Your search keyword '"Emes RD"' showing total 132 results

1. Comparative genomics of vertebrates

Author

Ponting, CP, Goodstadt, L, Heger, A, Birtle, Z, Winter, E, Emes, RD, and Webber, C

Published

2016

2. Targeted NGS gene panel identifies mutations in RSPH1 causing primary ciliary dyskinesia and a common mechanism for ciliary central pair agenesis due to radial spoke defects

Author

Onoufriadis, A, Shoemark, A, Schmidts, M, Patel, M, Jimenez, G, Liu, H, Thomas, B, Dixon, M, Hirst, RA, Rutman, A, Burgoyne, T, Williams, C, Scully, J, Bolard, F, Lafitte, J-J, Beales, PL, Hogg, C, Yang, P, Chung, EMK, Emes, RD, O'Callaghan, C, Bouvagnet, P, and Mitchison, HM

Subjects

DNA-Binding Proteins, Cytoskeletal Proteins, Microscopy, Electron, Axoneme, Microscopy, Fluorescence, Kartagener Syndrome, Mutation, High-Throughput Nucleotide Sequencing, Humans, Proteins, Female, Articles

Abstract

Primary ciliary dyskinesia (PCD) is an inherited chronic respiratory obstructive disease with randomized body laterality and infertility, resulting from cilia and sperm dysmotility. PCD is characterized by clinical variability and extensive genetic heterogeneity, associated with different cilia ultrastructural defects and mutations identified in >20 genes. Next generation sequencing (NGS) technologies therefore present a promising approach for genetic diagnosis which is not yet in routine use. We developed a targeted panel-based NGS pipeline to identify mutations by sequencing of selected candidate genes in 70 genetically undefined PCD patients. This detected loss-of-function RSPH1 mutations in four individuals with isolated central pair (CP) agenesis and normal body laterality, from two unrelated families. Ultrastructural analysis in RSPH1-mutated cilia revealed transposition of peripheral outer microtubules into the ‘empty’ CP space, accompanied by a distinctive intermittent loss of the central pair microtubules. We find that mutations in RSPH1, RSPH4A and RSPH9, which all encode homologs of components of the ‘head’ structure of ciliary radial spoke complexes identified in Chlamydomonas, cause clinical phenotypes that appear to be indistinguishable except at the gene level. By high-resolution immunofluorescence we identified a loss of RSPH4A and RSPH9 along with RSPH1 from RSPH1-mutated cilia, suggesting RSPH1 mutations may result in loss of the entire spoke head structure. CP loss is seen in up to 28% of PCD cases, in whom laterality determination specified by CP-less embryonic node cilia remains undisturbed. We propose this defect could arise from instability or agenesis of the ciliary central microtubules due to loss of their normal radial spoke head tethering.

Published

2014

3. Insights into the evolution of Darwin's finches from comparative analysis of the Geospiza magnirostris genome sequence

Author

Rands, CM, Darling, A, Fujita, M, Kong, L, Webster, MT, Clabaut, C, Emes, RD, Heger, A, Meader, S, Hawkins, MB, Eisen, MB, Teiling, C, Affourtit, J, Boese, B, Grant, PR, Grant, BR, Eisen, JA, Abzhanov, A, Ponting, CP, Rands, CM, Darling, A, Fujita, M, Kong, L, Webster, MT, Clabaut, C, Emes, RD, Heger, A, Meader, S, Hawkins, MB, Eisen, MB, Teiling, C, Affourtit, J, Boese, B, Grant, PR, Grant, BR, Eisen, JA, Abzhanov, A, and Ponting, CP

Abstract

Background: A classical example of repeated speciation coupled with ecological diversification is the evolution of 14 closely related species of Darwin's (Galápagos) finches (Thraupidae, Passeriformes). Their adaptive radiation in the Galápagos archipelago took place in the last 2-3 million years and some of the molecular mechanisms that led to their diversification are now being elucidated. Here we report evolutionary analyses of genome of the large ground finch, Geospiza magnirostris.Results: 13,291 protein-coding genes were predicted from a 991.0 Mb G. magnirostris genome assembly. We then defined gene orthology relationships and constructed whole genome alignments between the G. magnirostris and other vertebrate genomes. We estimate that 15% of genomic sequence is functionally constrained between G. magnirostris and zebra finch. Genic evolutionary rate comparisons indicate that similar selective pressures acted along the G. magnirostris and zebra finch lineages suggesting that historical effective population size values have been similar in both lineages. 21 otherwise highly conserved genes were identified that each show evidence for positive selection on amino acid changes in the Darwin's finch lineage. Two of these genes (Igf2r and Pou1f1) have been implicated in beak morphology changes in Darwin's finches. Five of 47 genes showing evidence of positive selection in early passerine evolution have cilia related functions, and may be examples of adaptively evolving reproductive proteins.Conclusions: These results provide insights into past evolutionary processes that have shaped G. magnirostris genes and its genome, and provide the necessary foundation upon which to build population genomics resources that will shed light on more contemporaneous adaptive and non-adaptive processes that have contributed to the evolution of the Darwin's finches. © 2013 Rands et al.; licensee BioMed Central Ltd.

Published

2013

4. A Comparative Approach to Understanding Tissue-Specific Expression of Uncoupling Protein 1 Expression in Adipose Tissue

Author

Richard D. Emes, Paul R. Kemp, Michael A. Lomax, Clemento Cillo, Nigel Hoggard, Maria D'Armiento, Frank Wessely, Andrew Shore, Shore, A, Emes, Rd, Wessely, F, Kemp, P, Cillo, Clemente, D'Armiento, Maria, Hoggard, N, and Lomax, M. A.

Subjects

Genetics, Untranslated region, lcsh:QH426-470, Pseudogene, uncoupling protein 1, Adipose tissue, Methylation, Biology, Thermogenin, lcsh:Genetics, CpG islands, medicine.anatomical_structure, CpG site, uncoupling protein, Adipose Tissue, Brown, phylogenic analysis, Brown adipose tissue, medicine, Molecular Medicine, methylation, Enhancer, Genetics (clinical), Original Research

Abstract

The thermoregulatory function of brown adipose tissue (BAT) is due to the tissue-specific expression of uncoupling protein 1 (UCP1) which is thought to have evolved in early mammals. We report that a CpG island close to the UCP1 transcription start site is highly conserved in all 29 vertebrates examined apart from the mouse and xenopus. Using methylation sensitive restriction digest and bisulphite mapping we show that the CpG island in both the bovine and human is largely un-methylated and is not related to differences in UCP1 expression between white and brown adipose tissue. Tissue-specific expression of UCP1 has been proposed to be regulated by a conserved 5’ distal enhancer which has been reported to be absent in marsupials. We demonstrate that the enhancer, is also absent in 5 eutherians as well as marsupials, monotremes, amphibians and fish, is present in pigs despite UCP1 having become a pseudogene, and that absence of the enhancer element does not relate to brown adipose tissue-specific UCP1 expression. We identify an additional putative 5’ regulatory unit which is conserved in 14 eutherian species but absent in other eutherians and vertebrates, but again unrelated to UCP1 expression. We conclude that despite clear evidence of conservation of regulatory elements in the UCP1 5’ untranslated region, this does not appear to be related to species or tissues-specific expression of UCP1.

Published

2013

5. Investigative power of genomic informational field theory relative to genome-wide association studies for genotype-phenotype mapping.

Author

Kyratzi P, Matika O, Brassington AH, Clare CE, Xu J, Barrett DA, Emes RD, Archibald AL, Paldi A, Sinclair KD, Wattis J, and Rauch C

Subjects

Humans, Genomics methods, Genetic Association Studies methods, Information Theory, Genome-Wide Association Study methods, Phenotype, Genotype

Abstract

Identifying associations between phenotype and genotype is the fundamental basis of genetic analyses. Inspired by frequentist probability and the work of R. A. Fisher, genome-wide association studies (GWAS) extract information using averages and variances from genotype-phenotype datasets. Averages and variances are legitimated upon creating distribution density functions obtained through the grouping of data into categories. However, as data from within a given category cannot be differentiated, the investigative power of such methodologies is limited. Genomic informational field theory (GIFT) is a method specifically designed to circumvent this issue. The way GIFT proceeds is opposite to that of GWAS. Although GWAS determines the extent to which genes are involved in phenotype formation (bottom-up approach), GIFT determines the degree to which the phenotype can select microstates (genes) for its subsistence (top-down approach). Doing so requires dealing with new genetic concepts, a.k.a. genetic paths, upon which significance levels for genotype-phenotype associations can be determined. By using different datasets obtained in Ovis aries related to bone growth ( dataset 1 ) and to a series of linked metabolic and epigenetic pathways ( dataset 2 ), we demonstrate that removing the informational barrier linked to categories enhances the investigative and discriminative powers of GIFT, namely that GIFT extracts more information than GWAS. We conclude by suggesting that GIFT is an adequate tool to study how phenotypic plasticity and genetic assimilation are linked. NEW & NOTEWORTHY The genetic basis of complex traits remains challenging to investigate using classic genome-wide association studies (GWASs). Given the success of gene editing technologies, this point needs to be addressed urgently since there can only be useful editing technologies whether precise genotype-phenotype mapping information is available initially. Genomic informational field theory (GIFT) is a new mapping method designed to increase the investigative power of biological/medical datasets suggesting, in turn, the need to rethink the conceptual bases of quantitative genetics.

Published

2024

6. Epitranscriptomic mechanisms of androgen signalling and prostate cancer.

Author

Patke R, Harris AE, Woodcock CL, Thompson R, Santos R, Kumari A, Allegrucci C, Archer N, Gudas LJ, Robinson BD, Persson JL, Fray R, Jeyapalan J, Rutland CS, Rakha E, Madhusudan S, Emes RD, Muyangwa-Semenova M, Alsaleem M, de Brot S, Green W, Ratan H, Mongan NP, and Lothion-Roy J

Subjects

Humans, Male, Gene Expression Regulation, Neoplastic, Androgen Antagonists therapeutic use, Androgen Antagonists pharmacology, Transcriptome, Animals, Prostatic Neoplasms metabolism, Prostatic Neoplasms genetics, Prostatic Neoplasms pathology, Prostatic Neoplasms therapy, Androgens metabolism, Signal Transduction, Epigenesis, Genetic, Receptors, Androgen metabolism, Receptors, Androgen genetics

Abstract

Prostate cancer (PCa) is the second most common cancer diagnosed in men. While radical prostatectomy and radiotherapy are often successful in treating localised disease, post-treatment recurrence is common. As the androgen receptor (AR) and androgen hormones play an essential role in prostate carcinogenesis and progression, androgen deprivation therapy (ADT) is often used to deprive PCa cells of the pro-proliferative effect of androgens. ADTs act by either blocking androgen biosynthesis (e.g. abiraterone) or blocking AR function (e.g. bicalutamide, enzalutamide, apalutamide, darolutamide). ADT is often effective in initially suppressing PCa growth and progression, yet emergence of castrate-resistant PCa and progression to neuroendocrine-like PCa following ADT are major clinical challenges. For this reason, there is an urgent need to identify novel approaches to modulate androgen signalling to impede PCa progression whilst also preventing or delaying therapy resistance. The mechanistic convergence of androgen and epitranscriptomic signalling offers a potential novel approach to treat PCa. The epitranscriptome involves covalent modifications of mRNA, notably, in the context of this review, the N(6)-methyladenosine (m 6 A) modification. m 6 A is involved in the regulation of mRNA splicing, stability, and translation, and has recently been shown to play a role in PCa and androgen signalling. The m 6 A modification is dynamically regulated by the METTL3-containing methyltransferase complex, and the FTO and ALKBH5 RNA demethylases. Given the need for novel approaches to treat PCa, there is significant interest in new therapies that target m 6 A that modulate AR expression and androgen signalling. This review critically summarises the potential benefit of such epitranscriptomic therapies for PCa patients., Competing Interests: Declaration of competing interest The authors declare that they have no competing financial interests or personal relationships that could influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

