 2 orders-of-magnitude reduction in the number of viable cells after 6 h of infection. The interaction between SEP1 and the biofilm matrix was further assessed by the addition of matrix to phage particles. Results showed that the matrix did not inactivate phages nor affected phage adsorption. Moreover, confocal laser scanning microscopy data demonstrated that phage infected cells were less predominant in the biofilm regions where the matrix was more abundant. Our results provide compelling evidence indicating that the biofilm matrix can work as a barrier, allowing the bacteria to be hindered from phage infection., This study was supported by the Portuguese Foundation for Science and Technology (FCT)under the scope of the strategic funding of UIDB/04469/2020 unit, and Project PTDC/SAU-PUB/29182/2017 [POCI-01-0145-FEDER-029182]. This project received funding from the European Union’s Horizon 2020 researchand innovation programme under grant agreement No. 713640, info:eu-repo/semantics/publishedVersion

Published

2020

35. Microbiota and Malodor-Etiology and Management

Author

Izabella Mogilnicka, Pawel Bogucki, and Marcin Ufnal

Subjects

0301 basic medicine, Review, Gut flora, 01 natural sciences, Catalysis, lcsh:Chemistry, Inorganic Chemistry, 03 medical and health sciences, Methylamines, Flora (microbiology), Medicine, Animals, Humans, Physical and Theoretical Chemistry, Saliva, Sweat, lcsh:QH301-705.5, Molecular Biology, Spectroscopy, host interactions, Volatile Organic Compounds, malodor, biology, Bacteria, Sulfur Compounds, gut microbiota, business.industry, Microbiota, 010401 analytical chemistry, Organic Chemistry, General Medicine, Halitosis, dysbiosis, medicine.disease, biology.organism_classification, symbiosis, 0104 chemical sciences, Computer Science Applications, Body Fluids, Gastrointestinal Microbiome, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, Immunology, Host-Pathogen Interactions, Odorants, Etiology, business, Dysbiosis

Abstract

Accumulating evidence indicates that microbiota plays a critical role in physiological processes in humans. However, it might also contribute to body malodor by producing numerous odorous molecules such as ammonia, volatile sulfur compounds or trimethylamine. Although malodor is commonly overlooked by physicians, it constitutes a major problem for many otherwise healthy people. Thus, this review aims to investigate most common causes of malodor and describe potential therapeutic options. We searched PUBMED and Google Scholar databases to identify the clinical and pre-clinical studies on bad body smell, malodor, halitosis and microbiota. Unpleasant smell might originate from the mouth, skin, urine or reproductive fluids and is usually caused by odorants that are produced by resident bacterial flora. The accumulation of odorous compounds might result from diet, specific composition of microbiota, as well as compromised function of the liver, intestines and kidneys. Evidence-based guidelines for management of body malodor are lacking and no universal treatment exists. However, the alleviation of the symptoms may be achieved by controlling the diet and physical elimination of bacteria and/or accumulated odorants.

Published

2020

36. Bacterial extracellular vesicles and their novel therapeutic applications in health and cancer.

Author

Hosseini-Giv N, Basas A, Hicks C, El-Omar E, El-Assaad F, and Hosseini-Beheshti E

Subjects

Humans, Anti-Bacterial Agents metabolism, Gram-Negative Bacteria metabolism, Gram-Positive Bacteria metabolism, Extracellular Vesicles metabolism, Neoplasms therapy, Neoplasms metabolism

Abstract

Bacterial cells communicate with host cells and other bacteria through the release of membrane vesicles known as bacterial extracellular vesicles (BEV). BEV are established mediators of intracellular signaling, stress tolerance, horizontal gene transfer, immune stimulation and pathogenicity. Both Gram-positive and Gram-negative bacteria produce extracellular vesicles through different mechanisms based on cell structure. BEV contain and transfer different types of cargo such as nucleic acids, proteins and lipids, which are used to interact with and affect host cells such as cytotoxicity and immunomodulation. The role of these membranous microvesicles in host communication, intra- and inter-species cell interaction and signaling, and contribution to various diseases have been well demonstrated. Due to their structure, these vesicles can be easily engineered to be utilized for clinical application, as shown with its role in vaccine therapy, and could be used as a diagnostic and cancer drug delivery tool in the future. However, like other novel therapeutic approaches, further investigation and standardization is imperative for BEV to become a routine vector or a conventional treatment method., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Hosseini-Giv, Basas, Hicks, El-Omar, El-Assaad and Hosseini-Beheshti.)

