Your search keyword '"Rue-Albrecht K"' showing total 28 results

1. Interactive visualization as a key tool for understanding medical omics data

Author

Marini, F, Soneson, C, Rue-Albrecht, K, and Lun, A

Subjects

ddc: 610, shiny, Bioconductor, genomics, interactive, 610 Medical sciences, Medicine, exploration, visualization

Abstract

Life sciences have been evolving through the last decade to become a quantitative discipline, with a leading role played by high-throughput technologies (gene expression profiling, protein quantitation via mass spectrometry, high-throughput imaging). Data is available in different experimental[for full text, please go to the a.m. URL], 64. Jahrestagung der Deutschen Gesellschaft für Medizinische Informatik, Biometrie und Epidemiologie e.V. (GMDS)

Published

2019

2. The short chain fatty acid butyrate imprints an antimicrobial program in macrophages

Author

Schulthess, J, Pandey, S, Capitani, M, Rue-Albrecht, K, Arnold, I, Franchini, F, Chomka, A, Ilott, N, Johnston, D, Pires, E, McCullagh, J, Sansom, S, Arancibia-Carcamo, C, Uhlig, H, and Powrie, F

Subjects

Colon, Microbiota, Macrophages, Cell Differentiation, Fatty Acids, Volatile, Monocytes, Article, Intestines, Mice, Inbred C57BL, Butyrates, Gene Expression Regulation, Anti-Infective Agents, Animals, Cytokines, Dysbiosis, Humans, Cells, Cultured

Abstract

Summary Host microbial cross-talk is essential to maintain intestinal homeostasis. However, maladaptation of this response through microbial dysbiosis or defective host defense toward invasive intestinal bacteria can result in chronic inflammation. We have shown that macrophages differentiated in the presence of the bacterial metabolite butyrate display enhanced antimicrobial activity. Butyrate-induced antimicrobial activity was associated with a shift in macrophage metabolism, a reduction in mTOR kinase activity, increased LC3-associated host defense and anti-microbial peptide production in the absence of an increased inflammatory cytokine response. Butyrate drove this monocyte to macrophage differentiation program through histone deacetylase 3 (HDAC3) inhibition. Administration of butyrate induced antimicrobial activity in intestinal macrophages in vivo and increased resistance to enteropathogens. Our data suggest that (1) increased intestinal butyrate might represent a strategy to bolster host defense without tissue damaging inflammation and (2) that pharmacological HDAC3 inhibition might drive selective macrophage functions toward antimicrobial host defense., Graphical Abstract, Highlights • Butyrate induces differentiation of macrophages with potent antimicrobial function • Enhanced antimicrobial function is a consequence of glycolysis and mTOR inhibition • Single-cell RNA-sequencing identifies butyrate-induced antimicrobial peptides • Butyrate inhibits HDAC3 to drive metabolic changes and microbicidal function, Macrophages maintain gut homeostasis by eliminating invasive pathogens and regulating inflammatory responses. Schulthess et al. demonstrate that butyrate, a bacterial fermentation product, imprints potent antimicrobial activity during macrophage differentiation through HDAC3i function.

Published

2019

3. Comprehensive cancer-predisposition gene testing in an adult multiple primary tumor series shows a broad range of deleterious variants and atypical tumor phenotypes