7. Investigative power of Genomic Informational Field Theory (GIFT) relative to GWAS for genotype-phenotype mapping.

Author

Kyratzi P, Matika O, Brassington AH, Clare CE, Xu J, Barrett DA, Emes RD, Archibald AL, Paldi A, Sinclair KD, Wattis J, and Rauch C

Abstract

Identifying associations between phenotype and genotype is the fundamental basis of genetic analyses. Inspired by frequentist probability and the work of R.A. Fisher, genome-wide association studies (GWAS) extract information using averages and variances from genotype-phenotype datasets. Averages and variances are legitimated upon creating distribution density functions obtained through the grouping of data into categories. However, as data from within a given category cannot be differentiated, the investigative power of such methodologies is limited. Genomic Informational Field Theory (GIFT) is a method specifically designed to circumvent this issue. The way GIFT proceeds is opposite to that of GWAS. Whilst GWAS determines the extent to which genes are involved in phenotype formation (bottom-up approach), GIFT determines the degree to which the phenotype can select microstates (genes) for its subsistence (top-down approach). Doing so requires dealing with new genetic concepts, a.k.a. genetic paths, upon which significance levels for genotype-phenotype associations can be determined. By using different datasets obtained in ovis aries related to bone growth (Dataset-1) and to a series of linked metabolic and epigenetic pathways (Dataset-2), we demonstrate that removing the informational barrier linked to categories enhances the investigative and discriminative powers of GIFT, namely that GIFT extracts more information than GWAS. We conclude by suggesting that GIFT is an adequate tool to study how phenotypic plasticity and genetic assimilation are linked., Competing Interests: DISCLOSURES Authors declare no conflict of interest, financial or otherwise.

Published

2024

8. Childhood environment influences epigenetic age and methylation concordance of a CpG clock locus in British-Bangladeshi migrants.

Author

Stöger R, Choi M, Begum K, Leeman G, Emes RD, Melamed P, and Bentley GR

Subjects

Adult, Child, Female, Humans, Asian People, Bangladesh, United Kingdom, CpG Islands, Environment, Aging genetics, DNA Methylation, Epigenesis, Genetic, Transients and Migrants

Abstract

Migration from one location to another often comes with a change in environmental conditions. Here, we analysed features of DNA methylation in young, adult British-Bangladeshi women who experienced different environments during their childhoods: a) migrants, who grew up in Bangladesh with exposure to comparatively higher pathogen loads and poorer health care, and b) second-generation British-Bangladeshis, born to Bangladeshi parents, who grew up in the UK. We used buccal DNA to estimate DNA methylation-based age (DNAm age) from 14 migrants and 11 second-generation migrants, aged 18-35 years. 'AgeAccel,' a measure of DNAm age, independent of chronological age, showed that the group of women who spent their childhood in Bangladesh had higher AgeAccel (P = 0.028), compared to their UK peers. Since epigenetic clocks have been proposed to be associated with maintenance processes of epigenetic systems, we evaluated the preference for concordant DNA methylation at the luteinizing hormone/choriogonadotropin receptor ( LHCGR/LHR ) locus, which harbours one of the CpGs contributing to Horvath's epigenetic clock. Measurements on both strands of individual, double-stranded DNA molecules indicate higher stability of DNA methylation states at this LHCGR/LHR locus in samples of women who grew up in Bangladesh. Together, our two independent analytical approaches imply that childhood environments may induce subtle changes that are detectable long after exposure occurred, which might reflect altered activity of the epigenetic maintenance system or a difference in the proportion of cell types in buccal tissue. This exploratory work supports our earlier findings that adverse childhood environments lead to phenotypic life history trade-offs.

Published

2023

9. Developmental, cytogenetic and epigenetic consequences of removing complex proteins and adding melatonin during in vitro maturation of bovine oocytes.

Author

Tutt DAR, Guven-Ates G, Kwong WY, Simmons R, Sang F, Silvestri G, Canedo-Ribeiro C, Handyside AH, Labrecque R, Sirard MA, Emes RD, Griffin DK, and Sinclair KD

Subjects

Female, Animals, Cattle, Humans, In Vitro Oocyte Maturation Techniques, Oocytes metabolism, Cytogenetic Analysis, Epigenesis, Genetic, Lipids, Melatonin pharmacology, Melatonin metabolism

Abstract

Background: In vitro maturation (IVM) of germinal vesicle intact oocytes prior to in vitro fertilization (IVF) is practiced widely in animals. In human assisted reproduction it is generally reserved for fertility preservation or where ovarian stimulation is contraindicated. Standard practice incorporates complex proteins (CP), in the form of serum and/or albumin, into IVM media to mimic the ovarian follicle environment. However, the undefined nature of CP, together with batch variation and ethical concerns regarding their origin, necessitate the development of more defined formulations. A known component of follicular fluid, melatonin, has multifaceted roles including that of a metabolic regulator and antioxidant. In certain circumstances it can enhance oocyte maturation. At this stage in development, the germinal-vesicle intact oocyte is prone to aneuploidy and epigenetic dysregulation., Objectives: To determine the developmental, cytogenetic and epigenetic consequences of removing CP and including melatonin during bovine IVM., Materials and Methods: The study comprised a 2 x 2 factorial arrangement comparing (i) the inclusion or exclusion of CP, and (ii) the addition (100 nM) or omission of melatonin, during IVM. Cumulus-oocyte complexes (COCs) were retrieved from stimulated cycles. Following IVM and IVF, putative zygotes were cultured to Day 8 in standard media. RNAseq was performed on isolated cumulus cells, cytogenetic analyses (SNP-based algorithms) on isolated trophectoderm cells, and DNA methylation analysis (reduced representation bisulfite sequencing) on isolated cells of the inner-cell mass., Results: Removal of CP during IVM led to modest reductions in blastocyst development, whilst added melatonin was beneficial in the presence but detrimental in the absence of CP. The composition of IVM media did not affect the nature or incidence of chromosomal abnormalities but cumulus-cell transcript expression indicated altered metabolism (primarily lipid) in COCs. These effects preceded the establishment of distinct metabolic and epigenetic signatures several days later in expanded and hatching blastocysts., Conclusions: These findings highlight the importance of lipid, particularly sterol, metabolism by the COC during IVM. They lay the foundation for future studies that seek to develop chemically defined systems of IVM for the generation of transferrable embryos that are both cytogenetically and epigenetically normal., 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. The author(s) declared that they were editorial board members of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2023 Tutt, Guven-Ates, Kwong, Simmons, Sang, Silvestri, Canedo-Ribeiro, Handyside, Labrecque, Sirard, Emes, Griffin and Sinclair.)

Published

2023

10. Editorial: Insights in computational genomics: 2022.

Author

Emes RD, Pirooznia M, Zou Q, and Pellegrini M

Abstract

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.

Published

2023

11. Clinical and molecular significance of the RNA m 6 A methyltransferase complex in prostate cancer.

Author

Lothion-Roy J, Haigh DB, Harris AE, Metzler VM, Alsaleem M, Toss MS, Kariri Y, Ntekim A, Robinson BD, Khani F, Gudas LJ, Allegrucci C, James VH, Madhusudan S, Mather M, Emes RD, Archer N, Fray RG, Rakha E, Jeyapalan JN, Rutland CS, Mongan NP, and Woodcock CL

Abstract

N 6 -methyladenosine (m 6 A) is the most abundant internal mRNA modification and is dynamically regulated through distinct protein complexes that methylate, demethylate, and/or interpret the m 6 A modification. These proteins, and the m 6 A modification, are involved in the regulation of gene expression, RNA stability, splicing and translation. Given its role in these crucial processes, m 6 A has been implicated in many diseases, including in cancer development and progression. Prostate cancer (PCa) is the most commonly diagnosed non-cutaneous cancer in men and recent studies support a role for m 6 A in PCa. Despite this, the literature currently lacks an integrated analysis of the expression of key components of the m 6 A RNA methyltransferase complex, both in PCa patients and in well-established cell line models. For this reason, this study used immunohistochemistry and functional studies to investigate the mechanistic and clinical significance of the METTL3, METTL14, WTAP and CBLL1 components of the m 6 A methyltransferase complex in PCa specimens and cell lines. Expression of METTL3 and CBLL1, but not METTL14 and WTAP, was associated with poorer PCa patient outcomes. Expression of METTL3, METTL14, WTAP and CBLL1 was higher in PCa cells compared with non-malignant prostate cells, with the highest expression seen in castrate-sensitive, androgen-responsive PCa cells. Moreover, in PCa cell lines, expression of METTL3 and WTAP was found to be androgen-regulated. To investigate the mechanistic role(s) of the m 6 A methyltransferase complex in PCa cells, short hairpin RNA (shRNA)-mediated knockdown coupled with next generation sequencing was used to determine the transcriptome-wide roles of METTL3, the catalytic subunit of the m 6 A methyltransferase complex. Functional depletion of METTL3 resulted in upregulation of the androgen receptor (AR), together with 134 AR-regulated genes. METTL3 knockdown also resulted in altered splicing, and enrichment of cell cycle, DNA repair and metabolic pathways. Collectively, this study identified the functional and clinical significance of four essential m 6 A complex components in PCa patient specimens and cell lines for the first time. Further studies are now warranted to determine the potential therapeutic relevance of METTL3 inhibitors in development to treat leukaemia to benefit patients with PCa., 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 © 2023 Lothion-Roy, Haigh, Harris, Metzler, Alsaleem, Toss, Kariri, Ntekim, Robinson, Khani, Gudas, Allegrucci, James, Madhusudan, Mather, Emes, Archer, Fray, Rakha, Jeyapalan, Rutland, Mongan and Woodcock.)

