- Volume 2, Issue 7A, 2020
Volume 2, Issue 7A, 2020
- Abstracts from Annual Conference 2020
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- Oral Abstract
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Biocoatings: Painting bacteria on surfaces
More LessBackground: Biocoatings are nanoporous polymer materials which encapsulate bacterial cells with carbohydrates as osmoprotectants. Here, we optimised biocoatings to offer a favourable environment for the metabolic activity of bacteria.
Methods: E. coli were used as a model organism and mixed with the colloidal polymer particles (i.e. synthetic latex), inorganic nanoparticles and different carbohydrates. Films were casted and dried to create a coalesced latex film and finally rehydrated to re-establish bacterial metabolism. The toxicity of the sterile latices to the bacteria was tested by using the colourimetric redox indicator resazurin. Visualisation of the bacteria inside the biocoatings was performed by confocal laser scanning microscopy (CLSM) and scanning electron microscopy (SEM).
Results: We introduced halloysite (clay nanotubes) to create nanoporosity, which created voids in the structure that will permit gas exchange. The biocoatings were tested in liquid and rehydrated states with resazurin to find the most promising composition ensuring bacterial viability. Rehydrated biocoatings were visualised by CLSM by tracking the constitutively expressed yellow-fluorescent protein (YFP) for viable cells and the membrane exclusion dye propidium iodide for dead cells. The structure of the biocoatings appeared to be unaffected by freeze-drying compared to chemical fixation. Following this fixation, SEM allowed the observation of the organisation of the latex polymers, halloysite and bacteria.
Conclusions: The biocoatings were highly porous thanks to halloysite. E. coli survived the film formation process. Next, we will use E. coli and cyanobacteria to achieve higher efficiency for a variety of applications e.g. pollutant degradation, solar energy harvesting and carbon recycling.
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Host-dependent differences in replication and virion release strategy of the Sulfolobus Spindle-shaped Virus strain SSV9 (a.k.a., SSVK1): Lytic replication in hosts of the family Sulfolobaceae
The Sulfolobus Spindle-shaped Virus (SSV) system is a model for studying thermophilic archaeal virus biology. Several factors make the SSV system amenable to studying archaeal genetics and virus-host interactions in extreme environments. It has been shown that populations of Sulfolobus, the natural host, exhibit biogeographic structure. The acidic (pH<4.5) high temperature (65-88°C) habitats have low biodiversity, which diminishes prospects for host switch. SSVs and their hosts are readily cultured in liquid media and on plates. Given the wide geographic separation between various SSV-Sulfolobus habitats, the system is also amenable to studying allopatric versus sympatric virus-host interactions. We previously reported that SSVs exhibit differential infectivity on allopatric and sympatric hosts. We discovered a strikingly broad host-range for strain SSV9 (a.k.a., SSVK1). For decades, SSVs have been described as “non-lytic” dsDNA viruses that infect species of Sulfolobus and release virus particles via blebbing as a preferred strategy over host lysis (in reported laboratory infections). Here, we show, that SSVs infect more than one genus of the family Sulfolobaceae and, in allopatric hosts, SSV9 does not release virions via blebbing. Instead, SSV9 appears to lyse all susceptible allopatric hosts, while exhibiting canonical non-lytic virion release (historically reported for SSVs) on a single sympatric host. Lytic versus non-lytic virus release does not appear to be driven by multiplicity of infection. Data suggest that SSV9 is more stable than other SSVs in suspension; however, genetic substrates (e.g., CRISPR profiles) underlying non-lytic versus lytic virion release remain unresolved and are the subject of ongoing investigation.