Author

Whitworth, J, Smith, PS, Martin, J-E, West, H, Luchetti, A, Rodger, F, Clark, G, Carss, K, Stephens, J, Stirrups, K, Penkett, C, Mapeta, R, Ashford, S, Megy, K, Shakeel, H, Ahmed, M, Adlard, J, Barwell, J, Brewer, C, Casey, RT, Armstrong, R, Cole, T, Evans, DG, Fostira, F, Greenhalgh, L, Hanson, H, Henderson, A, Hoffman, J, Izatt, L, Kumar, A, Kwong, A, Lalloo, F, Ong, KR, Paterson, J, Park, S-M, Chen-Shtoyerman, R, Searle, C, Side, L, Skytte, A-B, Snape, K, Woodward, ER, Tischkowitz, MD, Maher, ER, Aitman, T, Alachkar, H, Ali, S, Allen, L, Allsup, D, Ambegaonkar, G, Anderson, J, Antrobus, R, Arno, G, Arumugakani, G, Astle, W, Attwood, A, Austin, S, Bacchelli, C, Bakchoul, T, Bariana, TK, Baxendale, H, Bennett, D, Bethune, C, Bibi, S, Bitner-Glindzicz, M, Bleda, M, Boggard, H, Bolton-Maggs, P, Booth, C, Bradley, JR, Brady, A, Brown, M, Browning, M, Bryson, C, Burns, S, Calleja, P, Canham, N, Carmichael, J, Caulfield, M, Chalmers, E, Chandra, A, Chinnery, P, Chitre, M, Church, C, Clement, E, Clements-Brod, N, Clowes, V, Coghlan, G, Collins, P, Cookson, V, Cooper, N, Corris, P, Creaser-Myers, A, Dacosta, R, Daugherty, L, Davies, S, Davis, J, De Vries, M, Deegan, P, Deevi, SVV, Deshpande, C, Devlin, L, Dewhurst, E, Dixon, P, Doffinger, R, Dormand, N, Drewe, E, Edgar, D, Egner, W, Erber, WN, Erwood, M, Everington, T, Favier, R, Firth, H, Fletcher, D, Flinter, F, Frary, A, Freson, K, Furie, B, Furnell, A, Gale, D, Gardham, A, Gattens, M, Ghali, N, Ghataorhe, PK, Ghurye, R, Gibbs, S, Gilmour, K, Gissen, P, Goddard, S, Gomez, K, Gordins, P, Graf, S, Gräf, S, Greene, D, Greenhalgh, A, Greinacher, A, Grigoriadou, S, Grozeva, D, Hackett, S, Hadinnapola, C, Hague, R, Haimel, M, Halmagyi, C, Hammerton, T, Hart, D, Hayman, G, Heemskerk, JWM, Henderson, R, Hensiek, A, Henskens, Y, Herwadkar, A, Holden, S, Holder, M, Holder, S, Hu, F, Veld, A, Huissoon, A, Humbert, M, Hurst, J, James, R, Jolles, S, Josifova, D, Kazmi, R, Keeling, D, Kelleher, P, Kelly, AM, Kennedy, F, Kiely, D, Kingston, N, Koziell, A, Krishnakumar, D, Kuijpers, TW, Kuijpers, T, Kumararatne, D, Kurian, M, Laffan, MA, Lambert, MP, Allen, HL, Lango-Allen, H, Lawrie, A, Lear, S, Lees, M, Lentaigne, C, Liesner, R, Linger, R, Longhurst, H, Lorenzo, L, Louka, E, Machado, R, Ross, RM, Maclaren, R, Maher, E, Maimaris, J, Mangles, S, Manson, A, Markus, HS, Martin, J, Masati, L, Mathias, M, Matser, V, Maw, A, McDermott, E, McJannet, C, Meacham, S, Meehan, S, Mehta, S, Michaelides, M, Millar, CM, Moledina, S, Moore, A, Morrell, N, Mumford, A, Murng, S, Murphy, E, Nejentsev, S, Noorani, S, Nurden, P, Oksenhendler, E, Othman, S, Ouwehand, WH, Papadia, S, Parker, A, Pasi, J, Patch, C, Payne, J, Peacock, A, Peerlinck, K, Penkett, CJ, Pepke-Zaba, J, Perry, D, Perry, DJ, Pollock, V, Polwarth, G, Ponsford, M, Qasim, W, Quinti, I, Rankin, S, Rankin, J, Raymond, FL, Rayner-Matthews, P, Rehnstrom, K, Reid, E, Rhodes, CJ, Richards, M, Richardson, S, Richter, A, Roberts, I, Rondina, M, Rosser, E, Roughley, C, Roy, N, Rue-Albrecht, K, Samarghitean, C, Sanchis-Juan, A, Sandford, R, Santra, S, Sargur, R, Savic, S, Schotte, G, Schulman, S, Schulze, H, Scott, R, Scully, M, Seneviratne, S, Sewell, C, Shamardina, O, Shipley, D, Simeoni, I, Sivapalaratnam, S, Smith, KGC, Sohal, A, Southgate, L, Staines, S, Staples, E, Stark, H, Stauss, H, Stein, P, Stock, S, Suntharalingam, J, Talks, K, Tan, Y, Thachil, J, Thaventhiran, J, Thomas, E, Thomas, M, Thompson, D, Thrasher, A, Tischkowitz, M, Titterton, C, Toh, C-H, Toshner, M, Treacy, C, Trembath, R, Tuna, S, Turek, W, Turro, E, Van Geet, C, Veltman, M, Vogt, J, Von Ziegenweldt, J, Noordegraaf, AV, Wakeling, E, Wanjiku, I, Warner, TQ, Wassmer, E, Watkins, H, Watt, C, Webster, N, Welch, S, Westbury, S, Wharton, J, Whitehorn, D, Wilkins, M, Willcocks, L, Williamson, C, Woods, G, Wort, J, Yeatman, N, Yong, P, Young, T, and Yu, P

Abstract

Multiple primary tumors (MPTs) affect a substantial proportion of cancer survivors and can result from various causes, including inherited predisposition. Currently, germline genetic testing of MPT-affected individuals for variants in cancer-predisposition genes (CPGs) is mostly targeted by tumor type. We ascertained pre-assessed MPT individuals (with at least two primary tumors by age 60 years or at least three by 70 years) from genetics centers and performed whole-genome sequencing (WGS) on 460 individuals from 440 families. Despite previous negative genetic assessment and molecular investigations, pathogenic variants in moderate- and high-risk CPGs were detected in 67/440 (15.2%) probands. WGS detected variants that would not be (or were not) detected by targeted resequencing strategies, including low-frequency structural variants (6/440 [1.4%] probands). In most individuals with a germline variant assessed as pathogenic or likely pathogenic (P/LP), at least one of their tumor types was characteristic of variants in the relevant CPG. However, in 29 probands (42.2% of those with a P/LP variant), the tumor phenotype appeared discordant. The frequency of individuals with truncating or splice-site CPG variants and at least one discordant tumor type was significantly higher than in a control population (χ2 = 43.642; p ≤ 0.0001). 2/67 (3%) probands with P/LP variants had evidence of multiple inherited neoplasia allele syndrome (MINAS) with deleterious variants in two CPGs. Together with variant detection rates from a previous series of similarly ascertained MPT-affected individuals, the present results suggest that first-line comprehensive CPG analysis in an MPT cohort referred to clinical genetics services would detect a deleterious variant in about a third of individuals.