Published

2023

12. Genome Reference Assembly for Bottlenecked Southern Australian Koalas.

Author

Blanchard AM, Emes RD, Greenwood AD, Holmes N, Loose MW, McEwen GK, Meers J, Speight N, and Tarlinton RE

Subjects

Animals, Australia epidemiology, Retroviridae genetics, Phascolarctidae genetics, Retroviridae Infections epidemiology, Retroviridae Infections genetics, Gammaretrovirus genetics, Endogenous Retroviruses

Abstract

Koala populations show marked differences in inbreeding levels and in the presence or absence of the endogenous Koala retrovirus (KoRV). These genetic differences among populations may lead to severe disease impacts threatening koala population viability. In addition, the recent colonization of the koala genome by KoRV provides a unique opportunity to study the process of retroviral adaptation to vertebrate genomes and the impact this has on speciation, genome structure, and function. The genome build described here is from an animal from the bottlenecked Southern population free of endogenous and exogenous KoRV. It provides a more contiguous genome build than the previous koala reference derived from an animal from a more outbred Northern population and is the first koala genome from a KoRV polymerase-free animal., (© The Author(s) 2022. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published

2023

13. Dissecting microbial communities and resistomes for interconnected humans, soil, and livestock.

Author

Maciel-Guerra A, Baker M, Hu Y, Wang W, Zhang X, Rong J, Zhang Y, Zhang J, Kaler J, Renney D, Loose M, Emes RD, Liu L, Chen J, Peng Z, Li F, and Dottorini T

Subjects

Animals, Humans, Anti-Bacterial Agents, Chickens microbiology, Escherichia coli genetics, Genes, Bacterial, Livestock microbiology, Drug Resistance, Bacterial, Anti-Infective Agents, Microbiota, Soil Microbiology

Abstract

A debate is currently ongoing as to whether intensive livestock farms may constitute reservoirs of clinically relevant antimicrobial resistance (AMR), thus posing a threat to surrounding communities. Here, combining shotgun metagenome sequencing, machine learning (ML), and culture-based methods, we focused on a poultry farm and connected slaughterhouse in China, investigating the gut microbiome of livestock, workers and their households, and microbial communities in carcasses and soil. For both the microbiome and resistomes in this study, differences are observed across environments and hosts. However, at a finer scale, several similar clinically relevant antimicrobial resistance genes (ARGs) and similar associated mobile genetic elements were found in both human and broiler chicken samples. Next, we focused on Escherichia coli, an important indicator for the surveillance of AMR on the farm. Strains of E. coli were found intermixed between humans and chickens. We observed that several ARGs present in the chicken faecal resistome showed correlation to resistance/susceptibility profiles of E. coli isolates cultured from the same samples. Finally, by using environmental sensing these ARGs were found to be correlated to variations in environmental temperature and humidity. Our results show the importance of adopting a multi-domain and multi-scale approach when studying microbial communities and AMR in complex, interconnected environments., (© 2022. The Author(s).)

Published

2023

14. Antimicrobial resistance in dairy slurry tanks: A critical point for measurement and control.

Author

Baker M, Williams AD, Hooton SPT, Helliwell R, King E, Dodsworth T, María Baena-Nogueras R, Warry A, Ortori CA, Todman H, Gray-Hammerton CJ, Pritchard ACW, Iles E, Cook R, Emes RD, Jones MA, Kypraios T, West H, Barrett DA, Ramsden SJ, Gomes RL, Hudson C, Millard AD, Raman S, Morris C, Dodd CER, Kreft JU, Hobman JL, and Stekel DJ

Subjects

Angiotensin Receptor Antagonists, Angiotensin-Converting Enzyme Inhibitors, Cephalosporins, Escherichia coli genetics, Humans, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial genetics

Abstract

Waste from dairy production is one of the largest sources of contamination from antimicrobial resistant bacteria (ARB) and genes (ARGs) in many parts of the world. However, studies to date do not provide necessary evidence to inform antimicrobial resistance (AMR) countermeasures. We undertook a detailed, interdisciplinary, longitudinal analysis of dairy slurry waste. The slurry contained a population of ARB and ARGs, with resistances to current, historical and never-used on-farm antibiotics; resistances were associated with Gram-negative and Gram-positive bacteria and mobile elements (ISEcp1, Tn916, Tn21-family transposons). Modelling and experimental work suggested that these populations are in dynamic equilibrium, with microbial death balanced by fresh input. Consequently, storing slurry without further waste input for at least 60 days was predicted to reduce ARB spread onto land, with > 99 % reduction in cephalosporin resistant Escherichia coli. The model also indicated that for farms with low antibiotic use, further reductions are unlikely to reduce AMR further. We conclude that the slurry tank is a critical point for measurement and control of AMR, and that actions to limit the spread of AMR from dairy waste should combine responsible antibiotic use, including low total quantity, avoidance of human critical antibiotics, and choosing antibiotics with shorter half-lives, coupled with appropriate slurry storage., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022

15. Gut transcriptome reveals differential gene expression and enriched pathways linked to immune activation in response to weaning in pigs.

Author

Le Bon M, Tötemeyer S, Emes RD, and Mellits KH

Abstract

Weaning represents one of the most critical periods in pig production associated with increase in disease risk, reduction in performance and economic loss. Physiological changes faced by piglets during the weaning period have been well characterised, however little is currently known about the underlying molecular pathways involved in these processes. As pig meat remains one of the most consumed sources of protein worldwide, understanding how these changes are mediated is critical to improve pig production and consequently sustainable food production globally. In this study, we evaluated the effect of weaning on transcriptomic changes in the colon of healthy piglets over time using an RNA-sequencing approach. The findings revealed a complex and coordinated response to weaning with the majority of genes found to be rapidly differentially expressed within 1 day post weaning. Multiple genes and pathways affected by weaning in the colon were associated with immune regulation, cell signalling and bacterial defence. NOD-like receptors, Toll-like receptor and JAK-STAT signalling pathways were amongst the pathways significantly enriched. Immune activation was evidenced by the enrichment of pathways involved in interferon response, cytokines interactions, oxidoreductase activities and response to microbial invasion. Biosynthesis of amino acids, in particular arginine, was also amongst the most enriched KEGG pathways in weaned pigs, reinforcing the critical role of arginine in gut homeostasis under stress conditions. Overall, transcriptomic and physiological results suggest that pigs going through the weaning transition undergo a transient period of inflammatory state with a temporary breakdown of barrier functions in the gut. These findings could provide valuable tools to monitor host response post weaning, and may be of particular relevance for the investigation and development of intervention strategies aimed to reduce antibiotic use and improve pig health and performance., 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 Le Bon, Tötemeyer, Emes and Mellits.)

Published

2022

16. Differential and defective transcription of koala retrovirus indicates the complexity of host and virus evolution.

Author

Tarlinton RE, Legione AR, Sarker N, Fabijan J, Meers J, McMichael L, Simmons G, Owen H, Seddon JM, Dick G, Ryder JS, Hemmatzedah F, Trott DJ, Speight N, Holmes N, Loose M, and Emes RD

Subjects

Animals, Australia epidemiology, Retroviridae genetics, Gammaretrovirus genetics, Phascolarctidae, Retroviridae Infections veterinary

Abstract

Koala retrovirus (KoRV) is unique amongst endogenous (inherited) retroviruses in that its incorporation to the host genome is still active, providing an opportunity to study what drives this fundamental process in vertebrate genome evolution. Animals in the southern part of the natural range of koalas were previously thought to be either virus-free or to have only exogenous variants of KoRV with low rates of KoRV-induced disease. In contrast, animals in the northern part of their range universally have both endogenous and exogenous KoRV with very high rates of KoRV-induced disease such as lymphoma. In this study we use a combination of sequencing technologies, Illumina RNA sequencing of 'southern' (south Australian) and 'northern' (SE QLD) koalas and CRISPR enrichment and nanopore sequencing of DNA of 'southern' (South Australian and Victorian animals) to retrieve full-length loci and intregration sites of KoRV variants. We demonstrate that koalas that tested negative to the KoRV pol gene qPCR, used to detect replication-competent KoRV, are not in fact KoRV-free but harbour defective, presumably endogenous, 'RecKoRV' variants that are not fixed between animals. This indicates that these populations have historically been exposed to KoRV and raises questions as to whether these variants have arisen by chance or whether they provide a protective effect from the infectious forms of KoRV. This latter explanation would offer the intriguing prospect of being able to monitor and selectively breed for disease resistance to protect the wild koala population from KoRV-induced disease.

Published

2022

17. Gene Expression Profile Induced by Two Different Variants of Street Rabies Virus in Mice.

Author

Appolinário CM, Daly JM, Emes RD, Marchi FA, Ribeiro BLD, and Megid J

Subjects

Animals, Dogs, Mice, Microarray Analysis, Transcriptome, Virulence, Chiroptera, Rabies, Rabies virus

Abstract

Pathogenicity and pathology of rabies virus (RABV) varies according to the variant, but the mechanisms are not completely known. In this study, gene expression profile in brains of mice experimentally infected with RABV isolated from a human case of dog rabies (V2) or vampire bat-acquired rabies (V3) were analyzed. In total, 138 array probes associated with 120 genes were expressed differentially between mice inoculated with V2 and sham-inoculated control mice at day 10 post-inoculation. A single probe corresponding to an unannotated gene was identified in V3 versus control mice. Gene ontology (GO) analysis revealed that all of the genes upregulated in mice inoculated with V2 RABV were involved in the biological process of immune defense against pathogens. Although both variants are considered pathogenic, inoculation by the same conditions generated different gene expression results, which is likely due to differences in pathogenesis between the dog and bat RABV variants. This study demonstrated the global gene expression in experimental infection due to V3 wild-type RABV, from the vampire bat Desmodus rotundus , an important source of infection for humans, domestic animals and wildlife in Latin America.

Published

2022

18. Epigenetic regulation of 5α reductase-1 underlies adaptive plasticity of reproductive function and pubertal timing.

Author

Bar-Sadeh B, Amichai OE, Pnueli L, Begum K, Leeman G, Emes RD, Stöger R, Bentley GR, and Melamed P

Subjects

Adaptation, Physiological, Animals, Epigenesis, Genetic, Female, Gonadotropin-Releasing Hormone genetics, Gonadotropin-Releasing Hormone metabolism, Humans, Mice, 3-Oxo-5-alpha-Steroid 4-Dehydrogenase metabolism, Cholestenone 5 alpha-Reductase genetics, Cholestenone 5 alpha-Reductase metabolism, Kisspeptins genetics, Kisspeptins metabolism, Membrane Proteins metabolism

Abstract

Background: Women facing increased energetic demands in childhood commonly have altered adult ovarian activity and shorter reproductive lifespan, possibly comprising a strategy to optimize reproductive success. Here, we sought to understand the mechanisms of early-life programming of reproductive function, by integrating analysis of reproductive tissues in an appropriate mouse model with methylation analysis of proxy tissue DNA in a well-characterized population of Bangladeshi migrants in the UK. Bangladeshi women whose childhood was in Bangladesh were found to have later pubertal onset and lower age-matched ovarian reserve than Bangladeshi women who grew-up in England. Subsequently, we aimed to explore the potential relevance to the altered reproductive phenotype of one of the genes that emerged from the screens., Results: Of the genes associated with differential methylation in the Bangladeshi women whose childhood was in Bangladesh as compared to Bangladeshi women who grew up in the UK, 13 correlated with altered expression of the orthologous gene in the mouse model ovaries. These mice had delayed pubertal onset and a smaller ovarian reserve compared to controls. The most relevant of these genes for reproductive function appeared to be SRD5A1, which encodes the steroidogenic enzyme 5α reductase-1. SRD5A1 was more methylated at the same transcriptional enhancer in mice ovaries as in the women's buccal DNA, and its expression was lower in the hypothalamus of the mice as well, suggesting a possible role in the central control of reproduction. The expression of Kiss1 and Gnrh was also lower in these mice compared to controls, and inhibition of 5α reductase-1 reduced Kiss1 and Gnrh mRNA levels and blocked GnRH release in GnRH neuronal cell cultures. Crucially, we show that inhibition of this enzyme in female mice in vivo delayed pubertal onset., Conclusions: SRD5A1/5α reductase-1 responds epigenetically to the environment and its downregulation appears to alter the reproductive phenotype. These findings help to explain diversity in reproductive characteristics and how they are shaped by early-life environment and reveal novel pathways that might be targeted to mitigate health issues caused by life-history trade-offs., (© 2021. The Author(s).)