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Tropism and neutralisation studies on bat influenza H17N10
The diversity of subtypes within Influenza A recently expanded with identification of H17N10 and H18N11 from bats. To study the tropism and zoonotic potential of these viruses, we successfully produced lentiviral pseudotypes bearing haemagglutinin H17 and neuraminidase N10. We investigated a range of cell lines from different species for their susceptibility to infection by these pseudotypes and show that a number of human haematopoietic cancer cell lines and the canine kidney MDCK II (but not MDCK I) cells are susceptible. Using microarrays and qRT-PCR we show that the dog leukocyte antigen DLA-DRA mRNA is over expressed in late passaged parental MDCK and commercial MDCK II cells, compared to early passaged parental MDCK and MDCK I cells, respectively. The human orthologue HLA-DRA encodes the alpha subunit of the MHC class II HLA-DR antigen-binding heterodimer. Small interfering RNA- or neutralizing antibody-targeting HLA-DRA, drastically reduced the susceptibility of Raji B cells to H17-PV. Conversely, over expression of HLA-DRA and its paralogue HLA-DRB1 on the surface of unsusceptible HEK293T/17 cells conferred susceptibility to H17-PV. The identification of HLA-DR as an H17N10 entry mediator will contribute to understanding the tropism of the virus and help to elucidate its zoonotic transmission. We also show that H17 pseudotypes can be efficiently neutralised by the broadly-neutralizing HA2 stalk monoclonal antibodies CR9114 and FI6. The lentiviral pseudotype system is a useful research tool, amenable for investigation of bat influenza tropism, restriction and pandemic preparedness, without safety issues of producing a replication-competent virus, to which the human population is naïve.
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DAAs treatment is associated with up-regulation of CD81 on peripheral B-lymphocytes
Cellular surface expression of CD81 (an essential co-receptor for HCV) is critical for successful HCV infection. Furthermore, CD81 cross-linking with HCV-E2 protein impedes activation signaling pathways in different lymphocytes (T-cells, B -cells and NK cells). The expression of CD81 on peripheral lymphocytes is known to be downregulated following successful dual anti-HCV therapy. On the other hands, no reports are yet available regarding its expression levels following the newly used treatment regimen in Egypt; direct-acting antivirals (DAAs): Sofosubvir & daclatsvir for three months. Thus, the aim of the current study was to evaluate the expression levels of CD81 on T and B lymphocytes in HCV-infected patients before and after successful treatment with DAAs. Cellular CD81 expression was measured on CD3+ (T lymphocytes) and CD19+ (B Lymphocytes) lymphocytes by flow cytometry from 19 patients with chronic HCV infection.
All the HCV viruses were of genotype 4. We found no correlation between CD81 expression on either CD3+ or CD19+ lymphocytes and viral load. The expression of CD81 on CD19+ lymphocytes was markedly reduced at the end of the treatment. On the contrary, CD81 was significantly increased on CD3+ lymphocytes following successful treatment.
Our data indicate that successful treatment of HCV infection is associated with a reduction in surface CD81 expression on B lymphocytes with a concomitant increase on T lymphocytes.
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Investigating the effect of Herpes Simplex Virus 1 Latency-Associated Non-Coding RNAs on the Human Neuronal Transcriptome
More LessHerpes simplex virus 1 (HSV-1) is a prevalent neurotropic virus that persists for the host’s lifetime due to HSV-1 establishing latency in sensory neurons. During latency, the only abundantly transcribed HSV-1 gene is the latency-associated transcript (LAT), which is processed into the 1.5kb or 2.0kb major LAT intron and several microRNAs. These latency-associated non-coding RNAs (ncRNAs) have been reported to impact the establishment, maintenance and reactivation from latency. However, the molecular mechanisms of these ncRNAs are not fully characterised, especially in the context of human neurons.
This study investigated how the latency-associated ncRNAs affect the human neuronal transcriptome. We developed an experimental system to deliver the latency-associated ncRNAs to human neurons, differentiated from SH-SY5Y neuroblastoma cells. The cells were infected with a replication-defective HSV-1 mutant, in1382, that establishes a quiescent infection in which LAT is strongly expressed. Alternatively, we utilised lentiviruses engineered to express the first 3.1kb of LAT, without or with mutations in splice sites that prevents splicing of the major LAT intron, or five HSV-1 microRNAs, shown to be abundant in latently infected human ganglia. Following RNA-Seq of uninfected versus infected or transduced SH-SY5Y cells, we identified 178 host genes that had significant differential expression in response to in1382 quiescent infection and lentivirus delivery of LAT or the latency-associated microRNAs. A subset of these were validated by PCR. This work provides insight into possible roles of the latency-associated ncRNAs in neuronal cell biology and latency that could aid future investigations examining how HSV-1 latency affects human neurons.