Published

2018

4. Invasive Salmonella exploits divergent immune evasion strategies in infected and bystander dendritic cell subsets

Author

Aulicino, A, Rue-Albrecht, K, Preciado-Llanes, L, Napolitani, G, Ashley, N, Cribbs, A, Koth, J, Lagerholm, B, Ambrose, T, Gordon, M, Sims, D, and Simmons, A

Subjects

CD4-Positive T-Lymphocytes, Salmonella typhimurium, Ubiquitin-Protein Ligases, Science, Primary Cell Culture, Immunoglobulins, Adaptive Immunity, Article, Monocytes, Antigens, CD, Humans, Cell Lineage, lcsh:Science, Immune Evasion, Membrane Glycoproteins, Gene Expression Profiling, Cell Differentiation, Bystander Effect, Dendritic Cells, Immunity, Innate, Interleukin-10, Gene Expression Regulation, lcsh:Q, Single-Cell Analysis, Signal Transduction

Abstract

Non-typhoidal Salmonella (NTS) are highly prevalent food-borne pathogens. Recently, a highly invasive, multi-drug resistant S. Typhimurium, ST313, emerged as a major cause of bacteraemia in children and immunosuppressed adults, however the pathogenic mechanisms remain unclear. Here, we utilize invasive and non-invasive Salmonella strains combined with single-cell RNA-sequencing to study the transcriptome of individual infected and bystander monocyte-derived dendritic cells (MoDCs) implicated in disseminating invasive ST313. Compared with non-invasive Salmonella, ST313 directs a highly heterogeneous innate immune response. Bystander MoDCs exhibit a hyper-activated profile potentially diverting adaptive immunity away from infected cells. MoDCs harbouring invasive Salmonella display higher expression of IL10 and MARCH1 concomitant with lower expression of CD83 to evade adaptive immune detection. Finally, we demonstrate how these mechanisms conjointly restrain MoDC-mediated activation of Salmonella-specific CD4+ T cell clones. Here, we show how invasive ST313 exploits discrete evasion strategies within infected and bystander MoDCs to mediate its dissemination in vivo., Salmonella employ a range of strategies to counter host defences during infection. Here, Aulicino et al. use single-cell RNA-sequencing to examine the effects of invasive and non-invasive strains of Salmonella, revealing discrete and divergent immune evasion strategies in infected and bystander dendritic cells.

Published

2018

5. Publisher Correction: Telomerecat: A ploidy-agnostic method for estimating telomere length from whole genome sequencing data

Author

Farmery, JHR, Smith, ML, Lynch, AG, Huissoon, A, Furnell, A, Mead, A, Levine, AP, Manzur, A, Thrasher, A, Greenhalgh, A, Parker, A, Sanchis-Juan, A, Richter, A, Gardham, A, Lawrie, A, Sohal, A, Creaser-Myers, A, Frary, A, Greinacher, A, Themistocleous, A, Peacock, AJ, Marshall, A, Mumford, A, Rice, A, Webster, A, Brady, A, Koziell, A, Manson, A, Chandra, A, Hensiek, A, In't Veld, AH, Maw, A, Kelly, AM, Moore, A, Noordegraaf, AV, Attwood, A, Herwadkar, A, Ghofrani, A, Houweling, AC, Girerd, B, Furie, B, Treacy, CM, Millar, CM, Sewell, C, Roughley, C, Titterton, C, Williamson, C, Hadinnapola, C, Deshpande, C, Toh, C-H, Bacchelli, C, Patch, C, Van Geet, C, Babbs, C, Bryson, C, Penkett, CJ, Rhodes, CJ, Watt, C, Bethune, C, Booth, C, Lentaigne, C, McJannet, C, Church, C, French, C, Samarghitean, C, Halmagyi, C, Gale, D, Greene, D, Hart, D, Allsup, D, Bennett, D, Edgar, D, Kiely, DG, Gosal, D, Perry, DJ, Keeling, D, Montani, D, Shipley, D, Whitehorn, D, Fletcher, D, Krishnakumar, D, Grozeva, D, Kumararatne, D, Thompson, D, Josifova, D, Maher, E, Wong, EKS, Murphy, E, Dewhurst, E, Louka, E, Rosser, E, Chalmers, E, Colby, E, Drewe, E, McDermott, E, Thomas, E, Staples, E, Clement, E, Matthews, E, Wakeling, E, Oksenhendler, E, Turro, E, Reid, E, Wassmer, E, Raymond, FL, Hu, F, Kennedy, F, Soubrier, F, Flinter, F, Kovacs, G, Polwarth, G, Ambegaonkar, G, Arno, G, Hudson, G, Woods, G, Coghlan, G, Hayman, G, Arumugakani, G, Schotte, G, Cook, HT, Alachkar, H, Allen, HL, Lango-Allen, H, Stark, H, Stauss, H, Schulze, H, Boggard, HJ, Baxendale, H, Dolling, H, Firth, H, Gall, H, Watson, H, Longhurst, H, Markus, HS, Watkins, H, Simeoni, I, Emmerson, I, Roberts, I, Quinti, I, Wanjiku, I, Gibbs, JSR, Thaventhiran, J, Whitworth, J, Hurst, J, Collins, J, Suntharalingam, J, Payne, J, Thachil, J, Martin, JM, Martin, J, Carmichael, J, Maimaris, J, Paterson, J, Pepke-Zaba, J, Heemskerk, JWM, Gebhart, J, Davis, J, Pasi, J, Bradley, JR, Wharton, J, Stephens, J, Rankin, J, Anderson, J, Vogt, J, Von Ziegenweldt, J, Rehnstrom, K, Megy, K, Talks, K, Peerlinck, K, Yates, K, Freson, K, Stirrups, K, Gomez, K, Smith, KGC, Carss, K, Rue-Albrecht, K, Gilmour, K, Masati, L, Scelsi, L, Southgate, L, Ranganathan, L, Ginsberg, L, Devlin, L, Willcocks, L, Ormondroyd, L, Lorenzo, L, Harper, L, Allen, L, Daugherty, L, Chitre, M, Kurian, M, Humbert, M, Tischkowitz, M, Bitner-Glindzicz, M, Erwood, M, Scully, M, Veltman, M, Caulfield, M, Layton, M, McCarthy, M, Ponsford, M, Toshner, M, Bleda, M, Wilkins, M, Mathias, M, Reilly, M, Afzal, M, Brown, M, Rondina, M, Stubbs, M, Haimel, M, Lees, M, Laffan, MA, Browning, M, Gattens, M, Richards, M, Michaelides, M, Lambert, MP, Makris, M, De Vries, M, Mahdi-Rogers, M, Saleem, M, Thomas, M, Holder, M, Eyries, M, Clements-Brod, N, Canham, N, Dormand, N, Van Zuydam, N, Kingston, N, Ghali, N, Cooper, N, Morrell, NW, Yeatman, N, Roy, N, Shamardina, O, Alavijeh, OS, Gresele, P, Nurden, P, Chinnery, P, Deegan, P, Yong, P, Yu-Wai-Man, P, Corris, PA, Calleja, P, Gissen, P, Bolton-Maggs, P, Rayner-Matthews, P, Ghataorhe, PK, Gordins, P, Stein, P, Collins, P, Dixon, P, Kelleher, P, Ancliff, P, Yu, P, Tait, RC, Linger, R, Doffinger, R, Machado, R, Kazmi, R, Sargur, R, Favier, R, Tan, R, Liesner, R, Antrobus, R, Sandford, R, Scott, R, Trembath, R, Horvath, R, Hadden, R, MackenzieRoss, RV, Henderson, R, MacLaren, R, James, R, Ghurye, R, DaCosta, R, Hague, R, Mapeta, R, Armstrong, R, Noorani, S, Murng, S, Santra, S, Tuna, S, Johnson, S, Chong, S, Lear, S, Walker, S, Goddard, S, Mangles, S, Westbury, S, Mehta, S, Hackett, S, Nejentsev, S, Moledina, S, Bibi, S, Meehan, S, Othman, S, Revel-Vilk, S, Holden, S, McGowan, S, Staines, S, Savic, S, Burns, S, Grigoriadou, S, Papadia, S, Ashford, S, Schulman, S, Ali, S, Park, S-M, Davies, S, Stock, S, Deevi, SVV, Graf, S, Ghio, S, Wort, SJ, Jolles, S, Austin, S, Welch, S, Meacham, S, Rankin, S, Seneviratne, S, Holder, S, Sivapalaratnam, S, Richardson, S, Kuijpers, T, Kuijpers, TW, Bariana, TK, Bakchoul, T, Everington, T, Renton, T, Young, T, Aitman, T, Warner, TQ, Vale, T, Hammerton, T, Pollock, V, Matser, V, Cookson, V, Clowes, V, Qasim, W, Wei, W, Erber, WN, Ouwehand, WH, Astle, W, Egner, W, Turek, W, Henskens, Y, Tan, Y, Lynch, Andy G [0000-0002-7876-7338], Apollo - University of Cambridge Repository, Medical Research Council (MRC), and British Heart Foundation