Published

2022

19. LINE-1 transcription in round spermatids is associated with accretion of 5-carboxylcytosine in their open reading frames.

Author

Blythe MJ, Kocer A, Rubio-Roldan A, Giles T, Abakir A, Ialy-Radio C, Wheldon LM, Bereshchenko O, Bruscoli S, Kondrashov A, Drevet JR, Emes RD, Johnson AD, McCarrey JR, Gackowski D, Olinski R, Cocquet J, Garcia-Perez JL, and Ruzov A

Subjects

Animals, Cytosine metabolism, Male, Mice, Spermatids cytology, Spermatogenesis, Transcription, Genetic, Cytosine analogs & derivatives, Long Interspersed Nucleotide Elements, Open Reading Frames, Spermatids metabolism

Abstract

Chromatin of male and female gametes undergoes a number of reprogramming events during the transition from germ cell to embryonic developmental programs. Although the rearrangement of DNA methylation patterns occurring in the zygote has been extensively characterized, little is known about the dynamics of DNA modifications during spermatid maturation. Here, we demonstrate that the dynamics of 5-carboxylcytosine (5caC) correlate with active transcription of LINE-1 retroelements during murine spermiogenesis. We show that the open reading frames of active and evolutionary young LINE-1s are 5caC-enriched in round spermatids and 5caC is eliminated from LINE-1s and spermiogenesis-specific genes during spermatid maturation, being simultaneously retained at promoters and introns of developmental genes. Our results reveal an association of 5caC with activity of LINE-1 retrotransposons suggesting a potential direct role for this DNA modification in fine regulation of their transcription.

Published

2021

20. Pneumolysin Is Responsible for Differential Gene Expression and Modifications in the Epigenetic Landscape of Primary Monocyte Derived Macrophages.

Author

Cole J, Angyal A, Emes RD, Mitchell TJ, Dickman MJ, and Dockrell DH

Subjects

Bacterial Proteins genetics, Cells, Cultured, Cytokines genetics, Cytokines metabolism, Histones metabolism, Host-Pathogen Interactions, Humans, Macrophages microbiology, Methylation, Protein Processing, Post-Translational, Proteome metabolism, Proteomics methods, Streptococcus pneumoniae genetics, Streptococcus pneumoniae physiology, Streptolysins genetics, Bacterial Proteins metabolism, Epigenesis, Genetic, Gene Expression Profiling, Macrophages metabolism, Streptococcus pneumoniae metabolism, Streptolysins metabolism

Abstract

Epigenetic modifications regulate gene expression in the host response to a diverse range of pathogens. The extent and consequences of epigenetic modification during macrophage responses to Streptococcus pneumoniae , and the role of pneumolysin, a key Streptococcus pneumoniae virulence factor, in influencing these responses, are currently unknown. To investigate this, we infected human monocyte derived macrophages (MDMs) with Streptococcus pneumoniae and addressed whether pneumolysin altered the epigenetic landscape and the associated acute macrophage transcriptional response using a combined transcriptomic and proteomic approach. Transcriptomic analysis identified 503 genes that were differentially expressed in a pneumolysin-dependent manner in these samples. Pathway analysis highlighted the involvement of transcriptional responses to core innate responses to pneumococci including modules associated with metabolic pathways activated in response to infection, oxidative stress responses and NFκB, NOD-like receptor and TNF signalling pathways. Quantitative proteomic analysis confirmed pneumolysin-regulated protein expression, early after bacterial challenge, in representative transcriptional modules associated with innate immune responses. In parallel, quantitative mass spectrometry identified global changes in the relative abundance of histone post translational modifications (PTMs) upon pneumococcal challenge. We identified an increase in the relative abundance of H3K4me1, H4K16ac and a decrease in H3K9me2 and H3K79me2 in a PLY-dependent fashion. We confirmed that pneumolysin blunted early transcriptional responses involving TNF-α and IL-6 expression. Vorinostat, a histone deacetylase inhibitor, similarly downregulated TNF-α production, reprising the pattern observed with pneumolysin. In conclusion, widespread changes in the macrophage transcriptional response are regulated by pneumolysin and are associated with global changes in histone PTMs. Modulating histone PTMs can reverse pneumolysin-associated transcriptional changes influencing innate immune responses, suggesting that epigenetic modification by pneumolysin plays a role in dampening the innate responses to pneumococci., 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 © 2021 Cole, Angyal, Emes, Mitchell, Dickman and Dockrell.)

Published

2021

21. Interspecific Variation in One-Carbon Metabolism within the Ovarian Follicle, Oocyte, and Preimplantation Embryo: Consequences for Epigenetic Programming of DNA Methylation.

Author

Clare CE, Pestinger V, Kwong WY, Tutt DAR, Xu J, Byrne HM, Barrett DA, Emes RD, and Sinclair KD

Subjects

Animals, Cattle, Female, Hep G2 Cells, Humans, Rats, Swine, Blastocyst metabolism, Carbon metabolism, DNA Methylation, Epigenesis, Genetic, Granulosa Cells metabolism, Oocytes metabolism, Theca Cells metabolism

Abstract

One-carbon (1C) metabolism provides methyl groups for the synthesis and/or methylation of purines and pyrimidines, biogenic amines, proteins, and phospholipids. Our understanding of how 1C pathways operate, however, pertains mostly to the (rat) liver. Here we report that transcripts for all bar two genes (i.e., BHMT , MAT1A ) encoding enzymes in the linked methionine-folate cycles are expressed in all cell types within the ovarian follicle, oocyte, and blastocyst in the cow, sheep, and pig; as well as in rat granulosa cells (GCs) and human KGN cells (a granulosa-like tumor cell line). Betaine-homocysteine methyltransferase (BHMT) protein was absent in bovine theca and GCs, as was activity of this enzyme in GCs. Mathematical modeling predicted that absence of this enzyme would lead to more volatile S-adenosylmethionine-mediated transmethylation in response to 1C substrate (e.g., methionine) or cofactor provision. We tested the sensitivity of bovine GCs to reduced methionine (from 50 to 10 µM) and observed a diminished flux of 1C units through the methionine cycle. We then used reduced-representation bisulfite sequencing to demonstrate that this reduction in methionine during bovine embryo culture leads to genome-wide alterations to DNA methylation in >1600 genes, including a cohort of imprinted genes linked to an abnormal fetal-overgrowth phenotype. Bovine ovarian and embryonic cells are acutely sensitive to methionine, but further experimentation is required to determine the significance of interspecific variation in BHMT expression.

Published

2021

22. A Paradox in Bacterial Pathogenesis: Activation of the Local Macrophage Inflammasome Is Required for Virulence of Streptococcus uberis .

Author

Archer N, Egan SA, Coffey TJ, Emes RD, Addis MF, Ward PN, Blanchard AM, and Leigh JA

Abstract

Streptococcus uberis is a common cause of intramammary infection and mastitis in dairy cattle. Unlike other mammary pathogens, S. uberis evades detection by mammary epithelial cells, and the host-pathogen interactions during early colonisation are poorly understood. Intramammary challenge of dairy cows with S. uberis (strain 0140 J) or isogenic mutants lacking the surface-anchored serine protease, SUB1154, demonstrated that virulence was dependent on the presence and correct location of this protein. Unlike the wild-type strain, the mutant lacking SUB1154 failed to elicit IL-1β from ex vivo CD14+ cells obtained from milk (bovine mammary macrophages, BMM), but this response was reinstated by complementation with recombinant SUB1154; the protein in isolation elicited no response. Production of IL-1β was ablated in the presence of various inhibitors, indicating dependency on internalisation and activation of NLRP3 and caspase-1, consistent with inflammasome activation. Similar transcriptomic changes were detected in ex vivo BMM in response to the wild-type or the SUB1154 deletion mutant, consistent with S. uberis priming BMM, enabling the SUB1154 protein to activate inflammasome maturation in a transcriptionally independent manner. These data can be reconciled in a novel model of pathogenesis in which, paradoxically, early colonisation is dependent on the innate response to the initial infection.

Published

2020

23. Metagenomics reveals impact of geography and acute diarrheal disease on the Central Indian human gut microbiome.

Author

Monaghan TM, Sloan TJ, Stockdale SR, Blanchard AM, Emes RD, Wilcox M, Biswas R, Nashine R, Manke S, Gandhi J, Jain P, Bhotmange S, Ambalkar S, Satav A, Draper LA, Hill C, and Kashyap RS

Subjects

Adult, Aged, Anti-Bacterial Agents therapeutic use, Bacteria virology, Carbapenems therapeutic use, Cephalosporins therapeutic use, Clostridioides difficile drug effects, Clostridioides difficile isolation & purification, Diarrhea microbiology, Enterocolitis, Pseudomembranous drug therapy, Female, Humans, India epidemiology, Male, Metagenomics, Middle Aged, Rural Population, Urban Population, Young Adult, Bacteria classification, Bacteria isolation & purification, Diarrhea epidemiology, Enterocolitis, Pseudomembranous epidemiology, Gastrointestinal Microbiome genetics

Abstract

Background: The Central Indian gut microbiome remains grossly understudied. Herein, we sought to investigate the burden of antimicrobial resistance and diarrheal diseases, particularly Clostridioides difficile , in rural-agricultural and urban populations in Central India, where there is widespread unregulated antibiotic use. We utilized shotgun metagenomics to comprehensively characterize the bacterial and viral fractions of the gut microbiome and their encoded functions in 105 participants., Results: We observed distinct rural-urban differences in bacterial and viral populations, with geography exhibiting a greater influence than diarrheal status. Clostridioides difficile disease was more commonly observed in urban subjects, and their microbiomes were enriched in metabolic pathways relating to the metabolism of industrial compounds and genes encoding resistance to 3 rd generation cephalosporins and carbapenems. By linking phages present in the microbiome to their bacterial hosts through CRISPR spacers, phage variation could be directly related to shifts in bacterial populations, with the auxiliary metabolic potential of rural-associated phages enriched for carbon and amino acid energy metabolism., Conclusions: We report distinct differences in antimicrobial resistance gene profiles, enrichment of metabolic pathways and phage composition between rural and urban populations, as well as a higher burden of Clostridioides difficile disease in the urban population. Our results reveal that geography is the key driver of variation in urban and rural Indian microbiomes, with acute diarrheal disease, including C. difficile disease exerting a lesser impact. Future studies will be required to understand the potential role of dietary, cultural, and genetic factors in contributing to microbiome differences between rural and urban populations.

Published

2020

24. Thapsigargin at Non-Cytotoxic Levels Induces a Potent Host Antiviral Response that Blocks Influenza A Virus Replication.