Published

2022

37. Use of a Rabbit Soft Tissue Chamber Model to Investigate Campylobacter jejuni - Host Interactions

Author

Annika eFlint, James eButcher, Cyril eClarke, Denver eMarlow, and Alain eStintzi

Subjects

Campylobacter jejuni, Transcriptome, animal model, host interactions, Microbiology, QR1-502

Abstract

Despite the prevalence of C. jejuni as an important food borne pathogen, the microbial factors governing its infection process are poorly characterized. In this study, we developed a novel rabbit soft tissue chamber model to investigate C. jejuni interactions with its host. The in vivo transcriptome profile of C. jejuni was monitored as a function of time post-infection by competitive microarray hybridization with cDNA obtained from C. jejuni grown in vitro. Genome-wide expression analysis identified 449 genes expressed at significantly different levels in vivo. Genes implicated to play important roles in early colonization of C. jejuni within the tissue chamber include up-regulation of genes involved in ribosomal protein synthesis and modification, heat shock response, and primary adaptation to the host environment (DccSR regulon). Genes encoding proteins involved in the TCA cycle and flagella related components were found to be significantly down regulated during early colonization. Oxidative stress defense and stringent response genes were found to be maximally induced during the acute infectious phase. Overall, these findings reveal possible mechanisms involved in adaptation of Campylobacter to the host.

Published

2010

38. Biology of Scolytus subscaber (Coleoptera. Curculionidae: Scolytinae) in Grand Fir in Idaho.

Author

FURNISS, MALCOLM M. and KEGLEY, SANDRA

Subjects

*SCOLYTUS, *SCOLYTIDAE, *BEETLES, *ABIES grandis, *FIR

Abstract

We studied the biology of Scolytus subscaber LeConte (Coleoptera: Curculionidae: Scolytinae) in grand fir, Abies grandis (Douglas) Lindley, in northern Idaho. Presented are new Idaho distribution records, description of the mature larva and adult, biological features, characteristics of infestation and galleries, and natural control factors. The beetle has one generation per year, taking flight in July to infest live branches in the crowns of mature trees. The uniquely shaped egg gallery deeply scores the wood; its two arms curve inward like the Greek letter e. Eggs are laid along the outer edge of the gallery; hatched larvae mine hidden in the phloem for a short distance after which they mine next to the sapwood where they overwinter. A cerambycid, Tetropium abietis Fall, occurred often in the larger diameter portion of branches infested with S. subscaber. A scolytid, Scolytus abietis Blackman, also infested branches but not those containing S. subscaber. Mortality factors included a braconid parasitoid, Ecphylus arcuatus Muesebeck, on larvae and the flooding of egg galleries with resin evidently caused by defensive response of the host tree to a staining fungus, Spicaria anomala (Corda) Harz., carried by the beetle. In addition, we point out errors and lack of documentation concerning the identity, biology, and behavior of S. subscaber in secondary published sources. [ABSTRACT FROM AUTHOR]

Published

2011

39. A Vibrio cholerae protease needed for killing of Caenorhabditis elegans has a role in protection from natural predator grazing.

Author

Vaitkevicius, Karolis, Lindmark, Barbro, Gangwei Ou, Tianyan Song, Toma, Claudia, Iwanaga, Masaaki, Jun Zhu, Andersson, Agneta, Hammarström, Marie-Louise, Tuck, Simon, and Sun Nyunt Wai

Subjects

*VIBRIO cholerae, *PROTEOLYTIC enzymes, *PREDATORY animals, *VIBRIO infections, *CAENORHABDITIS elegans, *TETRAHYMENA pyriformis