Subjects

Whole genome sequencing, 0303 health sciences, Multidisciplinary, Science & Technology, lcsh:R, lcsh:Medicine, Computational biology, Biology, Telomere, Multidisciplinary Sciences, 03 medical and health sciences, 0302 clinical medicine, NIHR BioResource - Rare Diseases, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Science & Technology - Other Topics, lcsh:Q, Ploidy, lcsh:Science, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Correction to: Scientific Reports https://doi.org/10.1038/s41598-017-14403-y, published online 22 January 2018 The original version of this Article contained a typographical error in the spelling of the consortium member Patrick Yu-Wai-Man which was incorrectly given as Patrick Yu Wai Man. In addition, a supplementary file containing additional algorithms and analysis was omitted from the original version of this Article. These errors have now been corrected in the HTML and PDF versions of the Article.

Published

2018

6. Telomerecat: a ploidy-agnostic method for estimating telomere length from whole genome sequencing data

Author

Farmery, JHR, Smith, ML, NIHR BioResource - Rare Diseases, Lynch, AG, and Rue-Albrecht, K

Abstract

Telomere length is a risk factor in disease and the dynamics of telomere length are crucial to our understanding of cell replication and vitality. The proliferation of whole genome sequencing represents an unprecedented opportunity to glean new insights into telomere biology on a previously unimaginable scale. To this end, a number of approaches for estimating telomere length from whole-genome sequencing data have been proposed. Here we present Telomerecat, a novel approach to the estimation of telomere length. Previous methods have been dependent on the number of telomeres present in a cell being known, which may be problematic when analysing aneuploid cancer data and non-human samples. Telomerecat is designed to be agnostic to the number of telomeres present, making it suited for the purpose of estimating telomere length in cancer studies. Telomerecat also accounts for interstitial telomeric reads and presents a novel approach to dealing with sequencing errors. We show that Telomerecat performs well at telomere length estimation when compared to leading experimental and computational methods. Furthermore, we show that it detects expected patterns in longitudinal data, repeated measurements, and cross-species comparisons. We also apply the method to a cancer cell data, uncovering an interesting relationship with the underlying telomerase genotype.

