9 results on '"Langford, Paul R."'
Search Results
2. Identification of Reduced Host Transcriptomic Signatures for Tuberculosis Disease and Digital PCR-Based Validation and Quantification.
- Author
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Gliddon, Harriet D., Kaforou, Myrsini, Alikian, Mary, Habgood-Coote, Dominic, Zhou, Chenxi, Oni, Tolu, Anderson, Suzanne T., Brent, Andrew J., Crampin, Amelia C., Eley, Brian, Heyderman, Robert, Kern, Florian, Langford, Paul R., Ottenhoff, Tom H. M., Hibberd, Martin L., French, Neil, Wright, Victoria J., Dockrell, Hazel M., Coin, Lachlan J., and Wilkinson, Robert J.
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TUBERCULOSIS ,REVERSE transcriptase ,DIAGNOSIS ,GENE expression ,AFRICANS - Abstract
Recently, host whole blood gene expression signatures have been identified for diagnosis of tuberculosis (TB). Absolute quantification of the concentrations of signature transcripts in blood have not been reported, but would facilitate diagnostic test development. To identify minimal transcript signatures, we applied a transcript selection procedure to microarray data from African adults comprising 536 patients with TB, other diseases (OD) and latent TB (LTBI), divided into training and test sets. Signatures were further investigated using reverse transcriptase (RT)—digital PCR (dPCR). A four-transcript signature (GBP6, TMCC1, PRDM1 , and ARG1) measured using RT-dPCR distinguished TB patients from those with OD (area under the curve (AUC) 93.8% (CI
95% 82.2–100%). A three-transcript signature (FCGR1A, ZNF296, and C1QB) differentiated TB from LTBI (AUC 97.3%, CI95% : 93.3–100%), regardless of HIV. These signatures have been validated across platforms and across samples offering strong, quantitative support for their use as diagnostic biomarkers for TB. [ABSTRACT FROM AUTHOR]- Published
- 2021
- Full Text
- View/download PDF
3. Innate Immune Responses of Galleria mellonella to Mycobacterium bovis BCG Challenge Identified Using Proteomic and Molecular Approaches.
- Author
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Asai, Masanori, Sheehan, Gerard, Li, Yanwen, Robertson, Brian D., Kavanagh, Kevin, Langford, Paul R., and Newton, Sandra M.
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MYCOBACTERIUM bovis ,GREATER wax moth ,PROTEOMICS ,IMMUNE response ,MYCOBACTERIUM tuberculosis ,INSECT larvae - Abstract
The larvae of the insect Galleria mellonella , have recently been established as a non-mammalian infection model for the Mycobacterium tuberculosis complex (MTBC). To gain further insight into the potential of this model, we applied proteomic (label-free quantification) and transcriptomic (gene expression) approaches to characterise the innate immune response of G. mellonella to infection with Mycobacterium bovis BCG lux over a 168 h time course. Proteomic analysis of the haemolymph from infected larvae revealed distinct changes in the proteome at all time points (4, 48, 168 h). Reverse transcriptase quantitative PCR confirmed induction of five genes (gloverin , cecropin , IMPI , hemolin , and Hdd11), which encoded proteins found to be differentially abundant from the proteomic analysis. However, the trend between gene expression and protein abundance were largely inconsistent (20%). Overall, the data are in agreement with previous phenotypic observations such as haemocyte internalization of mycobacterial bacilli (hemolin/β-actin), formation of granuloma-like structures (Hdd11), and melanization (phenoloxidase activating enzyme 3 and serpins). Furthermore, similarities in immune expression in G. mellonella , mouse, zebrafish and in vitro cell-line models of tuberculosis infection were also identified for the mechanism of phagocytosis (β-actin). Cecropins (antimicrobial peptides), which share the same α-helical motif as a highly potent peptide expressed in humans (h-CAP-18), were induced in G. mellonella in response to infection, giving insight into a potential starting point for novel antimycobacterial agents. We believe that these novel insights into the innate immune response further contribute to the validation of this cost-effective and ethically acceptable insect model to study members of the MTBC. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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4. A Rare Mutation in SPLUNC1 Affects Bacterial Adherence and Invasion in Meningococcal Disease.