Abstract

Vibrio cholerae is the causal bacterium of the diarrheal disease cholera, and its growth and survival are thought to be curtailed by bacteriovorous predators, e.g., ciliates and flagellates. We explored Caenorhabditis elegans as a test organism after finding that V. cholerae can cause lethal infection of this nematode. By reverse genetics we identified an extracellular protease, the previously uncharacterized PrtV protein, as being necessary for killing. The killing effect is associated with the colonization of bacteria within the Caenorhabditis elegans intestine. We also show that PrtV is essential for V. cholerae in the bacterial survival from grazing by the flagellate Cafeteria roenbergensis and the ciliate Tetrahymena pyriformis. The PrtV protein appears to have an indirect role in the interaction of V. cholerae with mammalian host cells as judged from tests with tight monolayers of human intestinal epithelial cells. Our results demonstrate a key role for PrtV in V. cholerae interaction with grazing predators, and we establish Caenorhabditis elegans as a convenient organism for identification of V. cholerae factors involved in host interactions and environmental persistence. [ABSTRACT FROM AUTHOR]

Published

2006

40. Seed associated bacterial and fungal endophytes: Diversity, life cycle, transmission, and application potential.

Author

Samreen, Tayyaba, Naveed, Muhammad, Nazir, Muhammad Zulqernain, Asghar, Hafiz Naeem, Khan, Muhammad Imran, Zahir, Zahir Ahmad, Kanwal, Sehrish, Jeevan, B., Sharma, Devender, Meena, Vijay Singh, Meena, Sunita Kumari, Sarkar, Deepranjan, Devika, O. Siva, Parihar, Manoj, and Choudhary, Mahipal

Subjects

*ENDOPHYTIC bacteria, *ENDOPHYTIC fungi, *SOIL microbial ecology, *FUNGAL communities, *VERTICAL transmission (Communicable diseases), *SUSTAINABLE agriculture, *SEEDS, *EPIPHYTES

Abstract

Exponential upsurge in the global population growth rate claims sustainable means to fulfill their food requirements. Therefore, the collaboration of beneficial microorganisms with their host plants have been of interest for years as these associations can be helpful in the development of sustainable agriculture. However, the endophytic microorganisms develop a strong and persistent interaction with the host plants compared to epiphytic microbes. The origin of plant-associated endophytes was supposed to be from seeds as the endophytic microbes were found inside seeds of several plant species although, endophytes do not necessarily come from seeds only but can also enter the roots or other parts during plant growth. In any case, the richness of seed with the microbes and their dynamics can edify innovative research potentials in the field of plant-microbe associations. Yet, the seed microbiome is often underrepresented in plant microbial studies and is least studied up till now compared to phyllospheric or rhizospheric microbial population. The revival of exploring the seed microbiome is stimulating new insights related to the dynamics and diversity of seed microbiome along with their interconnectedness with the soil and plant microbial community as well as the microbes associated with pollinators and dispersers. This review is an effort to acknowledge the research on seed associated microbial community including bacteria and fungi. It focuses on ecology of seed microbiome from sources to diversity, their association with the host plant, and their life cycle including mode of colonization, localization, and transmission. Both the horizontal and vertical means of transmission have been discussed in this paper whereas the significance of vertical transmission for rapid infection of beneficial microbial community to next generations of plants through seeds is emphasized. Moreover, the applications of seed endophytes for growth promotion of plants, as biocontrol agents and in phytoremediation are discussed. Finally, the association of seed endophytes with seed quality is linked. [Display omitted] • Explore seed associated bacterial and fungal community, and their diversity • Focus on significance of interactions of seed endophytic microbiome with host • Discuss phenomenon from colonization to vertical transmission of seed endophytes • Highlight significance of seed microbiota in seed quality • Provide current knowledge and future insights into seed endophytic microbes [ABSTRACT FROM AUTHOR]

Published

2021

41. Exploiting pilus-mediated bacteria-host interactions for health benefits.

Author

Sharma, Vinay, von Ossowski, Ingemar, and Krishnan, Vengadesan

Subjects

*PATHOGENIC bacteria, *GRAM-positive bacteria, *GRAM-negative bacteria, *BACTERIAL diseases, *ANTIBIOTICS, *PATIENT compliance

Abstract

Surface pili (or fimbriae) are an important but conspicuous adaptation of several genera and species of Gram-negative and Gram-positive bacteria. These long and non-flagellar multi-subunit adhesins mediate the initial contact that a bacterium has with a host or environment, and thus have come to be regarded as a key colonization factor for virulence activity in pathogens or niche adaptation in commensals. Pili in pathogenic bacteria are well recognized for their roles in the adhesion to host cells, colonization of tissues, and establishment of infection. As an 'anti-adhesive' ploy, targeting pilus-mediated attachment for disruption has become a potentially effective alternative to using antibiotics. In this review, we give a description of the several structurally distinct bacterial pilus types thus far characterized, and as well offer details about the intricacy of their individual structure, assembly, and function. With a molecular understanding of pilus biogenesis and pilus-mediated host interactions also provided, we go on to describe some of the emerging new approaches and compounds that have been recently developed to prevent the adhesion, colonization, and infection of piliated bacterial pathogens. [ABSTRACT FROM AUTHOR]