Author

Goulding LV, Yang J, Jiang Z, Zhang H, Lea D, Emes RD, Dottorini T, Pu J, Liu J, and Chang KC

Subjects

Animals, Cell Line, Chick Embryo, Chlorocebus aethiops, Dogs, Endoplasmic Reticulum Stress drug effects, Female, Host-Pathogen Interactions drug effects, Humans, Immunity, Innate drug effects, Immunity, Innate immunology, Influenza, Human drug therapy, Interferon Type I drug effects, Interferon Type I immunology, Interferons drug effects, Interferons immunology, Mice, Mice, Inbred BALB C, Sarcoplasmic Reticulum Calcium-Transporting ATPases antagonists & inhibitors, Swine, Unfolded Protein Response drug effects, Vero Cells, Interferon Lambda, Antiviral Agents pharmacology, Influenza A Virus, H1N1 Subtype growth & development, Influenza A Virus, H3N8 Subtype growth & development, Thapsigargin pharmacology, Virus Replication drug effects

Abstract

Influenza A virus is a major global pathogen of humans, and there is an unmet need for effective antivirals. Current antivirals against influenza A virus directly target the virus and are vulnerable to mutational resistance. Harnessing an effective host antiviral response is an attractive alternative. We show that brief exposure to low, non-toxic doses of thapsigargin (TG), an inhibitor of the sarcoplasmic/endoplasmic reticulum (ER) Ca 2+ ATPase pump, promptly elicits an extended antiviral state that dramatically blocks influenza A virus production. Crucially, oral administration of TG protected mice against lethal virus infection and reduced virus titres in the lungs of treated mice. TG-induced ER stress unfolded protein response appears as a key driver responsible for activating a spectrum of host antiviral defences that include an enhanced type I/III interferon response. Our findings suggest that TG is potentially a viable host-centric antiviral for the treatment of influenza A virus infection without the inherent problem of drug resistance.

Published

2020

25. Molecular Characterisation of Canine Osteosarcoma in High Risk Breeds.

Author

Simpson S, Dunning M, de Brot S, Alibhai A, Bailey C, Woodcock CL, Mestas M, Akhtar S, Jeyapalan JN, Lothion-Roy J, Emes RD, Allegrucci C, Rizvanov AA, Mongan NP, and Rutland CS

Abstract

Dogs develop osteosarcoma (OSA) and the disease process closely resembles that of human OSA. OSA has a poor prognosis in both species and disease-free intervals and cure rates have not improved in recent years. Gene expression in canine OSAs was compared with non-tumor tissue utilising RNA sequencing, validated by qRT-PCR and immunohistochemistry ( n = 16). Polymorphic polyglutamine (polyQ) tracts in the androgen receptor ( AR/NR3C4 ) and nuclear receptor coactivator 3 ( NCOA3 ) genes were investigated in control and OSA patients using polymerase chain reaction (PCR), Sanger sequencing and fragment analysis ( n = 1019 Rottweilers, 379 Irish Wolfhounds). Our analysis identified 1281 significantly differentially expressed genes (>2 fold change, p < 0.05), specifically 839 lower and 442 elevated gene expression in osteosarcoma ( n = 3) samples relative to non-malignant ( n = 4) bone. Enriched pathways and gene ontologies were identified, which provide insight into the molecular pathways implicated in canine OSA. Expression of a subset of these genes ( SLC2A1 , DKK3 , MMP3 , POSTN , RBP4 , ASPN ) was validated by qRTPCR and immunohistochemistry (MMP3, DKK3, SLC2A1) respectively. While little variation was found in the NCOA3 polyQ tract, greater variation was present in both polyQ tracts in the AR , but no significant associations in length were made with OSA. The data provides novel insights into the molecular mechanisms of OSA in high risk breeds. This knowledge may inform development of new prevention strategies and treatments for OSA in dogs and supports utilising spontaneous OSA in dogs to improve understanding of the disease in people.

Published

2020

26. Safe nanoengineering and incorporation of transplant populations in a neurosurgical grade biomaterial, DuraGen Plus TM , for protected cell therapy applications.

Author

Finch L, Harris S, Solomou G, Sen J, Tzerakis N, Emes RD, Lane CS, Hart SR, Adams CF, and Chari DM

Subjects

Cell Differentiation, DNA, Humans, Tissue Engineering, Biocompatible Materials, Neural Stem Cells, Stem Cell Transplantation

Abstract

High transplant cell loss is a major barrier to translation of stem cell therapy for pathologies of the brain and spinal cord. Encapsulated delivery of stem cells in biomaterials for cell therapy is gaining popularity but experimental research has overwhelmingly used laboratory grade materials unsuitable for human clinical use - representing a further barrier to clinical translation. A potential solution is to use neurosurgical grade materials routinely used in clinical protocols which have an established human safety profile. Here, we tested the ability of Duragen Plus™ - a clinical biomaterial used widely in neurosurgical duraplasty procedures, to support the growth and differentiation of neural stem cells- a major transplant population being tested in clinical trials for neurological pathology. Genetic engineering of stem cells yields augmented therapeutic cells, so we further tested the ability of the Duragen Plus™ matrix to support stem cells engineered using magnetofection technology and minicircle DNA vectors- a promising cell engineering approach we previously reported (Journal of Controlled Release, 2016 a &b). The safety of the nano-engineering approach was analysed for the first time using sophisticated data-independent analysis by mass spectrometry-based proteomics. We prove that the Duragen Plus™ matrix is a promising biomaterial for delivery of stem cell transplant populations, with no adverse effects on key regenerative parameters. This advanced cellular construct based on a combinatorial nano-engineering and biomaterial encapsulation approach, could therefore offer key advantages for clinical translation., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

27. Whole-Genome Sequence of a Plant Growth-Promoting Strain, Serratia marcescens BTL07, Isolated from the Rhizoplane of Capsicum annuum L.

Author

Dutta S, Khatun A, Gupta DR, Surovy MZ, Rahman MM, Mahmud NU, Emes RD, Warry A, West HM, Clarke ML, Hoque MN, Hossain MM, Salam MA, and Islam MT

Abstract

Serratia marcescens strain BTL07, which has the ability to promote growth and suppress plant diseases, was isolated from the rhizoplane of a chili plant. The draft genome sequence data of the strain will contribute to advancing our understanding of the molecular mechanisms underlying plant growth promotion and tolerance to different stresses., (Copyright © 2020 Dutta et al.)

Published

2020

28. Pathological Findings in Koala Retrovirus-positive Koalas (Phascolarctos cinereus) from Northern and Southern Australia.

Author

Fabijan J, Sarker N, Speight N, Owen H, Meers J, Simmons G, Seddon J, Emes RD, Tarlinton R, Hemmatzadeh F, Woolford L, and Trott DJ

Subjects

Animals, Australia, Gammaretrovirus, South Australia, Phascolarctidae virology, Retroviridae Infections veterinary, Tumor Virus Infections veterinary

Abstract

Koala retrovirus (KoRV) infection shows differences in prevalence and load between northern and southern Australian koala populations; however, the effect of this on diseases such as lymphoma and chlamydial disease is unclear. This study compared clinicopathological findings, haematology and splenic lymphoid area of KoRV-positive koalas from northern (Queensland [Qld], n = 67) and southern (South Australia [SA], n = 92) populations in order to provide further insight into KoRV pathogenesis. Blood was collected for routine haematology and for measurement of KoRV proviral load by quantitative polymerase chain reaction (qPCR). Plasma samples were assessed for KoRV viral load by reverse transcriptase qPCR and conjunctival and cloacal swabs were collected for measurement of the load of Chlamydia pecorum (qPCR). During necropsy examination, spleen was collected for lymphoid area analysis. Lymphoma was morphologically similar between the populations and occurred in koalas with the highest KoRV proviral and viral loads. Severe ocular chlamydial disease was observed in both populations, but urinary tract disease was more severe in Qld, despite similar C. pecorum loads. No associations between KoRV and chlamydial disease severity or load were observed, except in SA where viral load correlated positively with chlamydial disease severity. In both populations, proviral and viral loads correlated positively with lymphocyte and metarubricyte counts and correlated negatively with erythrocyte and neutrophil counts. Splenic lymphoid area was correlated positively with viral load. This study has shown further evidence for KoRV-induced oncogenesis and highlighted that lymphocytes and splenic lymphoid tissue may be key sites for KoRV replication. However, KoRV infection appears to be highly complex and continued investigation is required to fully understand its pathogenesis., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

29. Koala retrovirus viral load and disease burden in distinct northern and southern koala populations.

Author

Sarker N, Fabijan J, Owen H, Seddon J, Simmons G, Speight N, Kaler J, Woolford L, Emes RD, Hemmatzadeh F, Trott DJ, Meers J, and Tarlinton RE

Subjects

Aging genetics, Animals, Australia epidemiology, DNA metabolism, Female, Gene Products, env genetics, Gene Products, env metabolism, Gene Products, gag genetics, Gene Products, gag metabolism, Gene Products, pol genetics, Gene Products, pol metabolism, Male, Phascolarctidae, Proviruses genetics, RNA, Viral blood, Retroviridae isolation & purification, Retroviridae Infections epidemiology, Retroviridae Infections veterinary, Retroviridae Infections virology, Viral Load, Retroviridae genetics, Retroviridae Infections pathology

Abstract

Koala retrovirus (KoRV) displays features of both an endogenous and exogenous virus and is linked to neoplasia and immunosuppression in koalas. This study explores the apparent differences in the nature and impact of KoRV infection between geographically and genetically separated "northern" and "southern" koala populations, by investigating the disease status, completeness of the KoRV genome and the proviral (DNA) and viral (RNA) loads of 71 northern and 97 southern koalas. All northern animals were positive for all KoRV genes (gag, pro-pol and env) in both DNA and RNA forms, whereas many southern animals were missing one or more KoRV genes. There was a significant relationship between the completeness of the KoRV genome and clinical status in this population. The proviral and viral loads of the northern population were significantly higher than those of the southern population (P < 0.0001), and many provirus-positive southern animals failed to express any detectable KoRV RNA. Across both populations there was a positive association between proviral load and neoplasia (P = 0.009). Potential reasons for the differences in the nature of KoRV infection between the two populations are discussed.

Published

2020

30. N 6 -methyladenosine regulates the stability of RNA:DNA hybrids in human cells.

Author

Abakir A, Giles TC, Cristini A, Foster JM, Dai N, Starczak M, Rubio-Roldan A, Li M, Eleftheriou M, Crutchley J, Flatt L, Young L, Gaffney DJ, Denning C, Dalhus B, Emes RD, Gackowski D, Corrêa IR Jr, Garcia-Perez JL, Klungland A, Gromak N, and Ruzov A

Subjects

Adenosine pharmacology, Animals, DNA drug effects, DNA genetics, DNA Damage, Humans, Mice, Mice, Knockout, Mitosis, Pluripotent Stem Cells cytology, RNA drug effects, RNA genetics, RNA, Messenger chemistry, RNA, Messenger genetics, RNA, Messenger metabolism, Adenosine analogs & derivatives, DNA chemistry, Genomic Instability, Pluripotent Stem Cells metabolism, RNA chemistry, RNA Stability drug effects, RNA-Binding Proteins physiology

Abstract

R-loops are nucleic acid structures formed by an RNA:DNA hybrid and unpaired single-stranded DNA that represent a source of genomic instability in mammalian cells 1-4 . Here we show that N 6 -methyladenosine (m 6 A) modification, contributing to different aspects of messenger RNA metabolism 5,6 , is detectable on the majority of RNA:DNA hybrids in human pluripotent stem cells. We demonstrate that m 6 A-containing R-loops accumulate during G 2 /M and are depleted at G 0 /G 1 phases of the cell cycle, and that the m 6 A reader promoting mRNA degradation, YTHDF2 (ref. 7 ), interacts with R-loop-enriched loci in dividing cells. Consequently, YTHDF2 knockout leads to increased R-loop levels, cell growth retardation and accumulation of γH2AX, a marker for DNA double-strand breaks, in mammalian cells. Our results suggest that m 6 A regulates accumulation of R-loops, implying a role for this modification in safeguarding genomic stability.