Published

2018

7. On the role of AEBP2 in thymus development and function

Author

Wu, W, Rue-Albrecht, K, Handel, A, and Holländer, G

Subjects

Epigenetics, Developmental immunology

Abstract

The ability to distinguish between “Self” and “Non-Self” constitutes the most important functional feature of the immune system. It is primarily instructed for T cells by thymic epithelial cells (TECs) and is made possible by the TEC’s unique capacity to transcribe at the population level nearly all protein coding genes. This expertise, known as promiscuous gene expression (PGE), is in part dependent on the presence of the transcriptional facilitator, Autoimmune Regulator (AIRE) in a subpopulation of medullary TEC (mTEC). H3K27me3 is an important posttranslational modification that epigenetically silences gene expression. A notable exception to this restrictive role of H3K27me3 appears to be the marking of loci that are promiscuously expressed in mTEC to generate a molecular library of self-antigens required for effectively central T cell tolerance induction. H3K27me3 marks are placed by the Polycomb Repressive Complex 2 (PRC2) which includes AEBP2, a well conserved zinc finger protein understood to serve as a targeting protein for the complex. To assess the role of AEBP2 in TEC biology in general and PGE in AIRE+ medullar TEC in particular, mice with a loss of Aebp2 expression in all TEC was analyzed. The absence of AEBP2 in mTECs compromised PGE and resulted in a preferentially decrease of tissue restricted antigen (TRAs) expression dependent on AIRE. A lack of AEBP2 in cortical TECs (cTECs) affected multiple tissue development signaling pathways which may be responsible for the change in cTEC/mTEC ratio at embryonic stage. A lack of AEBP2 in thymocytes affected the early thymocyte development and caused an increased negative selection in both cortex and medulla as well as the post-selection maturation of CD4+ and CD8+ thymocytes. During the investigation of Aebp2 deficient thymocytes via haematopoietic cell transplantation, a robust growth advantage in all haematopoietic lineages was observed. Transcriptome analysis showed an up-regulation of Aurora Kinase A (Aurka) in Aebp2-/- HSCs which may lead to the enhanced proliferation. Taken together, the expression of AEBP2 is essential for the expression of a comprehensive repertoire of self-antigens as well as the development of haematopoietic progenitor cells including thymocytes.

Published

2020

8. Comprehensive Rare Variant Analysis via Whole-Genome Sequencing to Determine the Molecular Pathology of Inherited Retinal Disease

Author

Keren J. Carss, Gavin Arno, Marie Erwood, Jonathan Stephens, Alba Sanchis-Juan, Sarah Hull, Karyn Megy, Detelina Grozeva, Eleanor Dewhurst, Samantha Malka, Vincent Plagnol, Christopher Penkett, Kathleen Stirrups, Roberta Rizzo, Genevieve Wright, Dragana Josifova, Maria Bitner-Glindzicz, Richard H. Scott, Emma Clement, Louise Allen, Ruth Armstrong, Angela F. Brady, Jenny Carmichael, Manali Chitre, Robert H.H. Henderson, Jane Hurst, Robert E. MacLaren, Elaine Murphy, Joan Paterson, Elisabeth Rosser, Dorothy A. Thompson, Emma Wakeling, Willem H. Ouwehand, Michel Michaelides, Anthony T. Moore, Andrew R. Webster, F. Lucy Raymond, Timothy Aitman, Hana Alachkar, Sonia Ali, David Allsup, Gautum Ambegaonkar, Julie Anderson, Richard Antrobus, Gururaj Arumugakani, Sofie Ashford, William Astle, Antony Attwood, Steve Austin, Chiara Bacchelli, Tamam Bakchoul, Tadbir K. Bariana, Helen Baxendale, David Bennett, Claire Bethune, Shahnaz Bibi, Marta Bleda, Harm Boggard, Paula Bolton-Maggs, Claire Booth, John R. Bradley, Angie Brady, Matthew Brown, Michael Browning, Christine Bryson, Siobhan Burns, Paul Calleja, Natalie Canham, Keren Carss, Mark Caulfield, Elizabeth Chalmers, Anita Chandra, Patrick Chinnery, Colin Church, Naomi Clements-Brod, Virginia Clowes, Gerry Coghlan, Peter Collins, Nichola Cooper, Amanda Creaser-Myers, Rosa DaCosta, Louise Daugherty, Sophie Davies, John Davis, Minka De Vries, Patrick Deegan, Sri V.V. Deevi, Charu Deshpande, Lisa Devlin, Rainer Doffinger, Natalie Dormand, Elizabeth Drewe, David Edgar, William Egner, Wendy N. Erber, Tamara Everington, Remi Favier, Helen Firth, Debra Fletcher, Frances Flinter, James C. Fox, Amy Frary, Kathleen Freson, Bruce Furie, Abigail Furnell, Daniel Gale, Alice Gardham, Michael Gattens, Neeti Ghali, Pavandeep K. Ghataorhe, Rohit Ghurye, Simon Gibbs, Kimberley Gilmour, Paul Gissen, Sarah Goddard, Keith Gomez, Pavel Gordins, Stefan Gräf, Daniel Greene, Alan Greenhalgh, Andreas Greinacher, Sofia Grigoriadou, Scott Hackett, Charaka Hadinnapola, Rosie Hague, Matthias Haimel, Csaba Halmagyi, Tracey Hammerton, Daniel Hart, Grant Hayman, Johan W.M. Heemskerk, Robert Henderson, Anke Hensiek, Yvonne Henskens, Archana Herwadkar, Simon Holden, Muriel Holder, Susan Holder, Fengyuan Hu, Aarnoud Huissoon, Marc Humbert, Roger James, Stephen Jolles, Rashid Kazmi, David Keeling, Peter Kelleher, Anne M. Kelly, Fiona Kennedy, David Kiely, Nathalie Kingston, Ania Koziell, Deepa Krishnakumar, Taco W. Kuijpers, Dinakantha Kumararatne, Manju Kurian, Michael A. Laffan, Michele P. Lambert, Hana Lango Allen, Allan Lawrie, Sara Lear, Melissa Lees, Claire Lentaigne, Ri Liesner, Rachel Linger, Hilary Longhurst, Lorena Lorenzo, Rajiv Machado, Rob Mackenzie, Robert MacLaren, Eamonn Maher, Jesmeen Maimaris, Sarah Mangles, Ania Manson, Rutendo Mapeta, Hugh S. Markus, Jennifer Martin, Larahmie Masati, Mary Mathias, Vera Matser, Anna Maw, Elizabeth McDermott, Coleen McJannet, Stuart Meacham, Sharon Meehan, Sarju Mehta, Carolyn M. Millar, Shahin Moledina, Anthony Moore, Nicholas Morrell, Andrew Mumford, Sai Murng, Sergey Nejentsev, Sadia Noorani, Paquita Nurden, Eric Oksenhendler, Sofia Papadia, Soo-Mi Park, Alasdair Parker, John Pasi, Chris Patch, Jeanette Payne, Andrew Peacock, Kathelijne Peerlinck, Christopher J. Penkett, Joanna Pepke-Zaba, David J. Perry, Val Pollock, Gary Polwarth, Mark Ponsford, Waseem Qasim, Isabella Quinti, Stuart Rankin, Julia Rankin, Karola Rehnstrom, Evan Reid, Christopher J. Rhodes, Michael Richards, Sylvia Richardson, Alex Richter, Irene Roberts, Matthew Rondina, Catherine Roughley, Kevin Rue-Albrecht, Crina Samarghitean, Richard Sandford, Saikat Santra, Ravishankar Sargur, Sinisa Savic, Sol Schulman, Harald Schulze, Richard Scott, Marie Scully, Suranjith Seneviratne, Carrock Sewell, Olga Shamardina, Debbie Shipley, Ilenia Simeoni, Suthesh Sivapalaratnam, Kenneth Smith, Aman Sohal, Laura Southgate, Simon Staines, Emily Staples, Hans Stauss, Penelope Stein, Sophie Stock, Jay Suntharalingam, R. Campbell Tait, Kate Talks, Yvonne Tan, Jecko Thachil, James Thaventhiran, Ellen Thomas, Moira Thomas, Dorothy Thompson, Adrian Thrasher, Marc Tischkowitz, Catherine Titterton, Cheng-Hock Toh, Mark Toshner, Carmen Treacy, Richard Trembath, Salih Tuna, Wojciech Turek, Ernest Turro, Chris Van Geet, Marijke Veltman, Julie Vogt, Julie von Ziegenweldt, Anton Vonk Noordegraaf, Ivy Wanjiku, Timothy Q. Warner, Evangeline Wassmer, Hugh Watkins, Andrew Webster, Steve Welch, Sarah Westbury, John Wharton, Deborah Whitehorn, Martin Wilkins, Lisa Willcocks, Catherine Williamson, Geoffrey Woods, John Wort, Nigel Yeatman, Patrick Yong, Tim Young, Ping Yu, Pediatric surgery, Molecular cell biology and Immunology, Pulmonary medicine, ACS - Pulmonary hypertension & thrombosis, APH - Quality of Care, Amsterdam Reproduction & Development (AR&D), Rue-Albrecht, K, RS: CARIM - R1.04 - Clinical thrombosis and haemostasis, MUMC+: DA CDL Algemeen (9), Med Microbiol, Infect Dis & Infect Prev, RS: CARIM - R1.03 - Cell biochemistry of thrombosis and haemostasis, Biochemie, Raymond, Lucy [0000-0003-2652-3355], Apollo - University of Cambridge Repository, Vascular Medicine, and Paediatric Infectious Diseases / Rheumatology / Immunology