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Characterisation of Burkholderia prophages and discovery of a novel inducible phage from B. vietnamiensis G4 that is widely distributed across the species
More LessBurkholderia species have environmental, industrial and medical significance, and are important opportunistic pathogens in individuals with cystic fibrosis (CF). Approximately 10% of Burkholderia genomes (6-9 Mb) are horizontally acquired material, representing a rich source of mobile genetic elements including prophages. There is limited research on Burkholderia bacteriophages, their contributions to genome evolution, virulence and antimicrobial resistance, or biotechnological and therapeutic applications. We investigated prophage carriage in Burkholderia and aimed to isolate and characterise inducible bacteriophages from B. vietnamiensis.
Burkholderia genomes were screened for prophages using PHASTER. Prophage genomes were compared using MASH and visualised with ProgressiveMauve. Phylogenomics was used to assess the distribution of prophages across B. vietnamiensis strains. Spontaneously induced phages were characterised to determine linkage between prophage regions and isolated phages, bacteriophage morphology and host range.
Prophage carriage across 456 Burkholderia strains (spanning 43 species) was high; 716 intact prophages were discovered and polylysogeny was common. In B. vietnamiensis alone, 115 prophages were identified from 81 strains, with evidence of shared prophage carriage between related and diverse strains. Three novel inducible phages were isolated from B. vietnamiensis strain G4 and their genomic origins localised putatively. One phage (vB_BvM-G4P1; family Myoviridae) had inhibitory activity against multiple strains of 5 B. cepacia complex species, including species prevalent in CF infections.
Prophages are numerous in Burkholderia genomes and contribute to strain diversity. There is huge potential for further investigation into the functional implications of prophage carriage and its impact on genome evolution, in addition to the isolation of novel bacteriophages.
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Identification of isoprene-degrading bacteria in phyllosphere and soil communities from high isoprene-emitting oil palm trees by DNA-stable isotope probing
Isoprene is the most abundant biogenic volatile organic compound (BVOC) on Earth, with annual global emissions almost equal to those from methane. Due to its volatile nature and high reactivity, isoprene plays a complex role in atmospheric chemistry and hence, climate. However, very little is known about its biological degradation in the environment. The vast majority of isoprene (500 Tg ·y-1) is produced by terrestrial plants and oil palm is considered one of the highest isoprene-producing trees, with estimated emissions of 175 μg·g-1 dry leaves ·h-1. Oil palm is also a heavily cultivated crop since it is the source of 30% of the vegetable oil in the world and in countries such as Malaysia represents >85% of total agricultural land. The vast expansion of a single crop that emits such high amounts of isoprene have raised serious concerns about its impact on air quality and climate change. We performed DNA Stable Isotope Probing (DNA-SIP) to study the isoprene-degrading community of oil palm trees in a Malaysian plantation and identified novel genera of isoprene-utilising bacteria in both oil palm soils and leaves. isoA amplicon sequencing data also confirmed that oil palm trees harbour a novel diversity of isoA genes, which encode the alpha subunit of the isoprene monooxygenase, a key enzyme in isoprene metabolism. In addition, metagenome assembled genomes (MAGs) were reconstructed from metagenomes from oil palm soil and leaf incubations and analysed to identify isoprene degradation gene clusters in these microorganisms. Finally, analysis of unenriched metagenomes showed that isoA-containing bacteria are more abundant in soils than in the oil palm phyllosphere.