Published

2021

42. Virus–Host Interactions Involved in Lassa Virus Entry and Genome Replication

Author

Nora López, Maria Eugenia Loureiro, and Alejandra D'Antuono

Subjects

Microbiology (medical), replication, viruses, virus–host interactions, lcsh:Medicine, Review, Disease, Biology, medicine.disease_cause, Genome, purl.org/becyt/ford/1 [https], LASV, Viral entry, medicine, Immunology and Allergy, LASSA FEVER, purl.org/becyt/ford/1.6 [https], arenavirus, Lassa fever, Molecular Biology, HOST INTERACTIONS, Virus host, Arenavirus, General Immunology and Microbiology, lcsh:R, virus diseases, medicine.disease, biology.organism_classification, Virology, Replication (computing), ARENAVIRUS, Infectious Diseases, Lassa virus, ENTRY, REPLICATION, VIRUS, entry

Abstract

Lassa virus (LASV) is the causative agent of Lassa fever, a human hemorrhagic disease associated with high mortality and morbidity rates, particularly prevalent in West Africa. Over the past few years, a significant amount of novel information has been provided on cellular factors that are determinant elements playing a role in arenavirus multiplication. In this review, we focus on host proteins that intersect with the initial steps of the LASV replication cycle: virus entry and genome replication. A better understanding of relevant virus–host interactions essential for sustaining these critical steps may help to identify possible targets for the rational design of novel therapeutic approaches against LASV and other arenaviruses that cause severe human disease. Fil: Loureiro, Maria Eugenia. Ministerio de Produccion y Trabajo. Secretaria de Gobierno de Agroindustria. Servicio Nacional de Sanidad y Calidad Agroalimentaria. Centro de Virologia Animal. - Consejo Nacional de Investigaciones Cientificas y Tecnicas. Oficina de Coordinacion Administrativa Ciudad Universitaria. Centro de Virologia Animal.; Argentina Fil: D'antuono, Alejandra Lorena. Ministerio de Produccion y Trabajo. Secretaria de Gobierno de Agroindustria. Servicio Nacional de Sanidad y Calidad Agroalimentaria. Centro de Virologia Animal. - Consejo Nacional de Investigaciones Cientificas y Tecnicas. Oficina de Coordinacion Administrativa Ciudad Universitaria. Centro de Virologia Animal.; Argentina Fil: Lopez, Nora Mabel. Ministerio de Produccion y Trabajo. Secretaria de Gobierno de Agroindustria. Servicio Nacional de Sanidad y Calidad Agroalimentaria. Centro de Virologia Animal. - Consejo Nacional de Investigaciones Cientificas y Tecnicas. Oficina de Coordinacion Administrativa Ciudad Universitaria. Centro de Virologia Animal.; Argentina

Published

2019

43. Transcriptomic Analysis of the Campylobacter jejuni Response to T4-Like Phage NCTC 12673 Infection

Author

Bob G. Blasdel, Hayley M Reynolds, Jessica C Sacher, Alain Stintzi, Christine M. Szymanski, Annika Flint, Rob Lavigne, and James Butcher

Subjects

0301 basic medicine, COLI, Operon, 030106 microbiology, lcsh:QR1-502, PROTEIN, Superinfection exclusion, Campylobacter jejuni, lcsh:Microbiology, Microbiology, Bacteriophage, NCTC 12673, 03 medical and health sciences, LIMITED CONDITIONS, bacteriophage, Virology, phage defense, MOLECULAR CHARACTERIZATION, Gene, GENE-EXPRESSION, Infectivity, HOST INTERACTIONS, Science & Technology, biology, bacterial infections and mycoses, biology.organism_classification, BACTERIOPHAGE DEFENSE, 3. Good health, Infectious Diseases, Lytic cycle, VIRULENCE, CATALASE, Antitoxin, Life Sciences & Biomedicine, transcriptome, RESISTANCE