Subjects

0301 basic medicine, Male, DNA Mutational Analysis, EXOME, PROTEIN, Eye, whole-genome sequence, NIHR-BioResource Rare Diseases Consortium, Medical and Health Sciences, Choroideremia, ACTIVATION, 0302 clinical medicine, Ethnicity, 2.1 Biological and endogenous factors, Exome, rare sequence variant, Copy-number variation, Aetiology, MUTATION, Genetics (clinical), Exome sequencing, Genetics & Heredity, Genetics, Genome, Adaptor Proteins, Biological Sciences, DYSTROPHY, copy-number variants, Female, Human, Common disease-common variant, LEBER CONGENITAL AMAUROSIS, Ethnic Groups, Genes, Recessive, Biology, DIAGNOSIS, Article, 03 medical and health sciences, Rare Diseases, Retinal Diseases, STARGARDT DISEASE, Clinical Research, REVEALS, Journal Article, medicine, Recessive, Humans, retinal dystrophy, Eye Disease and Disorders of Vision, Alleles, Adaptor Proteins, Signal Transducing, Whole genome sequencing, Base Sequence, Genome, Human, Human Genome, Signal Transducing, Neurosciences, Genetic Variation, medicine.disease, GENE, Introns, Stargardt disease, Good Health and Well Being, 030104 developmental biology, Genes, Mutation, 030221 ophthalmology & optometry, Human genome

Abstract

Inherited retinal disease is a common cause of visual impairment and represents a highly heterogeneous group of conditions. Here, we present findings from a cohort of 722 individuals with inherited retinal disease, who have had whole-genome sequencing (n = 605), whole-exome sequencing (n = 72), or both (n = 45) performed, as part of the NIHR-BioResource Rare Diseases research study. We identified pathogenic variants (single-nucleotide variants, indels, or structural variants) for 404/722 (56%) individuals. Whole-genome sequencing gives unprecedented power to detect three categories of pathogenic variants in particular: structural variants, variants in GC-rich regions, which have significantly improved coverage compared to whole-exome sequencing, and variants in non-coding regulatory regions. In addition to previously reported pathogenic regulatory variants, we have identified a previously unreported pathogenic intronic variant in $\textit{CHM}$ in two males with choroideremia. We have also identified 19 genes not previously known to be associated with inherited retinal disease, which harbor biallelic predicted protein-truncating variants in unsolved cases. Whole-genome sequencing is an increasingly important comprehensive method with which to investigate the genetic causes of inherited retinal disease.