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Peroxynitrite is essential for the initiation of cytomegalovirus replication in vitro and in vivo
Human cytomegalovirus (HCMV) is a pathogenic beta-herpesvirus that establishes a lifelong infection in hosts. It causes significant morbidity and mortality in the immunocompromised and is associated with a range of birth defects following congenital infection. Current therapeutic approaches that target key viral proteins are toxic and antiviral drug resistance is common. Thus, targeting host genes and cellular pathways essential for HCMV infection offers an alternative strategy for the development of antivirals. Here we show that host oxidative/nitrosative stress responses to CMV are critical for virus replication. Oxidative/nitrosative stress occurs due to accumulation of reactive oxygen/nitrogen species (ROS/RNS). Using a range of ROS/RNS scavengers, we identified that peroxynitrite, a powerful oxidant and nitrating agent, dramatically promoted virus replication in both in vitro and in vivo models of CMV infection. HCMV rapidly induced production of intracellular peroxynitrite upon infection. Inhibition of peroxynitrite within the first 24 hours alleviates efficient HCMV infection in both cell-free and cell-associated infection systems, indicating that peroxynitrite may influence pathways necessary for HCMV entry and/or replication. Furthermore, peroxynitrite inhibition also inhibited HCMV reactivation from latency. Interestingly, the neurotransmitter and naturally-occurring peroxynitrite antagonist 5-hydroxytryptamine, commonly known as serotonin, also impinged on HCMV-induced peroxynitrite production and exhibited anti-HCMV activity. Thus, overall, our study demonstrates a novel role for intracellular peroxynitrite in CMV pathogenesis and implies that peroxynitrite could be targeted as a novel approach to inhibiting CMV infection.
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Characterisation and identification of STEC O157 pathogenicity using machine learning
More LessShiga toxin-producing Escherichia coli O157: H7 (STEC) is a zoonotic pathogen that is globally dispersed, causing severe gastroenteritis when transmitted from ruminants to humans through direct or indirect contact with animals, their environment or contaminated food. Symptoms are varied in severity; from mild to bloody diarrhoea with more serious sequalae including hemolytic uremic syndrome (HUS) which can be fatal. Although there is compelling evidence that the Shiga toxin sub-type is a key predictor of disease severity, differences in virulence potential of strains with the same Shiga toxin profile are often observed. In this study, we employ machine learning algorithms to explore the relationship between the STEC genome with clinical outcome.
Kmer-counts of variable length (9-100 base pair) from 1148 isolates of STEC O157:H7, representing two years of routine surveillance in England, were matched to their respective clinical outcome data. A Random Forest classifier was developed and validated with the objective of inferring the clinical symptoms associated with a given STEC genome. Clinical outcomes were categorised into asymptomatic, diarrhoea, bloody diarrhoea and HUS. The model correctly classified 160 out of 190 cases of bloody diarrhoea, 81 out of 128 cases of diarrhoea and 7 out of 12 cases of HUS, with average AUC ROC score of 90%. Kmers deemed important for distinct classification were characterised and matches related to Shiga toxin 2a phage integration and excision genes and adhesion and transporter proteins were identified. This is consistent with reported virulence factors in the literature, supporting this approach of de novo pathogen characterisation.
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Evidence that Chlamydia abortus vaccine strain 1B produces indistinguishable placental lesions to wild type strains
Chlamydia abortus is the most commonly diagnosed cause of abortion in small ruminants around the world [1]. Control of chlamydial abortion is achieved in several European countries using an attenuated live 1B C. abortus vaccine strain, which can be distinguished from virulent wild-type strains by PCR-RFLP analysis [2]. Application of this method has provided molecular evidence that the 1B strain can cause abortion in ewes [3, 4]. The objective of this study was to define the distribution of lesions and bacterial load in cotyledons from ewes vaccinated with the 1B strain compared to normal wild-type infections.
A Chlamydia-free flock of 75 multiparous adult ewes were vaccinated twice, two years apart, each prior to mating, with the commercial 1B vaccine. In the second lambing season following the last vaccination, placentae (n=116) were collected and analysed by C. abortus real-time qPCR [3]. Only two of the placentae, both from the same ewe, were found to be positive. Viable organisms were isolated from these placentae and confirmed by RFLP-PCR [3] to be vaccine-type. All cotyledons from these placentae were analysed by histopathology and immunohistochemistry [5], and compared with those from wild-type infected placentae. The lesions in the vaccine-type infected placentae were indistinguishable from the wild-type infected placentae in terms of their severity, load and distribution.