- Author
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Mashbat, Bayarchimeg, Bellos, Evangelos, Hodeib, Stephanie, Bidmos, Fadil, Thwaites, Ryan S, Lu, Yaxuan, Wright, Victoria J, Herberg, Jethro A, Klobassa, Daniela S, Zenz, Werner, Hansel, Trevor T, Nadel, Simon, Langford, Paul R, Schlapbach, Luregn J, Li, Ming-Shi, Redinbo, Matthew R, Di, Y Peter, Levin, Michael, and Sancho-Shimizu, Vanessa
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BACTERIAL physiology ,BIOFILMS ,COMPARATIVE studies ,GENE expression ,GENES ,GENETIC polymorphisms ,GENOMES ,GENETIC mutation ,NEISSERIA meningitidis ,SEPSIS ,DESCRIPTIVE statistics ,SEQUENCE analysis ,IN vitro studies - Abstract
Background Neisseria meningitidis (Nm) is a nasopharyngeal commensal carried by healthy individuals. However, invasive infections occurs in a minority of individuals, with devastating consequences. There is evidence that common polymorphisms are associated with invasive meningococcal disease (IMD), but the contributions of rare variants other than those in the complement system have not been determined. Methods We identified familial cases of IMD in the UK meningococcal disease study and the European Union Life-Threatening Infectious Disease Study. Candidate genetic variants were identified by whole-exome sequencing of 2 patients with familial IMD. Candidate variants were further validated by in vitro assays. Results Exomes of 2 siblings with IMD identified a novel heterozygous missense mutation in BPIFA1 / SPLUNC1. Sequencing of 186 other nonfamilial cases identified another unrelated IMD patient with the same mutation. SPLUNC1 is an innate immune defense protein expressed in the nasopharyngeal epithelia; however, its role in invasive infections is unknown. In vitro assays demonstrated that recombinant SPLUNC1 protein inhibits biofilm formation by Nm, and impedes Nm adhesion and invasion of human airway cells. The dominant negative mutant recombinant SPLUNC1 (p.G22E) showed reduced antibiofilm activity, increased meningococcal adhesion, and increased invasion of cells, compared with wild-type SPLUNC1. Conclusions A mutation in SPLUNC1 affecting mucosal attachment, biofilm formation, and invasion of mucosal epithelial cells is a new genetic cause of meningococcal disease. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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5. Genome Wide Expression Profiling Reveals Suppression of Host Defence Responses during Colonisation by Neisseria meningitides but not N. lactamica.
- Author
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Hazel En En Wong, Ming-Shi Li, Kroll, J. Simon, Hibberd, Martin L., and Langford, Paul R.
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NEISSERIA meningitidis ,GENE expression ,EPITHELIAL cells ,BLOOD diseases ,FUNGUS-bacterium relationships - Abstract
Both Neisseria meningitidis and the closely related bacterium Neisseria lactamica colonise human nasopharyngeal mucosal surface, but only N. meningitidis invades the bloodstream to cause potentially life-threatening meningitis and septicaemia. We have hypothesised that the two neisserial species differentially modulate host respiratory epithelial cell gene expression reflecting their disease potential. Confluent monolayers of 16HBE14 human bronchial epithelial cells were exposed to live and/or dead N. meningitidis (including capsule and pili mutants) and N. lactamica, and their transcriptomes were compared using whole genome microarrays. Changes in expression of selected genes were subsequently validated using Q-RT-PCR and ELISAs. Live N. meningitidis and N. lactamica induced genes involved in host energy production processes suggesting that both bacterial species utilise host resources. N. meningitidis infection was associated with down-regulation of host defence genes. N. lactamica, relative to N. meningitidis, initiates up-regulation of proinflammatory genes. Bacterial secreted proteins alone induced some of the changes observed. The results suggest N. meningitidis and N. lactamica differentially regulate host respiratory epithelial cell gene expression through colonisation and/or protein secretion, and that this may contribute to subsequent clinical outcomes associated with these bacteria. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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6. Identification of genes transcribed by Haemophilus parasuis in necrotic porcine lung through the selective capture of transcribed sequences (SCOTS).
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Hui Jin, Yun Wan, Rui Zhou, Liangjun Li, Rui Luo, Sihua Zhang, Junyong Hu, Langford, Paul R., and Huanchun Chen
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HAEMOPHILUS ,NUCLEOTIDE sequence ,SWINE diseases ,ANIMAL diseases ,GENE expression ,MICROBIAL ecology - Abstract
Haemophilus parasuis is the aetiological agent of Glässer's disease, which has received more attention in the past decade due to the increasing economic losses in the pig industry worldwide. Little is known about the mechanisms by which H. parasuis survives in the host. In this study, selective capture of transcribed sequences (SCOTS) was used to identify H. parasuis genes upregulated in necrotic porcine lung 7 days post infection. Thirty-eight genes were identified that were upregulated during infection of the lung tissue of pigs, compared with growth in culture medium. In two examples chosen gene expression was not confined to the lungs, there being variation between tissues. The data support biofilm formation being an important mode of growth for colonization and/or persistence. Results from the in vitro studies suggest that, as for other pathogens, iron and oxygen restriction and heat stress are important environmental signals to regulate gene expression. This study has identified genes of H. parasuis that are upregulated during infection of porcine lung tissue as compared with in vitro growth conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
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7. The role of the Shigella flexneri yihE gene in LPS synthesis and virulence.