Published

2020

31. Method for RNA extraction and transcriptomic analysis of single fungal spores.

Author

Geoghegan IA, Emes RD, Archer DB, and Avery SV

Abstract

Transcriptomic analysis of single cells has been increasingly in demand in recent years, thanks to technological and methodological advances as well as growing recognition of the importance of individuals in biological systems. However, the majority of these studies have been performed in mammalian cells, due to their ease of lysis and high RNA content. No single cell transcriptomic analysis has yet been described in microbial spores, even though it is known that heterogeneity at the phenotype level exists among individual spores. Transcriptomic analysis of single spores is challenging, in part due to the physically robust nature of the spore wall. This precludes the use of methods commonly used for mammalian cells. Here, we describe a simple method for extraction and amplification of transcripts from single fungal conidia (asexual spores), and its application in single-cell transcriptomics studies. The method can also be used for studies of small numbers of fungal conidia, which may be necessary in the case of limited sample availability, low-abundance transcripts or interest in small subpopulations of conidia. •The method allows detection of transcripts from single conidia of Aspergillus niger •The method allows detection of genomic DNA from single conidia of Aspergillus niger ., (© 2019 The Authors.)

Published

2019

32. Genetic diversity of Koala retrovirus env gene subtypes: insights into northern and southern koala populations.

Author

Sarker N, Fabijan J, Seddon J, Tarlinton R, Owen H, Simmons G, Thia J, Blanchard AM, Speight N, Kaler J, Emes RD, Woolford L, Trott D, Hemmatzadeh F, and Meers J

Subjects

Aging, Animals, Australia epidemiology, Female, Gene Expression Regulation, Viral physiology, Male, Retroviridae Infections virology, Gene Products, env genetics, Phascolarctidae virology, Retroviridae genetics, Retroviridae Infections veterinary

Abstract

Koala retrovirus (KoRV) is a recently endogenized retrovirus associated with neoplasia and immunosuppression in koala populations. The virus is known to display sequence variability and to be present at varying prevalence in different populations, with animals in southern Australia displaying lower prevalence and viral loads than northern animals. This study used a PCR and next-generation sequencing strategy to examine the diversity of the KoRV env gene in both proviral DNA and viral RNA forms in two distinct populations representative of the 'northern' and 'southern' koala genotypes. The current study demonstrated that the full range of KoRV subtypes is present across both populations, and in both healthy and sick animals. KoRV-A was the predominant proviral subtype in both populations, but there was marked diversity of DNA and RNA subtypes within individuals. Many of the northern animals displayed a higher RNA viral diversity than evident in their proviral DNA, indicating relatively higher replication efficiency of non-KoRV-A subtypes. The southern animals displayed a lower absolute copy number of KoRV than the northern animals as reported previously and a higher preponderance of KoRV-A in individual animals. These discrepancies in viral replication and diversity remain unexplained but may indicate relative protection of the southern population from KoRV replication due to either viral or host factors and may represent an important protective effect for the host in KoRV's ongoing entry into the koala genome.

Published

2019

33. The Cross-Talk between miR-511-3p and C-Type Lectin Receptors on Dendritic Cells Affects Dendritic Cell Function.

Author

Awuah D, Alobaid M, Latif A, Salazar F, Emes RD, and Ghaemmaghami AM

Subjects

Cell Differentiation, Cells, Cultured, Coculture Techniques, Gene Expression Regulation, Humans, Immunomodulation, Indoleamine-Pyrrole 2,3,-Dioxygenase metabolism, Intercellular Adhesion Molecule-3 genetics, Intercellular Adhesion Molecule-3 metabolism, Interleukin-10 metabolism, Interleukin-4 metabolism, Lymphocyte Activation, RNA, Small Interfering genetics, Receptor Cross-Talk, Dendritic Cells physiology, Lectins, C-Type metabolism, MicroRNAs genetics, T-Lymphocytes, Helper-Inducer immunology

Abstract

MicroRNAs are small, noncoding RNAs that function as posttranscriptional modulators of gene expression by binding target mRNAs and inhibiting translation. They are therefore crucial regulators of several biological as well as immunological events. Recently, miR-511-3p has been implicated in the development and differentiation of APCs, such as dendritic cells (DCs), and regulating several human diseases. Interestingly, miR-511-3p is embedded within the human MRC1 gene that encodes the mannose receptor. In this study, we sought to examine the impact of miR-511-3p up- or downregulation on human DC surface phenotype, cytokine profile, immunogenicity (using IDO activity as a surrogate), and downstream T cell polarization. Using gene silencing and a selection of microRNA mimics, we could successfully suppress or induce the expression of miR-511-3p in DCs. Consequently, we show for the first time, to our knowledge, that inhibition and/or overexpression of miR-511-3p has opposing effects on the expression levels of two key C-type lectin receptors, namely the mannose receptor and DC-specific ICAM 3 nonintegrin at protein and mRNA levels, thereby affecting C-type lectin receptor-induced modulation of IDO activity in DCs. Furthermore, we show that downregulation of miR-511-3p drives an anti-inflammatory DC response characterized by IL-10 production. Interestingly, the miR-511-3p low DCs also promoted IL-4 secretion and suppressed IL-17 in cocultures with autologous T cells. Together, our data highlight the potential role of miR-511 in regulating DC function and downstream events leading to Th polarization and immune modulation., (Copyright © 2019 by The American Association of Immunologists, Inc.)

Published

2019

34. Detection and analysis of RNA methylation.

Author

Mongan NP, Emes RD, and Archer N

Subjects

Epigenesis, Genetic, Methylation, RNA chemistry

Abstract

Our understanding of the expanded genetic alphabet has been growing rapidly over the last two decades, and many of these developments came more than 80 years after the original discovery of a modified guanine in tuberculosis DNA. These new understandings, leading to the field of epigenetics, have led to exciting new fundamental and applied knowledge and to the development of novel classes of drugs exploiting this new biology. The number of methyl modifications to RNA is about seven times greater than those found on DNA, and our ability to interrogate these enigmatic nucleobases has lagged significantly until recent years as an explosion in technologies and understanding has revealed the roles and regulation of RNA methylation in several fundamental and disease-associated biological processes. Here, we outline how the technology has evolved and which strategies are commonly used in the modern epitranscriptomics revolution and give a foundation in the understanding and application of the rich variety of these methods to novel biological questions., Competing Interests: No competing interests were disclosed.No competing interests were disclosed.No competing interests were disclosed.

Published

2019

35. Evolution of gene expression levels in the male reproductive organs of Anopheles mosquitoes.

Author

Izquierdo A, Fahrenberger M, Persampieri T, Benedict MQ, Giles T, Catteruccia F, Emes RD, and Dottorini T

Subjects

Animals, Genome, Insect genetics, Male, Multivariate Analysis, Phenotype, Phylogeny, Protein Interaction Maps genetics, Regulatory Elements, Transcriptional genetics, Anopheles genetics, Evolution, Molecular, Gene Expression genetics, Genitalia, Male, Transcriptome genetics

Abstract

Modifications in gene expression determine many of the phenotypic differentiations between closely related species. This is particularly evident in reproductive tissues, where evolution of genes is more rapid, facilitating the appearance of distinct reproductive characteristics which may lead to species isolation and phenotypic variation. Large-scale, comparative analyses of transcript expression levels have been limited until recently by lack of inter-species data mining solutions. Here, by combining expression normalisation across lineages, multivariate statistical analysis, evolutionary rate, and protein-protein interaction analysis, we investigate ortholog transcripts in the male accessory glands and testes across five closely related species in the Anopheles gambiae complex. We first demonstrate that the differentiation by transcript expression is consistent with the known Anopheles phylogeny. Then, through clustering, we discover groups of transcripts with tissue-dependent expression patterns conserved across lineages, or lineage-dependent patterns conserved across tissues. The strongest associations with reproductive function, transcriptional regulatory networks, protein-protein subnetworks, and evolutionary rate are found for the groups of transcripts featuring large expression differences in lineage or tissue-conserved patterns., Competing Interests: The authors declare that they have no conflict of interest.

Published

2019

36. Discrimination of contagious and environmental strains of Streptococcus uberis in dairy herds by means of mass spectrometry and machine-learning.

Author

Esener N, Green MJ, Emes RD, Jowett B, Davies PL, Bradley AJ, and Dottorini T

Subjects

Animals, Bacterial Proteins metabolism, Cattle, Computational Biology, Mastitis, Bovine transmission, Streptococcus metabolism, Dairying, Machine Learning, Mastitis, Bovine microbiology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Streptococcus isolation & purification, Streptococcus pathogenicity

Abstract

Streptococcus uberis is one of the most common pathogens of clinical mastitis in the dairy industry. Knowledge of pathogen transmission route is essential for the selection of the most suitable intervention. Here we show that spectral profiles acquired from clinical isolates using matrix-assisted laser desorption ionization/time of flight (MALDI-TOF) can be used to implement diagnostic classifiers based on machine learning for the successful discrimination of environmental and contagious S. uberis strains. Classifiers dedicated to individual farms achieved up to 97.81% accuracy at cross-validation when using a genetic algorithm, with Cohen's kappa coefficient of 0.94. This indicates the potential of the proposed methodology to successfully support screening at the herd level. A global classifier developed on merged data from 19 farms achieved 95.88% accuracy at cross-validation (kappa 0.93) and 70.67% accuracy at external validation (kappa 0.34), using data from another 10 farms left as holdout. This indicates that more work is needed to develop a screening solution successful at the population level. Significant MALDI-TOF spectral peaks were extracted from the trained classifiers. The peaks were found to correspond to bacteriocin and ribosomal proteins, suggesting that immunity, growth and competition over nutrients may be correlated to the different transmission routes.

Published

2018

37. Acute Toxoplasma Gondii Infection in Cats Induced Tissue-Specific Transcriptional Response Dominated by Immune Signatures.