These results suggest that the 1B vaccine strain of C. abortus can cause chlamydial abortion in ewes producing typical placental lesions to wild-type infected animals, and could be circulating with the potential to cause natural infection and disease.
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3D co-cultures of epithelial cells with immune cells as a model of HSV and oncolytic HSV infections
More LessVirus infectivity is commonly investigated with in vitro monolayer cell cultures or in vivo animal models. Ease of growth and manipulation and low cost characterise standard cell culture. Animal models allow investigation of infectivity in the context of tissue structure and environment but are costly and can be limited by species variations. Neither approach can recapitulate the human context, the tissue microenvironment and human immune components. Three-dimensional organotypic raft tissue models can provide most of the advantages of in vitro and in vivo models.
We successfully established HSV and oncolytic HSV (HSV1716) infection in 3D raft cultures of epithelial non-tumour (HaCaT) and tumour (SiHa, OVCAR3 and TOV21G) cell lines. Our 3D models allowed the evaluation and quantification of virus replication and the recovery of the virus both in culture media and tissues.
We developed a complex 3D co-culture of epithelial cells with human immune cells in order to mimic the tissue microenvironment. This innovation allowed us to study the effect of immune cells in cell killing by HSV1716 in the in vitro tissues. In HSV1716-infected co-culture tissues, immune cells were identified throughout the tissue and some migrated to the areas of infection. The immune activity was identified through increased IL-8 release. Moreover, combining infection with immune cell infiltration increased tumour cell killing in the 3D co-culture model. This new co-culture model could be further developed to identify the role of immune cells in oncolytic viroimmunotherapy and to dissect the involvement of specific single immune cell subpopulations.
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Artificial Intelligence and deep learning turns to antibiotic discovery
More LessDeep learning (DL) is a subset of Artificial Intelligence employing neural networks that require the use of a training set and are modelled on circuit pathways in the human brain. Whilst AI is a burgeoning field today, its roots are in the 1950s. DL algorithms use multiple layers to progressively extract higher level features from the raw input. Many different architectures of neural network exist, and for the most part are involved in applications with image recognition. Some recent uses of DL include self-driving cars; there are also creative projects using DL to create fake faces or human poses for use as models, composing music, creating novel art from different styles of art and writing fake news.
Streptomyces spp. are well-known as important producers of bioactive compounds such as antibiotics. These bioactive compounds are often encoded as secondary metabolites in the organisms by large gene clusters such as non-ribosomal peptide synthases (NRPS) and polyketide synthases (PKS). The NRPS and PKS assemble peptides using enzymatic units arranged in modules that can function in an iterative or sequential fashion independent of messenger RNA. Each NRPS or PKS is capable of assembling one type of peptide. Fusions of the two also exist.
Here we have trained deep learning neural networks to provide us with simulated “fake” secondary metabolite sequences. We examine the characteristics of these sequences and how they could be used to guide us with antibiotic discovery.
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BK polyomavirus genotypes and progression of BKV disease in renal transplant recipients
More LessBackground. BK virus (BKV) reactivation is a significant cause of BK Polyomavirus associated nephropathy (BKPyVN) resulting in acute graft rejection in 1-10% of post-renal transplant recipients. However, the association of BKV genotypes with development of BKPyVN is poorly understood. Here we aimed to determine the prevalence of BKV genotypes in post-renal transplant recipients, and its association with BKPyVN disease progression.
Method. Two methods were utilised to genotype BKV. A 800bp fragment of virus VP1 antigen region was amplified using nested (PCR) followed by sequencing. The genotypes were determined according to a previously developed algorithm based on analysing 100bp region of the VP1 gene. Furthermore, the logarithm results were validated with the constructed phylogenetic tree. The results were correlated with patient viral loads and development of BKPyVN.