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Edwards-Jones, Bryn, Langford, Paul R., Kroll, J. Simon, and Jun Yu
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SHIGELLA flexneri , *GENES , *MICROBIAL virulence , *GENE expression , *ACTIN , *GLUCOSE - Abstract
Previously, the authors have shown that inactivation of Shigella flexneri yihE, a gene of unknown function upstream of dsbA, which encodes a periplasmic disulphide catalyst, results in a global change of gene expression. Among the severely down-regulated genes are galETKM, suggesting that the yihE mutant, Sh54, may inefficiently produce the UDP-glucose and UDP-galactose required for LPS synthesis. This paper demonstrates that LPS synthesis in Sh54 is impaired. As a result, Sh54 is unable to polymerize host cell actin, due to aberrant localization of IcsA, or to cause keratoconjunctivitis in guinea pigs. Furthermore, Sh54 is more sensitive to some antimicrobial agents, and exhibits epithelial cytotoxicity characteristic of neither wild-type nor dsbA mutants. Supplying galETK in trans restores LPS synthesis and corrects all the defects. Hence, it is clear that the Shigella yihE gene is important not only in regulating global gene expression, as shown previously, but also in virulence through LPS synthesis via regulating the expression of the galETK operon. [ABSTRACT FROM AUTHOR]
- Published
- 2004
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8. Diagnosis of Childhood Tuberculosis and Host RNA Expression in Africa.
- Author
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Anderson, Suzanne T., Kaforou, Myrsini, Brent, AndrewJ., Wright, VictoriaJ., Banwell, Claire M., Chagaluka, George, Crampin, Amelia C., Dockrell, Hazel M., French, Neil, Hamilton, Melissa S., Hibberd, Martin L., Kern, Florian, Langford, Paul R., Ling Ling, Mlotha, Rachel, Ottenhoff, Tom H. M., Pienaar, Sandy, Pillay, Vashini, Scott, J. Anthony G., and Twahir, Hemed
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RNA analysis , *GENE expression , *BLOOD testing , *PEDIATRIC diagnosis , *JUVENILE diseases ,DIAGNOSIS of tuberculosis in children - Abstract
The article focuses on a study which examined the use of genomewide analysis of RNA expression in host blood in the diagnosis of tuberculosis among children in Africa. Topics discussed include a brief overview of the prospective cohorts of children included in the study population, features of transcriptional signatures of host blood used to distinguish tuberculosis, and the data provided by RNA expression signatures in distinguishing tuberculosis from other diseases in African children.
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- 2014
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9. New Plasmid Tools for Genetic Analysis of Actinobacillus pleuropneumoniae and Other Pasteurellaceae.
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Bossé, Janine T., Durham, Andrew L., Rycroft, Andrew N., KrolI, J. Simon, and Langford, Paul R.
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PLASMIDS , *ACTINOBACILLUS , *CLONING , *TRANSPOSONS , *ALCOHOL , *HEAT shock proteins , *NAD (Coenzyme) , *CHLORAMPHENICOL , *GENE expression - Abstract
We have generated a set of plasmids, based on the mobilizable shuttle vector pMIDG100, which can be used as tools for genetic manipulation of Actinobacillus pleuropneuinoniae and other members of the Pasteurellaceae. A tandem reporter plasmid, pMC-Tandem, carrying promoterless xylE and gfpmut3 genes downstream of a multiple-cloning site (MCS), can be used for identification of transcriptional regulators and conditions which favor gene expression from different cloned promoters. The ability to detect transcriptional regulators using the tandem reporter system was validated in A. pleuropneumoniae using the cloned rpoE (σE) promoter (P). The resulting plasmid, pMCrpoEP, was used to identify a mutant defective in production of RseA, the negative regulator of if E, among a bank of random transposon mutants, as well as to detect induction of σE following exposure of A. pleuropneumoniae to ethanol or heat shock. pMCsodCP, carrying the cloned sodC promoter of A. pleuropneumoniae, was functional in A. pleuropneumoniae, Haemophilus influenzae, Haemophilus parasuis, Mannheimia haemolytica, and Pasteurella multocida. Two general expression vectors, pMK-Express and pMC-Express, which differ in their antibiotic resistance markers (kanamycin and chloramphenicol, respectively), were constructed for the Pasteurellaceae. Both plasmids have the A. pleuropneumoniae sodC promoter upstream of the gfpmut3 gene and an extended MCS. Replacement of gfpmut3 with a gene of interest allows complementation and heterologous gene expression, as evidenced by expression of the Haernophilus ducreyi nadV gene in A. pleuropneumoniae, rendering the latter NAD independent. [ABSTRACT FROM AUTHOR]
- Published
- 2009
- Full Text
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