Abstract

Campylobacter jejuni is a frequent foodborne pathogen of humans. As C. jejuni infections commonly arise from contaminated poultry, phage treatments have been proposed to reduce the C. jejuni load on farms to prevent human infections. While a prior report documented the transcriptome of C. jejuni phages during the carrier state life cycle, transcriptomic analysis of a lytic C. jejuni phage infection has not been reported. We used RNA-sequencing to profile the infection of C. jejuni NCTC 11168 by the lytic T4-like myovirus NCTC 12673. Interestingly, we found that the most highly upregulated host genes upon infection make up an uncharacterized operon (cj0423&ndash, cj0425), which includes genes with similarity to T4 superinfection exclusion and antitoxin genes. Other significantly upregulated genes include those involved in oxidative stress defense and the Campylobactermultidrug efflux pump (CmeABC). We found that phage infectivity is altered by mutagenesis of the oxidative stress defense genes catalase (katA), alkyl-hydroxyperoxidase (ahpC), and superoxide dismutase (sodB), and by mutagenesis of the efflux pump genes cmeA and cmeB. This suggests a role for these gene products in phage infection. Together, our results shed light on the phage-host dynamics of an important foodborne pathogen during lytic infection by a T4-like phage.

Published

2018

44. Secretion Systems and Secreted Proteins in Gram-Negative Entomopathogenic Bacteria: Their Roles in Insect Virulence and Beyond

Author

S. Patricia Stock and Rebecca McQuade

Subjects

0301 basic medicine, host interactions, Gram-negative bacteria, biology, 030106 microbiology, Virulence, Xenorhabdus, Review, Yersinia, biology.organism_classification, Serratia, secretion systems, Microbiology, 03 medical and health sciences, Insect Science, Secretion, lcsh:Q, entomopathogens, lcsh:Science, Photorhabdus, Bacteria

Abstract

Many Gram-negative bacteria have evolved insect pathogenic lifestyles. In all cases, the ability to cause disease in insects involves specific bacterial proteins exported either to the surface, the extracellular environment, or the cytoplasm of the host cell. They also have several distinct mechanisms for secreting such proteins. In this review, we summarize the major protein secretion systems and discuss examples of secreted proteins that contribute to the virulence of a variety of Gram-negative entomopathogenic bacteria, including Photorhabdus, Xenorhabdus, Serratia, Yersinia, and Pseudomonas species. We also briefly summarize two classes of exported protein complexes, the PVC-like elements, and the Tc toxin complexes that were first described in entomopathogenic bacteria.

Published

2018

45. Identification of New Factors Modulating Adhesion Abilities of the Pioneer Commensal Bacterium Streptococcus salivarius

Author

Thierry Meylheuc, Anne-Laure Abraham, Nicolas Lapaque, Christine Delorme, Saulius Kulakauskas, Benoit Quinquis, Pierre Renault, Nicolas Pons, Eric Guédon, Benoit Couvigny, Romain Briandet, MICrobiologie de l'ALImentation au Service de la Santé (MICALIS), Institut National de la Recherche Agronomique (INRA)-AgroParisTech, MetaGenoPolis, Institut National de la Recherche Agronomique (INRA), Mathématiques et Informatique Appliquées du Génome à l'Environnement [Jouy-En-Josas] (MaIAGE), Science et Technologie du Lait et de l'Oeuf (STLO), Institut National de la Recherche Agronomique (INRA)-AGROCAMPUS OUEST, and Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)

Subjects

0301 basic medicine, interaction hôte-microorganisme, commensalism, siltation, [SDV]Life Sciences [q-bio], Ingénierie des aliments, lcsh:QR1-502, biofilm bactérien, biofilm, lcsh:Microbiology, commensalisme, adhésion, Sortase, [SDV.IDA]Life Sciences [q-bio]/Food engineering, adhesion gene, ComputingMilieux_MISCELLANEOUS, Original Research, biology, adhésion bactérienne, Microbiology and Parasitology, aggregation, Phenotype, Microbiologie et Parasitologie, communauté bactérienne, agrégation, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Alimentation et Nutrition, sedimentation, Microbiology (medical), 030106 microbiology, Virulence, Microbiology, 03 medical and health sciences, sédimentation, Extracellular, Food and Nutrition, Food engineering, Streptococcus salivarius, screening, mutation, host interactions, commensal bacteria, Biofilm, biology.organism_classification, bacterial adhesion, mutation bactérie, 030104 developmental biology, biofilm formation, Fusobacterium nucleatum, streptococcus salivarius, [SDV.AEN]Life Sciences [q-bio]/Food and Nutrition, Bacteria