Author

Cong W, Dottorini T, Khan F, Emes RD, Zhang FK, Zhou CX, He JJ, Zhang XX, Elsheikha HM, and Zhu XQ

Subjects

Animals, Biomarkers, Cats, Computational Biology, Gene Expression Profiling, Gene Ontology, Host-Parasite Interactions immunology, Immunomodulation, Molecular Sequence Annotation, Organ Specificity, Toxoplasmosis, Animal immunology, Gene Expression Regulation, Host-Parasite Interactions genetics, Toxoplasma immunology, Toxoplasmosis, Animal genetics, Toxoplasmosis, Animal parasitology, Transcriptome

Abstract

RNA-sequencing was used to detect transcriptional changes in six tissues of cats, seven days after T. gondii infection. A total of 737 genes were differentially expressed (DEGs), of which 410 were up-regulated and 327 were down-regulated. The liver exhibited 151 DEGs, lung (149 DEGs), small intestine (130 DEGs), heart (123 DEGs), brain (104 DEGs), and spleen (80 DEGs)-suggesting tissue-specific transcriptional patterns. Gene ontology and KEGG analyses identified DEGs enriched in immune pathways, such as cytokine-cytokine receptor interaction, Jak-STAT signaling pathway, NOD-like receptor signaling pathway, NF-kappa B signaling pathway, MAPK signaling pathway, T cell receptor signaling pathway, and the cytosolic DNA sensing pathway. C-X-C motif chemokine 10 (CXCL10) was involved in most of the immune-related pathways. PI3K/Akt expression was down-regulated in all tissues, except the spleen. The genes for phosphatase, indoleamine 2,3-dioxygenase, Hes Family BHLH Transcription Factor 1, and guanylate-binding protein 5, playing various roles in immune defense, were co-expressed across various feline tissues. Multivariate K-means clustering analysis produced seven gene clusters featuring similar gene expression patterns specific to individual tissues, with lung tissue cluster having the largest number of DEGs. These findings suggest the presence of a broad immune defense mechanism across various tissues in cats against acute T. gondii infection.

Published

2018

38. Paternal diet programs offspring health through sperm- and seminal plasma-specific pathways in mice.

Author

Watkins AJ, Dias I, Tsuro H, Allen D, Emes RD, Moreton J, Wilson R, Ingram RJM, and Sinclair KD

Subjects

Animals, Epigenesis, Genetic drug effects, Female, Male, Mice, Semen Analysis, Uterus metabolism, Dietary Exposure, Dietary Proteins administration & dosage, Paternal Exposure, Semen metabolism, Spermatozoa metabolism, Testis metabolism

Abstract

The association between poor paternal diet, perturbed embryonic development, and adult offspring ill health represents a new focus for the Developmental Origins of Health and Disease hypothesis. However, our understanding of the underlying mechanisms remains ill-defined. We have developed a mouse paternal low-protein diet (LPD) model to determine its impact on semen quality, maternal uterine physiology, and adult offspring health. We observed that sperm from LPD-fed male mice displayed global hypomethylation associated with reduced testicular expression of DNA methylation and folate-cycle regulators compared with normal protein diet (NPD) fed males. Furthermore, females mated with LPD males display blunted preimplantation uterine immunological, cell signaling, and vascular remodeling responses compared to controls. These data indicate paternal diet impacts on offspring health through both sperm genomic (epigenetic) and seminal plasma (maternal uterine environment) mechanisms. Extending our model, we defined sperm- and seminal plasma-specific effects on offspring health by combining artificial insemination with vasectomized male mating of dietary-manipulated males. All offspring derived from LPD sperm and/or seminal plasma became heavier with increased adiposity, glucose intolerance, perturbed hepatic gene expression symptomatic of nonalcoholic fatty liver disease, and altered gut bacterial profiles. These data provide insight into programming mechanisms linking poor paternal diet with semen quality and offspring health., Competing Interests: The authors declare no conflict of interest., (Copyright © 2018 the Author(s). Published by PNAS.)

Published

2018

39. Opsonic Phagocytosis in Chronic Obstructive Pulmonary Disease Is Enhanced by Nrf2 Agonists.

Author

Bewley MA, Budd RC, Ryan E, Cole J, Collini P, Marshall J, Kolsum U, Beech G, Emes RD, Tcherniaeva I, Berbers GAM, Walmsley SR, Donaldson G, Wedzicha JA, Kilty I, Rumsey W, Sanchez Y, Brightling CE, Donnelly LE, Barnes PJ, Singh D, Whyte MKB, and Dockrell DH

Subjects

Adult, Aged, Case-Control Studies, Female, Humans, Isothiocyanates pharmacology, Macrophages drug effects, Macrophages physiology, Macrophages, Alveolar drug effects, Macrophages, Alveolar physiology, Male, Middle Aged, Phagocytosis physiology, Streptococcus pneumoniae, Sulfoxides, NF-E2-Related Factor 2 antagonists & inhibitors, Phagocytosis drug effects, Pulmonary Disease, Chronic Obstructive physiopathology

Abstract

Rationale: Previous studies have identified defects in bacterial phagocytosis by alveolar macrophages (AMs) in patients with chronic obstructive pulmonary disease (COPD), but the mechanisms and clinical consequences remain incompletely defined., Objectives: To examine the effect of COPD on AM phagocytic responses and identify the mechanisms, clinical consequences, and potential for therapeutic manipulation of these defects., Methods: We isolated AMs and monocyte-derived macrophages (MDMs) from a cohort of patients with COPD and control subjects within the Medical Research Council COPDMAP consortium and measured phagocytosis of bacteria in relation to opsonic conditions and clinical features., Measurements and Main Results: COPD AMs and MDMs have impaired phagocytosis of Streptococcus pneumoniae. COPD AMs have a selective defect in uptake of opsonized bacteria, despite the presence of antipneumococcal antibodies in BAL, not observed in MDMs or healthy donor AMs. AM defects in phagocytosis in COPD are significantly associated with exacerbation frequency, isolation of pathogenic bacteria, and health-related quality-of-life scores. Bacterial binding and initial intracellular killing of opsonized bacteria in COPD AMs was not reduced. COPD AMs have reduced transcriptional responses to opsonized bacteria, such as cellular stress responses that include transcriptional modules involving antioxidant defenses and Nrf2 (nuclear factor erythroid 2-related factor 2)-regulated genes. Agonists of the cytoprotective transcription factor Nrf2 (sulforaphane and compound 7) reverse defects in phagocytosis of S. pneumoniae and nontypeable Haemophilus influenzae by COPD AMs., Conclusions: Patients with COPD have clinically relevant defects in opsonic phagocytosis by AMs, associated with impaired transcriptional responses to cellular stress, which are reversed by therapeutic targeting with Nrf2 agonists.

Published

2018

40. The Applied Development of a Tiered Multilocus Sequence Typing (MLST) Scheme for Dichelobacter nodosus .

Author

Blanchard AM, Jolley KA, Maiden MCJ, Coffey TJ, Maboni G, Staley CE, Bollard NJ, Warry A, Emes RD, Davies PL, and Tötemeyer S

Abstract

Dichelobacter nodosus ( D. nodosus ) is the causative pathogen of ovine footrot, a disease that has a significant welfare and financial impact on the global sheep industry. Previous studies into the phylogenetics of D. nodosus have focused on Australia and Scandinavia, meaning the current diversity in the United Kingdom (U.K.) population and its relationship globally, is poorly understood. Numerous epidemiological methods are available for bacterial typing; however, few account for whole genome diversity or provide the opportunity for future application of new computational techniques. Multilocus sequence typing (MLST) measures nucleotide variations within several loci with slow accumulation of variation to enable the designation of allele numbers to determine a sequence type. The usage of whole genome sequence data enables the application of MLST, but also core and whole genome MLST for higher levels of strain discrimination with a negligible increase in experimental cost. An MLST database was developed alongside a seven loci scheme using publically available whole genome data from the sequence read archive. Sequence type designation and strain discrimination was compared to previously published data to ensure reproducibility. Multiple D. nodosus isolates from U.K. farms were directly compared to populations from other countries. The U.K. isolates define new clades within the global population of D. nodosus and predominantly consist of serogroups A, B and H, however serogroups C, D, E, and I were also found. The scheme is publically available at https://pubmlst.org/dnodosus/.

Published

2018

41. Cancer reversion with oocyte extracts is mediated by cell cycle arrest and induction of tumour dormancy.

Author

Saad N, Alberio R, Johnson AD, Emes RD, Giles TC, Clarke P, Grabowska AM, and Allegrucci C

Abstract

Inducing stable control of tumour growth by tumour reversion is an alternative approach to cancer treatment when eradication of the disease cannot be achieved. The process requires re-establishment of normal control mechanisms that are lost in cancer cells so that abnormal proliferation can be halted. Embryonic environments can reset cellular programmes and we previously showed that axolotl oocyte extracts can reprogram breast cancer cells and reverse their tumorigenicity. In this study, we analysed the gene expression profiles of oocyte extract-treated tumour xenografts to show that tumour reprogramming involves cell cycle arrest and acquisition of a quiescent state. Tumour dormancy is associated with increased P27 expression, restoration of RB function and downregulation of mitogen-activated signalling pathways. We also show that the quiescent state is associated with increased levels of H4K20me3 and decreased H4K20me1, an epigenetic profile leading to chromatin compaction. The epigenetic reprogramming induced by oocyte extracts is required for RB hypophosphorylation and induction of P27 expression, both occurring during exposure to the extracts and stably maintained in reprogrammed tumour xenografts. Therefore, this study demonstrates the value of oocyte molecules for inducing tumour reversion and for the development of new chemoquiescence-based therapies., Competing Interests: CONFLICTS OF INTEREST The authors declare no conflicts of interest.

Published

2018

42. Identification of stable reference genes for quantitative PCR in koalas.

Author

Sarker N, Fabijan J, Emes RD, Hemmatzadeh F, Meers J, Moreton J, Owen H, Seddon JM, Simmons G, Speight N, Trott D, Woolford L, and Tarlinton RE

Subjects

Animals, Communicable Diseases pathology, Computational Biology, Lymph Nodes pathology, Reverse Transcriptase Polymerase Chain Reaction methods, Reverse Transcriptase Polymerase Chain Reaction standards, Software, Gene Expression Profiling methods, Gene Expression Profiling standards, Phascolarctidae genetics, Real-Time Polymerase Chain Reaction methods, Real-Time Polymerase Chain Reaction standards, Reference Standards

Abstract

To better understand host and immune response to diseases, gene expression studies require identification of reference genes with stable expression for accurate normalisation. This study describes the identification and testing of reference genes with stable expression profiles in koala lymph node tissues across two genetically distinct koala populations. From the 25 most stable genes identified in transcriptome analysis, 11 genes were selected for verification using reverse transcription quantitative PCR, in addition to the commonly used ACTB and GAPDH genes. The expression data were analysed using stable genes statistical software - geNorm, BestKeeper, NormFinder, the comparative ΔCt method and RefFinder. All 13 genes showed relative stability in expression in koala lymph node tissues, however Tmem97 and Hmg20a were identified as the most stable genes across the two koala populations.

Published

2018

43. HumanMethylation450K Array-Identified Biomarkers Predict Tumour Recurrence/Progression at Initial Diagnosis of High-risk Non-muscle Invasive Bladder Cancer.