Results. BK virus DNA was detected in 32 (69%) of 46 post-renal transplant recipients with BK viremia, while BKPyVN was only reported in two (4.3%)patients. 30 out of 32 samples were successfully genotyped (93.7%) with 23 (76.6%) belonging to the BKV Ib-2 subtype and seven (23.3%) belonging to the BKV Ib-1 subtype and with no cases representing genotype II, III and IV. All cases with confirmed BKPyVN matched to the BKV Ib-2 genotype. Additionally, no significance differences were observed between BKV genotypes in regards to viral loads, development of viremia, HLA mismatch, age or sex.
Conclusion. The results indicate no correlations between BKV genotypes and the development of BKPyVN. Furthermore,a high distribution of BKV genotype Ib-2 was found among BKV infected patients within this cohort.
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Safe water for all: A nature-based approach for cyanotoxin elimination from potable water
Cyanobacterial blooms are a serious threat to public health and water quality due to the production of cyanotoxins as a result of nutrient pollution from industry, agriculture, domestic waste as well as global warming. The microcystins (MCs) are the most abundant cyanotoxins consisting of >200 analogues causing both acute and chronic toxicity, sometimes resulting in death. In Asian countries, such as Sri Lanka, reports of kidney disease are constantly increasing. Although no direct link between metal and pesticide contamination in water and kidney disease has been found, high concentration of cyanobacteria cells in drinking water wells implies that the nephrotoxic effects of cyanotoxins might play a key factor in the reports of Chronic Kidney Disease of unknown aetiology (CKDu) in Sri Lanka. Therefore, we propose a nature-based approach for water treatment which will study the hypotheses that cyanotoxins can cause CKDu. Sri Lankan bacterial isolates (Alcaligens sp., Roseateles sp., Bacillus sp., and Micrococcus sp.) known to degrade microcystins, were used to form biofilm on biochar from Sri Lankan crop residues, such as coconut shells. The immobilisation of the microbes was assessed via a high-throughput colourimetric assay, followed by monitoring the biodegradation rate of microcystins when added to the immobilised cultures. Biodegradation products were analysed and identified through molecular networking and quantified via LC-MS/MS. Ultimately, this project will provide safe water in line with UN Sustainable Development Goal 6.1 as well contributing in sustainable goals 7 (Affordable and Clean Energy), 11 (Sustainable Cities and Communities) and 12 (Responsible Production and Consumption).
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How the colonic environment influences Enterohaemorrhagic E. coli outer membrane vesicle production, and the interaction between outer membrane vesicles with human host cells
More LessEnterohaemorrhagic E. coli (EHEC) may instigate bloody diarrhoea and haemolytic uraemic syndrome (HUS) due to Shiga toxin (Stx) production. Stx has been detected within outer membrane vesicles (OMVs), which are membrane-derived nanosized proteoliposomes. During colonisation, EHEC encounters many environmental surroundings such as the presence of bile salts and carbon dioxide (CO2). Here, the influence of different intestinal cues on EHEC OMV production was studied. OMV yield was quantified by densitometric analysis of outer membrane proteins F/C and A, following OMV protein separation by SDS-PAGE. Compared to cultures in Luria broth, higher OMV yields were attained following culture in human cell growth medium and simulated colonic environmental medium, with further increases in the presence of bile salts. Interestingly, lower yields were attained in the presence of T84 cells and CO2. The interaction between OMVs and different human cells was also examined by fluorescence microscopy. Here, OMVs incubated with cells showed internalisation by semi confluent but not fully confluent T84 cell monolayers. OMVs were internalised into the lysosomes in confluent Vero and Caco-2 cells, with Stx being transported to the Golgi and then the Endoplasmic reticulum. OMVs were detected within polarised Caco-2 cells, with no impact on the transepithelial electrical resistance by 24 hours. These results suggest that the colonic environmental factors influences OMV production in vivo. Additionally, results highlight the discrepancies which arise when using different cells lines to examine the intestine. Nevertheless, coupled with Stx, OMVs may serve as tools of EHEC which are involved in HUS development.