Abstract

Biofilm formation is crucial for bacterial community development and host colonization by Streptococcus salivarius, a pioneer colonizer and commensal bacterium of the human gastrointestinal tract. This ability to form biofilms depends on bacterial adhesion to host surfaces, and on the intercellular aggregation contributing to biofilm cohesiveness. Many S. salivarius isolates auto-aggregate, an adhesion process mediated by cell surface proteins. To gain an insight into the genetic factors of S. salivarius that dictate host adhesion and biofilm formation, we developed a screening method, based on the differential sedimentation of bacteria in semi-liquid conditions according to their auto-aggregation capacity, which allowed us to identify twelve mutations affecting this auto-aggregation phenotype. Mutations targeted genes encoding (i) extracellular components, including the CshA surface-exposed protein, the extracellular BglB glucan-binding protein, the GtfE, GtfG and GtfH glycosyltransferases and enzymes responsible for synthesis of cell wall polysaccharides (CwpB, CwpK), (ii) proteins responsible for the extracellular localization of proteins, such as structural components of the accessory SecA2Y2 system (Asp1, Asp2, SecA2) and the SrtA sortase, and (iii) the LiaR transcriptional response regulator. These mutations also influenced biofilm architecture, revealing that similar cell-to-cell interactions govern assembly of auto-aggregates and biofilm formation. We found that BglB, CshA, GtfH and LiaR were specifically associated with bacterial auto-aggregation, whereas Asp1, Asp2, CwpB, CwpK, GtfE, GtfG, SecA2 and SrtA also contributed to adhesion to host cells and host-derived components, or to interactions with the human pathogen Fusobacterium nucleatum. Our study demonstrates that our screening method could also be used to identify genes implicated in the bacterial interactions of pathogens or probiotics, for which aggregation is either a virulence trait or an advantageous feature, respectively.

Published

2018

46. Viroid RNA turnover: characterization of the subgenomic RNAs of potato spindle tuber viroid accumulating in infected tissues provides insights into decay pathways operating in vivo

Author

Beatriz Navarro, Sonia Delgado, Ricardo Flores, Francesco Di Serio, and Sofia Minoia

Subjects

Host interactions, Viroid, RNA Stability, viruses, Pospiviroidae, Replication, Nicotiana benthamiana, Genome, Viral, hammerhead ribozymes, Virus Replication, Systemic trafficking, Secondary structure, Sequence, Genetics, Rolling circle, Solanum melongena, Potato spindle tuber viroid, Plant Diseases, Subgenomic mRNA, Cell Nucleus, Self cleavage, biology, RNA, biology.organism_classification, Molecular biology, Viroids, RNA silencing, Rolling circle replication, RNA, Viral, Situ hybridization

Abstract

[EN] While biogenesis of viroid RNAs is well-known, how they decay is restricted to data involving host RNA silencing. Here we report an alternative degradation pathway operating on potato spindle tuber viroid (PSTVd), the type species of nuclear-replicating viroids (family Pospiviroidae). Northern-blot hybridizations with full-and partial-length probes revealed a set of PSTVd (+) subgenomic (sg) RNAs in early-infected eggplant, some partially overlapping and reaching levels comparable to those of the genomic circular and linear forms. Part of the PSTVd (+) sgRNAs were also observed in Nicotiana benthamiana (specifically in the nuclei) and tomato, wherein they have been overlooked due to their low accumulation. Primer extensions of representative (+) sgRNAs failed to detect a common 5' terminus, excluding that they could result from aborted transcription initiated at one specific site. Supporting this view, 5'- and 3'-RACE indicated that the (+) sgRNAs have 5'-OH and 3'-P termini most likely generated by RNase-mediated endonucleolytic cleavage of longer precursors. These approaches also unveiled PSTVd (-) sgRNAs with features similar to their (+) counterparts. Our results provide a mechanistic insight on how viroid decay may proceed in vivo during replication, and suggest that synthesis and decay of PSTVd strands might be coupled as in mRNA., Ministerio de Economia y Competitividad (MINECO) [BFU2011-28443 to R. F. laboratory]; MINECO [to S.M. and S.D.]. Funding for open access charge: MINECO (BFU2011-28443 to R. F.); Ministero dell'Economia e Finanze Italiano to the CNR (CISIA, Legge 191/2009 to B.N. and F.D.S.).