Published

2017

9. Panpipes: a pipeline for multiomic single-cell and spatial transcriptomic data analysis.

Author

Curion F, Rich-Griffin C, Agarwal D, Ouologuem S, Rue-Albrecht K, May L, Garcia GEL, Heumos L, Thomas T, Lason W, Sims D, Theis FJ, and Dendrou CA

Subjects

Gene Expression Profiling methods, Humans, Workflow, Single-Cell Analysis methods, Software, Transcriptome

Abstract

Single-cell multiomic analysis of the epigenome, transcriptome, and proteome allows for comprehensive characterization of the molecular circuitry that underpins cell identity and state. However, the holistic interpretation of such datasets presents a challenge given a paucity of approaches for systematic, joint evaluation of different modalities. Here, we present Panpipes, a set of computational workflows designed to automate multimodal single-cell and spatial transcriptomic analyses by incorporating widely-used Python-based tools to perform quality control, preprocessing, integration, clustering, and reference mapping at scale. Panpipes allows reliable and customizable analysis and evaluation of individual and integrated modalities, thereby empowering decision-making before downstream investigations., (© 2024. The Author(s).)

Published

2024

10. Author Correction: Capture-C: a modular and flexible approach for high-resolution chromosome conformation capture.

Author

Downes DJ, Smith AL, Karpinska MA, Velychko T, Rue-Albrecht K, Sims D, Milne TA, Davies JOJ, Oudelaar AM, and Hughes JR

Published

2023

11. Capture-C: a modular and flexible approach for high-resolution chromosome conformation capture.

Author

Downes DJ, Smith AL, Karpinska MA, Velychko T, Rue-Albrecht K, Sims D, Milne TA, Davies JOJ, Oudelaar AM, and Hughes JR

Subjects

Humans, High-Throughput Nucleotide Sequencing methods, Nucleic Acid Conformation, DNA chemistry, DNA genetics, Chromosomes genetics

Abstract

Chromosome conformation capture (3C) methods measure the spatial proximity between DNA elements in the cell nucleus. Many methods have been developed to sample 3C material, including the Capture-C family of protocols. Capture-C methods use oligonucleotides to enrich for interactions of interest from sequencing-ready 3C libraries. This approach is modular and has been adapted and optimized to work for sampling of disperse DNA elements (NuTi Capture-C), including from low cell inputs (LI Capture-C), as well as to generate Hi-C like maps for specific regions of interest (Tiled-C) and to interrogate multiway interactions (Tri-C). We present the design, experimental protocol and analysis pipeline for NuTi Capture-C in addition to the variations for generation of LI Capture-C, Tiled-C and Tri-C data. The entire procedure can be performed in 3 weeks and requires standard molecular biology skills and equipment, access to a next-generation sequencing platform, and basic bioinformatic skills. Implemented with other sequencing technologies, these methods can be used to identify regulatory interactions and to compare the structural organization of the genome in different cell types and genetic models., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

12. IL-1-driven stromal-neutrophil interactions define a subset of patients with inflammatory bowel disease that does not respond to therapies.

Author

Friedrich M, Pohin M, Jackson MA, Korsunsky I, Bullers SJ, Rue-Albrecht K, Christoforidou Z, Sathananthan D, Thomas T, Ravindran R, Tandon R, Peres RS, Sharpe H, Wei K, Watts GFM, Mann EH, Geremia A, Attar M, McCuaig S, Thomas L, Collantes E, Uhlig HH, Sansom SN, Easton A, Raychaudhuri S, Travis SP, and Powrie FM

Subjects

Adult, Aged, Female, Fibroblasts metabolism, Humans, Inflammatory Bowel Diseases drug therapy, Inflammatory Bowel Diseases genetics, Male, Middle Aged, Receptors, Interleukin-1 metabolism, Signal Transduction physiology, Vascular Remodeling physiology, Inflammatory Bowel Diseases pathology, Interleukin-1 metabolism, Neutrophil Infiltration immunology, Neutrophils immunology, Stromal Cells immunology

Abstract

Current inflammatory bowel disease (IBD) therapies are ineffective in a high proportion of patients. Combining bulk and single-cell transcriptomics, quantitative histopathology and in situ localization across three cohorts of patients with IBD (total n = 376), we identify coexpressed gene modules within the heterogeneous tissular inflammatory response in IBD that map to distinct histopathological and cellular features (pathotypes). One of these pathotypes is defined by high neutrophil infiltration, activation of fibroblasts and vascular remodeling at sites of deep ulceration. Activated fibroblasts in the ulcer bed display neutrophil-chemoattractant properties that are IL-1R, but not TNF, dependent. Pathotype-associated neutrophil and fibroblast signatures are increased in nonresponders to several therapies across four independent cohorts (total n = 343). The identification of distinct, localized, tissular pathotypes will aid precision targeting of current therapeutics and provides a biological rationale for IL-1 signaling blockade in ulcerating disease., (© 2021. The Author(s).)

Published

2021

13. RNA-Seq Transcriptome Analysis of Peripheral Blood From Cattle Infected With Mycobacterium bovis Across an Experimental Time Course.