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The molecular interaction between ML336 and the VEEV non-structural proteins
More LessVenezuelan Equine Encephalitis Virus (VEEV) is a positive sense RNA virus in the family Togaviridae. VEEV circulates in the Americas, causing occasional large scale epidemics. Our group has previously discovered and described the anti-VEEV compound ML336. We found that ML336 inhibits viral RNA synthesis during infection. This RNA synthesis inhibition is highly specific for VEEV, and ML336 has no effect on the closely related chikungunya virus, or on cellular RNA synthesis. We also found that this activity was maintained in a cell-free viral RNA synthesis system, supporting our hypothesis that ML336 is a direct acting antiviral compound. We recently discovered that treatment with ML336 reduces the amount of double stranded RNA present in infected cells. This reduction supports that ML336 is interfering with the synthesis of viral RNA. This was measured qualitatively with microscopy, and quantitatively with flow cytometry. We have also reported that resistant viral mutants emerge when grown in the presence of inhibitory compounds and these mutations mapped to the N terminal domains of both nsP2 and nsP4. This region of nsP2 has recently been shown to be a helical region which serves as an accessory domain to the viral helicase. However, the region of nsP4 in question currently lacks known function. Based on this genetic data we hypothesized that ML336 and related compounds interact with these two domains to interfere with the activity of the replicase complex. We are currently examining this interaction using ectopically expressed protein.
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The Type VI Secretion System of Pseudomonas aeruginosa: a gun loaded with antimicrobial bullets
Pseudomonas aeruginosa is an opportunistic pathogen that can cause severe respiratory infections in people who are immunocompromised. P. aeruginosa possesses the Type VI Secretion System (T6SS), a bacterial weapon that injects effectors into neighbouring prokaryotes and eukaryotes. The T6SS is crucial for bacterial warfare, allowing P. aeruginosa to kill its competitors, which promotes its dominance in mixed microbial environments. P. aeruginosa has three T6SSs, H1/2/3-T6SS, these are structural homologs but deliver unique effectors. Effectors are delivered via the secreted component, a Hcp tube topped with a VgrG and PAAR spike. Only the first three identified effectors are delivered by Hcp1. Since then, there has been a bias in identification of VgrG or PAAR delivered effectors, mostly as these are encoded next to the spike proteins. Some P. aeruginosa effectors not only kill bacteria but have a dual role in pathogenesis. Our aim was to identify a comprehensive set of Hcp-delivered effectors for all three systems. Using Hcp1/2/3, systematic pull-down screens were performed to identify novel interaction partners. After confirming interaction, antibacterial toxicity was evaluated, identifying new Hcp delivered T6SS effectors for Hcp2 and Hcp3, which are toxic in the bacterial cytoplasm. These new anti-bacterial effectors may kill bacteria in novel ways, which could lead to novel antibiotics. Additionally, a toxin fusion proved too large for secretion and blocked the T6SS, revealing a Hcp-delivered effector size limit. Future work will focus on fully characterising these new toxins, as well as to look into the potential eukaryotic role of other interaction partners.
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Unravelling the requirement for host cell chloride channels during HRSV infection
More LessIon channels are a diverse class of transmembrane proteins that selectively allow ions across membranes, influencing a multitude of cellular processes. Modulation of these channels by viruses is emerging as an important host-pathogen interaction that regulates critical stages of the virus multiplication cycle including entry, replication and egress.
Human respiratory syncytial virus (HRSV) causes severe respiratory tract infections globally and is one of the most lethal respiratory pathogens for infants in developing countries, with frequent development of bronchiolitis. Furthermore, it is the most significant cause of hospitalisation of infants in the UK. Evidence also indicates that severe childhood HRSV infection contributes towards the increased incidence of adult asthma. No HRSV vaccine is available, and currently the only treatment is immunoprophylaxis which is prohibitively expensive and only moderately effective; thus new treatment options are required.