Published

2015

47. Ecoepidemiology and Potential Transmission of Vibrio cholerae among Different Environmental Niches: An Upcoming Threat in Egypt.

Author

Ismail, Eman M., Kadry, Mona, Elshafiee, Esraa A., Ragab, Eman, Morsy, Eman A., Rizk, Omar, and Zaki, Manal M.

Subjects

POULTRY farms, CHOLERA, VIBRIO cholerae, WATER quality monitoring, GENE mapping, RIVER pollution, POLYMERASE chain reaction

Abstract

Cholera is a negative public health event caused by Vibrio cholerae. Although V. cholerae is abundant in natural environments, its pattern and transmission between different niches remain puzzling and interrelated. Our study aimed to investigate the occurrence of nonpathogenic V. cholerae in the natural environment during endemicity periods. It also aimed to highlight the role of molecular ecoepidemiology in mapping the routes of spread, transmission, and prevention of possible future cholera outbreaks. V. cholerae was detected in different aquatic environments, waterfowl, and poultry farms located along the length of the Nile River in Giza, Cairo, and Delta provinces, Egypt. After polymerase chain reaction amplification of the specific target outer membrane gene (Omp W) of suspected isolates, we performed sequence analysis, eventually using phylogenetic tree analysis to illustrate the possible epidemiological relationships between different sequences. Data revealed a significant variation in the physicochemical conditions of the examined Nile districts related to temporal, spatial, and anthropogenic activities. Moreover, data showed an evident association between V. cholerae and the clinically diseased Synodontis schall fish. We found that the environmental distress triggered by the salinity shift and elevated temperature in the Middle Delta of the Nile River affects the pathogenesis of V. cholerae, in addition to the characteristics of fish host inhabiting the Rosetta Branch at Kafr El-Zayat, El-Gharbia province, Egypt. In addition, we noted a significant relationship between V. cholerae and poultry sources that feed on the Nile dikes close to the examined districts. Sequence analysis revealed clustering of the waterfowl and broiler chicken isolates with human and aquatic isolated sequences retrieved from the GenBank databases. From the obtained data, we hypothesized that waterfowl act as a potential vector for the intermediate transmission of cholera. Therefore, continuous monitoring of Nile water quality and mitigation of Nile River pollution, in addition to following good managemental practices (GMPs), general hygienic guidelines, and biosecurity in the field of animal production and industry, might be the way to break this cyclic transmission between human, aquatic, and animal sectors. [ABSTRACT FROM AUTHOR]

Published

2021

48. Identification of Candida albicans regulatory genes governing mucosal infection

Author

Meir, Juliane, Hartmann, Elena, Eckstein, Marie-Therese, Guiducci, Eva, Kirchner, Florian, Rosenwald, Andreas, LeibundGut-Landmann, Salomé, Pérez, J Christian, University of Zurich, and Pérez, J Christian

Subjects

host interactions, 2403 Immunology, regulator, 2404 Microbiology, Candida albicans, fungus, 2406 Virology, 570 Life sciences, biology, mucosal infection, transcription, 10244 Institute of Virology

Published

2018

49. Immunopathogenesis and Virus-Host Interactions of Enterovirus 71 in Patients with Hand, Foot and Mouth Disease

Author

Jonathan A. Cox, Julian A. Hiscox, Tom Solomon, Mong-How Ooi, and Lisa F. P. Ng

Subjects

0301 basic medicine, Microbiology (medical), lcsh:QR1-502, Disease, Review, Biology, Microbiology, Virus, immune response, lcsh:Microbiology, Pathogenesis, 03 medical and health sciences, Immune system, Enterovirus 71, host interactions, pathogenesis, EV71, Outbreak, and mouth disease, biology.organism_classification, 030104 developmental biology, Viral replication, Infectious disease (medical specialty), foot, Immunology, hand