Author

Kitchen MO, Bryan RT, Emes RD, Luscombe CJ, Cheng KK, Zeegers MP, James ND, Gommersall LM, and Fryer AA

Abstract

Background: High-risk non-muscle invasive bladder cancer (HR-NMIBC) is a clinically unpredictable disease. Despite clinical risk estimation tools, many patients are undertreated with intra-vesical therapies alone, whereas others may be over-treated with early radical surgery. Molecular biomarkers, particularly DNA methylation, have been reported as predictive of tumour/patient outcomes in numerous solid organ and haematologic malignancies; however, there are few reports in HR-NMIBC and none using genome-wide array assessment. We therefore sought to identify novel DNA methylation markers of HR-NMIBC clinical outcomes that might predict tumour behaviour at initial diagnosis and help guide patient management., Patients and Methods: A total of 21 primary initial diagnosis HR-NMIBC tumours were analysed by Illumina HumanMethylation450 BeadChip arrays and subsequently bisulphite Pyrosequencing. In all, 7 had not recurred at 1 year after resection and 14 had recurred and/or progressed despite intra-vesical BCG. A further independent cohort of 32 HR-NMIBC tumours (17 no recurrence and 15 recurrence and/or progression despite BCG) were also assessed by bisulphite Pyrosequencing., Results: Array analyses identified 206 CpG loci that segregated non-recurrent HR-NMIBC tumours from clinically more aggressive recurrence/progression tumours. Hypermethylation of CpG cg11850659 and hypomethylation of CpG cg01149192 in combination predicted HR-NMIBC recurrence and/or progression within 1 year of diagnosis with 83% sensitivity, 79% specificity, and 83% positive and 79% negative predictive values., Conclusions: This is the first genome-wide DNA methylation analysis of a unique HR-NMIBC tumour cohort encompassing known 1-year clinical outcomes. Our analyses identified potential novel epigenetic markers that could help guide individual patient management in this clinically unpredictable disease., Competing Interests: Declaration of conflicting interests:The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2018

44. Maternal genome-wide DNA methylation profiling in gestational diabetes shows distinctive disease-associated changes relative to matched healthy pregnancies.

Author

Wu P, Farrell WE, Haworth KE, Emes RD, Kitchen MO, Glossop JR, Hanna FW, and Fryer AA

Subjects

Adult, Case-Control Studies, CpG Islands, Epigenesis, Genetic, Female, Humans, Pregnancy, DNA Methylation, Diabetes, Gestational genetics

Abstract

Several recent reports have described associations between gestational diabetes (GDM) and changes to the epigenomic landscape where the DNA samples were derived from either cord or placental sources. We employed genome-wide 450K array analysis to determine changes to the epigenome in a unique cohort of maternal blood DNA from 11 pregnant women prior to GDM development relative to matched controls. Hierarchical clustering segregated the samples into 2 distinct clusters comprising GDM and healthy pregnancies. Screening identified 100 CpGs with a mean β-value difference of ≥0.2 between cases and controls. Using stringent criteria, 5 CpGs (within COPS8, PIK3R5, HAAO, CCDC124, and C5orf34 genes) demonstrated potentials to be clinical biomarkers as revealed by differential methylation in 8 of 11 women who developed GDM relative to matched controls. We identified, for the first time, maternal methylation changes prior to the onset of GDM that may prove useful as biomarkers for early therapeutic intervention.

Published

2018

45. A proteomic investigation into mechanisms underpinning corticosteroid effects on neural stem cells.

Author

Al-Mayyahi RS, Sterio LD, Connolly JB, Adams CF, Al-Tumah WA, Sen J, Emes RD, Hart SR, and Chari DM

Subjects

Animals, Animals, Newborn, Cell Proliferation drug effects, Cell Proliferation physiology, Cell Survival drug effects, Cell Survival physiology, Cells, Cultured, Dose-Response Relationship, Drug, Glucocorticoids pharmacology, Humans, Mice, Neural Stem Cells physiology, Neurogenesis physiology, Adrenal Cortex Hormones pharmacology, Methylprednisolone pharmacology, Neural Stem Cells drug effects, Neurogenesis drug effects, Proteomics methods

Abstract

Corticosteroids (CSs) are widely used clinically, for example in pediatric respiratory distress syndrome, and immunosuppression to prevent rejection of stem cell transplant populations in neural cell therapy. However, such treatment can be associated with adverse effects such as impaired neurogenesis and myelination, and increased risk of cerebral palsy. There is increasing evidence that CSs can adversely influence key biological properties of neural stem cells (NSCs) but the molecular mechanisms underpinning such effects are largely unknown. This is an important issue to address given the key roles NSCs play during brain development and as transplant cells for regenerative neurology. Here, we describe the use of label-free quantitative proteomics in conjunction with histological analyses to study CS effects on NSCs at the cellular and molecular levels, following treatment with methylprednisolone (MPRED). Immunocytochemical staining showed that both parent NSCs and newly generated daughter cells expressed the glucocorticoid receptor, with nuclear localisation of the receptor induced by MPRED treatment. MPRED markedly decreased NSC proliferation and neuronal differentiation while accelerating the maturation of oligodendrocytes, without concomitant effects on cell viability and apoptosis. Parallel proteomic analysis revealed that MPRED induced downregulation of growth associated protein 43 and matrix metallopeptidase 16 with upregulation of the cytochrome P450 family 51 subfamily A member 1. Our findings support the hypothesis that some neurological deficits associated with CS use may be mediated via effects on NSCs, and highlight putative target mechanisms underpinning such effects., (Copyright © 2017. Published by Elsevier Inc.)

Published

2018

46. Complete Genome Sequences of Seven Vibrio cholerae Phages Isolated in China.

Author

Bhandare SG, Warry A, Emes RD, Su J, Barrow PA, and Atterbury RJ

Abstract

The complete genome sequences of seven closely related Vibrio cholerae phages isolated from environmental sites in southeastern China are reported here. Phages QH, CJY, H1, H2, H3, J2, and J3 are members of the Podoviridae family and are highly similar to the previously sequenced Vibrio phages VP2, VP5, and phiVC8., (Copyright © 2017 Bhandare et al.)

Published

2017

47. Complete Genome Sequences of Vibrio cholerae -Specific Bacteriophages 24 and X29.

Author

Bhandare SG, Warry A, Emes RD, Hooton SPT, Barrow PA, and Atterbury RJ

Abstract

The complete genomes of two Vibrio cholerae bacteriophages of potential interest for cholera bacteriophage (phage) therapy were sequenced and annotated. The genome size of phage 24 is 44,395 bp encoding 71 putative proteins, and that of phage X29 is 41,569 bp encoding 68 putative proteins., (Copyright © 2017 Bhandare et al.)

Published

2017

48. Unbiased Analysis of the Impact of Micropatterned Biomaterials on Macrophage Behavior Provides Insights beyond Predefined Polarization States.

Author

Singh S, Awuah D, Rostam HM, Emes RD, Kandola NK, Onion D, Htwe SS, Rajchagool B, Cha BH, Kim D, Tighe PJ, Vrana NE, Khademhosseini A, and Ghaemmaghami A

Abstract

Macrophages are master regulators of immune responses toward implanted biomaterials. The activation state adopted by macrophages in response to biomaterials determines their own phenotype and function as well as those of other resident and infiltrating immune and nonimmune cells in the area. A wide spectrum of macrophage activation states exists, with M1 (pro-inflammatory) and M2 (anti-inflammatory) representing either ends of the spectrum. In biomaterials research, cell-instructive surfaces that favor or induce M2 macrophages have been considered as beneficial due to the anti-inflammatory and pro-regenerative properties of these cells. In this study, we used a gelatin methacryloyl (GelMA) hydrogel platform to determine whether micropatterned surfaces can modulate the phenotype and function of human macrophages. The effect of microgrooves/ridges and micropillars on macrophage phenotype, function, and gene expression profile were assessed using conventional methods (morphology, cytokine profile, surface marker expression, phagocytosis) and gene microarrays. Our results demonstrated that micropatterns did induce distinct gene expression profiles in human macrophages cultured on microgrooves/ridges and micropillars. Significant changes were observed in genes related to primary metabolic processes such as transcription, translation, protein trafficking, DNA repair, and cell survival. However, interestingly conventional phenotyping methods, relying on surface marker expression and cytokine profile, were not able to distinguish between the different conditions, and indicated no clear shift in cell activation towards M1 or M2 phenotypes. This highlights the limitations of studying the effect of different physicochemical conditions on macrophages by solely relying on conventional markers that are primarily developed to differentiate between cytokine polarized M1 and M2 macrophages. We therefore propose the adoption of unbiased screening methods in determining macrophage responses to biomaterials. Our data clearly show that the exclusive use of conventional markers and methods for determining macrophage activation status could lead to missed opportunities for understanding and exploiting macrophage responses to biomaterials.

Published

2017

49. DNA methylation at diagnosis is associated with response to disease-modifying drugs in early rheumatoid arthritis.

Author

Glossop JR, Nixon NB, Emes RD, Sim J, Packham JC, Mattey DL, Farrell WE, and Fryer AA

Subjects

Aged, Antirheumatic Agents therapeutic use, Arthritis, Rheumatoid genetics, CpG Islands, Epigenesis, Genetic, Epigenomics methods, Female, Humans, Male, Middle Aged, Prospective Studies, Treatment Outcome, Antirheumatic Agents administration & dosage, Arthritis, Rheumatoid diagnosis, Arthritis, Rheumatoid drug therapy, DNA Methylation

Abstract

Aim: A proof-of-concept study to explore whether DNA methylation at first diagnosis is associated with response to disease-modifying antirheumatic drugs (DMARDs) in patients with early rheumatoid arthritis (RA)., Patients & Methods: DNA methylation was quantified in T-lymphocytes from 46 treatment-naive patients using HumanMethylation450 BeadChips. Treatment response was determined in 6 months using the European League Against Rheumatism (EULAR) response criteria., Results: Initial filtering identified 21 cytosine-phosphate-guanines (CpGs) that were differentially methylated between responders and nonresponders. After conservative adjustment for multiple testing, six sites remained statistically significant, of which four showed high sensitivity and/or specificity (≥75%) for response to treatment. Moreover, methylation at two sites in combination was the strongest factor associated with response (80.0% sensitivity, 90.9% specificity, AUC 0.85)., Conclusion: DNA methylation at diagnosis is associated with disease-modifying antirheumatic drug treatment response in early RA.

Published

2017

50. Evolution of complexity in the zebrafish synapse proteome.

Author

Bayés À, Collins MO, Reig-Viader R, Gou G, Goulding D, Izquierdo A, Choudhary JS, Emes RD, and Grant SG

Subjects

Animals, Brain ultrastructure, Female, Gene Duplication, Genome, Male, Mice, Microscopy, Electron, Transmission, Models, Biological, Nerve Tissue Proteins genetics, Post-Synaptic Density metabolism, Proteome genetics, Species Specificity, Synapses ultrastructure, Synaptosomes metabolism, Zebrafish, Zebrafish Proteins genetics, Brain metabolism, Nerve Tissue Proteins metabolism, Proteome metabolism, Proteome ultrastructure, Synapses metabolism, Zebrafish Proteins metabolism

Abstract

The proteome of human brain synapses is highly complex and is mutated in over 130 diseases. This complexity arose from two whole-genome duplications early in the vertebrate lineage. Zebrafish are used in modelling human diseases; however, its synapse proteome is uncharacterized, and whether the teleost-specific genome duplication (TSGD) influenced complexity is unknown. We report the characterization of the proteomes and ultrastructure of central synapses in zebrafish and analyse the importance of the TSGD. While the TSGD increases overall synapse proteome complexity, the postsynaptic density (PSD) proteome of zebrafish has lower complexity than mammals. A highly conserved set of ∼1,000 proteins is shared across vertebrates. PSD ultrastructural features are also conserved. Lineage-specific proteome differences indicate that vertebrate species evolved distinct synapse types and functions. The data sets are a resource for a wide range of studies and have important implications for the use of zebrafish in modelling human synaptic diseases.

Published

2017