Utilising GFP-expressing HRSV in combination with an extensive panel of channel specific pharmacological inhibitors, we have identified an important role of cellular chloride (Cl-) channels during HRSV infection. Interestingly, pharmacological inhibition of specific Cl- channel families has ruled out involvement of the CFTR and instead highlighted a critical requirement for calcium-activated Cl- channels (CaCCs). Time of addition studies using CaCC blockers have indicated that these channels play a post-entry role during HRSV infection. Using genetic knockdown techniques we have isolated a single channel of interest and are now further investigating its role in facilitating HRSV multiplication, as well as assessing the importance of Cl- channels in replication cycles of other negative sense RNA viruses.
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Recombination between African and Asian lineages of Zika virus in vitro and its consequences for viral phenotype
More LessRecombination is a process of extensive genetic exchange that is known to contribute to virus evolution and has been frequently observed in positive-sense RNA viruses. Zika virus (ZIKV) is an emerging arbovirus of the family Flaviviridae with two distinct lineages – African and Asian. While some phylogenetic evidence suggests that recombination in the envelope-encoding region of the ZIKV genome has occurred during evolution, there has been no experimental evidence for ZIKV recombination to date. We conducted co-infections of mammalian and insect cells, using the prototype African ZIKV strain (MR766) and an Asian isolate from the 2015-16 ZIKV outbreak in Brazil (BeH819015), and used a recombinant-specific PCR assay to detect recombinant sequences from total cell RNA extracts. In brief, a 564bp fragment spanning the boundary between the structural and the non-structural genes of the viral genome was amplified using a primer pair consisting of an Asian-specific and an African-specific primer. A total of 24 individual sequences were screened. All were in-frame recombinants and they formed 10 unique junctions. Several of the detected recombinant sequences were chosen for construction of full-length infectious clones to test the viability and phenotype of the recombinant viruses. This study represents the first isolation of recombinant ZIKV sequences from co-infected cultured cells and demonstrates the capacity of ZIKV to recombine in an experimental system. Further investigation is required to better understand the evolutionary potential of this mechanism and its putative role in the emergence of ZIKV.
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H5N8 highly pathogenic avian influenza virus introduction risk routes in a high biosecurity floor reared poultry setting
The European H5N8 highly pathogenic avian influenza virus (HPAIV) epizootic during 2016-2017 resulted in both wild bird and poultry deaths throughout the EU. This in vivo study investigated the potential for indirect infection of naïve birds through contaminated drinking water or feed, to assess potential disease incursion into a high biosecurity commercial floor housed setting.
Three-week-old Ross 308 chickens were exposed to H5N8 A/wigeon/Wales/52833/2016 (H5N8-2016) virus at a high (1 x 106 EID50/ml) or low (1 x 104 EID50/ml) dose, in either drinking water or feed for a 24 hour period. Chickens directly-infected with a high dose of H5N8-2016 (intra-nasal) acted as positive controls. Viral shedding, environmental contamination and clinical signs were monitored for ten days post infection (dpi).
All directly-infected birds shed virus and were humanely terminated at 3 dpi. Immunohistochemical analysis of nasal epithelium and caecal tonsil lymphoid tissue, obtained at post mortem from directly-infected chickens (2 dpi), showed the presence of influenza antigen in both tissues. Only birds exposed to high dose virus in drinking water, shed virus and showed clinical disease presentation (67% mortality). Interestingly low levels of antigen were detected in the nasal epithelium, whereas higher levels were detected in the caecal tonsil.
All surviving chickens from each group, remained uninfected and did not seroconvert. Our findings suggest virus bio availability in different substrates is variable (feed and water) and possible routes of viral contamination leading to disease ingress at poultry premises may have different outcomes including disease presentation.
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Prevalence and resistance pattern of uropathogens from community settings of different regions: an experience from India
Sarita Mohapatra, Rajashree Panigrahy, Vibhor Tak, Shwetha J. V., Sneha K. C., Susmita Chaudhuri, Swati Pundir, Deepak Kocher, Hitender Gautam, Seema Sood, Bimal Kumar Das, Arti Kapil, Pankaj Hari, Arvind Kumar, Rajesh Kumari, Mani Kalaivani, Ambica R., Harshal Ramesh Salve, Sumit Malhotra and Shashi Kant
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