Abstract

Enterovirus 71 (EV71) is a global infectious disease that affects millions of people. The virus is the main etiological agent for hand, foot, and mouth disease with outbreaks and epidemics being reported globally. Infection can cause severe neurological, cardiac, and respiratory problems in children under the age of 5. Despite on-going efforts, little is known about the pathogenesis of EV71, how the host immune system responds to the virus and the molecular mechanisms behind these responses. Moreover, current animal models remain limited, because they do not recapitulate similar disease patterns and symptoms observed in humans. In this review the role of the host-viral interactions of EV71 are discussed together with the various models available to examine: how EV71 utilizes its proteins to cleave host factors and proteins, aiding virus replication; how EV71 uses its own viral proteins to disrupt host immune responses and aid in its immune evasion. These discoveries along with others, such as the EV71 crystal structure, have provided possible targets for treatment and drug interventions.

Published

2017

50. Comparative genomic analysis of the multispecies probiotic-marketed product VSL#3

Author

Willem M. de Vos, François P. Douillard, Michiel Wels, Robyn T. Eijlander, Diego Mora, Departments of Faculty of Veterinary Medicine, Faculty of Veterinary Medicine, Food Hygiene and Environmental Health, Medicum, Research Programs Unit, Immunobiology Research Program, and University of Helsinki

Subjects

0301 basic medicine, Streptococcus thermophilus, ved/biology.organism_classification_rank.species, lcsh:Medicine, Bacterial Adhesion, Lactobacillus acidophilus, Intestinal mucosa, Microbiologie, Intestinal Mucosa, lcsh:Science, 1183 Plant biology, microbiology, virology, Phylogeny, Genetics, PLANTARUM WCFS1, Multidisciplinary, Bifidobacterium breve, biology, food and beverages, EPITHELIAL-CELLS, Genomics, Lacticaseibacillus paracasei, DENDRITIC CELL, Lactobacillus paracasei, GRAM-POSITIVE BACTERIA, 030106 microbiology, Microbial Sensitivity Tests, CONTROLLED-TRIAL, Microbiology, 03 medical and health sciences, Life Science, Humans, VLAG, Comparative genomics, HOST INTERACTIONS, Lactobacillus helveticus, ved/biology, LACTOBACILLUS-ACIDOPHILUS NCFM, Probiotics, lcsh:R, biology.organism_classification, Lactobacillus, 030104 developmental biology, TRANSPOSABLE ELEMENTS, INNATE IMMUNITY, lcsh:Q, Bifidobacterium, CRISPR-Cas Systems, Lactobacillus plantarum, RHAMNOSUS GG, Genome, Bacterial

Abstract

Several probiotic-marketed formulations available for the consumers contain live lactic acid bacteria and/or bifidobacteria. The multispecies product commercialized as VSL#3 has been used for treating various gastro-intestinal disorders. However, like many other products, the bacterial strains present in VSL#3 have only been characterized to a limited extent and their efficacy as well as their predicted mode of action remain unclear, preventing further applications or comparative studies. In this work, the genomes of all eight bacterial strains present in VSL#3 were sequenced and characterized, to advance insights into the possible mode of action of this product and also to serve as a basis for future work and trials. Phylogenetic and genomic data analysis allowed us to identify the 7 species present in the VSL#3 product as specified by the manufacturer. The 8 strains present belong to the species Streptococcus thermophilus, Lactobacillus acidophilus, Lactobacillus paracasei, Lactobacillus plantarum, Lactobacillus helveticus, Bifidobacterium breve and B. animalis subsp. lactis (two distinct strains). Comparative genomics revealed that the draft genomes of the S. thermophilus and L. helveticus strains were predicted to encode most of the defence systems such as restriction modification and CRISPR-Cas systems. Genes associated with a variety of potential probiotic functions were also identified. Thus, in the three Bifidobacterium spp., gene clusters were predicted to encode tight adherence pili, known to promote bacteria-host interaction and intestinal barrier integrity, and to impact host cell development. Various repertoires of putative signalling proteins were predicted to be encoded by the genomes of the Lactobacillus spp., i.e. surface layer proteins, LPXTG-containing proteins, or sortase-dependent pili that may interact with the intestinal mucosa and dendritic cells. Taken altogether, the individual genomic characterization of the strains present in the VSL#3 product confirmed the product specifications, determined its coding capacity as well as identified potential probiotic functions.

Published

2017