Author

McLoughlin KE, Correia CN, Browne JA, Magee DA, Nalpas NC, Rue-Albrecht K, Whelan AO, Villarreal-Ramos B, Vordermeier HM, Gormley E, Gordon SV, and MacHugh DE

Abstract

Bovine tuberculosis, caused by infection with members of the Mycobacterium tuberculosis complex, particularly Mycobacterium bovis , is a major endemic disease affecting cattle populations worldwide, despite the implementation of stringent surveillance and control programs in many countries. The development of high-throughput functional genomics technologies, including RNA sequencing, has enabled detailed analysis of the host transcriptome to M. bovis infection, particularly at the macrophage and peripheral blood level. In the present study, we have analysed the transcriptome of bovine whole peripheral blood samples collected at -1 week pre-infection and +1, +2, +6, +10, and +12 weeks post-infection time points. Differentially expressed genes were catalogued and evaluated at each post-infection time point relative to the -1 week pre-infection time point and used for the identification of putative candidate host transcriptional biomarkers for M. bovis infection. Differentially expressed gene sets were also used for examination of cellular pathways associated with the host response to M. bovis infection, construction of de novo gene interaction networks enriched for host differentially expressed genes, and time-series analyses to identify functionally important groups of genes displaying similar patterns of expression across the infection time course. A notable outcome of these analyses was identification of a 19-gene transcriptional biosignature of infection consisting of genes increased in expression across the time course from +1 week to +12 weeks post-infection., 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 McLoughlin, Correia, Browne, Magee, Nalpas, Rue-Albrecht, Whelan, Villarreal-Ramos, Vordermeier, Gormley, Gordon and MacHugh.)

Published

2021

14. Orchestrating single-cell analysis with Bioconductor.

Author

Amezquita RA, Lun ATL, Becht E, Carey VJ, Carpp LN, Geistlinger L, Marini F, Rue-Albrecht K, Risso D, Soneson C, Waldron L, Pagès H, Smith ML, Huber W, Morgan M, Gottardo R, and Hicks SC

Subjects

Gene Expression Profiling, Genome, High-Throughput Nucleotide Sequencing, Software, Single-Cell Analysis methods

Abstract

Recent technological advancements have enabled the profiling of a large number of genome-wide features in individual cells. However, single-cell data present unique challenges that require the development of specialized methods and software infrastructure to successfully derive biological insights. The Bioconductor project has rapidly grown to meet these demands, hosting community-developed open-source software distributed as R packages. Featuring state-of-the-art computational methods, standardized data infrastructure and interactive data visualization tools, we present an overview and online book (https://osca.bioconductor.org) of single-cell methods for prospective users.

Published

2020

15. Publisher Correction: Orchestrating single-cell analysis with Bioconductor.

Author

Amezquita RA, Lun ATL, Becht E, Carey VJ, Carpp LN, Geistlinger L, Marini F, Rue-Albrecht K, Risso D, Soneson C, Waldron L, Pagès H, Smith ML, Huber W, Morgan M, Gottardo R, and Hicks SC

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

16. RNA Sequencing (RNA-Seq) Reveals Extremely Low Levels of Reticulocyte-Derived Globin Gene Transcripts in Peripheral Blood From Horses ( Equus caballus ) and Cattle ( Bos taurus ).

Author

Correia CN, McLoughlin KE, Nalpas NC, Magee DA, Browne JA, Rue-Albrecht K, Gordon SV, and MacHugh DE

Abstract

RNA-seq has emerged as an important technology for measuring gene expression in peripheral blood samples collected from humans and other vertebrate species. In particular, transcriptomics analyses of whole blood can be used to study immunobiology and develop novel biomarkers of infectious disease. However, an obstacle to these methods in many mammalian species is the presence of reticulocyte-derived globin mRNAs in large quantities, which can complicate RNA-seq library sequencing and impede detection of other mRNA transcripts. A range of supplementary procedures for targeted depletion of globin transcripts have, therefore, been developed to alleviate this problem. Here, we use comparative analyses of RNA-seq data sets generated from human, porcine, equine, and bovine peripheral blood to systematically assess the impact of globin mRNA on routine transcriptome profiling of whole blood in cattle and horses. The results of these analyses demonstrate that total RNA isolated from equine and bovine peripheral blood contains very low levels of globin mRNA transcripts, thereby negating the need for globin depletion and greatly simplifying blood-based transcriptomic studies in these two domestic species.

Published

2018

17. iSEE: Interactive SummarizedExperiment Explorer.

Author

Rue-Albrecht K, Marini F, Soneson C, and Lun ATL

Abstract

Data exploration is critical to the comprehension of large biological data sets generated by high-throughput assays such as sequencing. However, most existing tools for interactive visualisation are limited to specific assays or analyses. Here, we present the iSEE (Interactive SummarizedExperiment Explorer) software package, which provides a general visual interface for exploring data in a SummarizedExperiment object. iSEE is directly compatible with many existing R/Bioconductor packages for analysing high-throughput biological data, and provides useful features such as simultaneous examination of (meta)data and analysis results, dynamic linking between plots and code tracking for reproducibility. We demonstrate the utility and flexibility of iSEE by applying it to explore a range of real transcriptomics and proteomics data sets., Competing Interests: No competing interests were disclosed.

Published

2018

18. Comparative 'omics analyses differentiate Mycobacterium tuberculosis and Mycobacterium bovis and reveal distinct macrophage responses to infection with the human and bovine tubercle bacilli.

Author

Malone KM, Rue-Albrecht K, Magee DA, Conlon K, Schubert OT, Nalpas NC, Browne JA, Smyth A, Gormley E, Aebersold R, MacHugh DE, and Gordon SV

Subjects

Animals, Cattle, Humans, Proteomics, Immunity, Innate, Macrophages, Alveolar metabolism, Macrophages, Alveolar microbiology, Mycobacterium bovis genetics, Mycobacterium bovis immunology, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis immunology, Transcriptome, Tuberculosis, Bovine genetics, Tuberculosis, Bovine immunology, Tuberculosis, Pulmonary genetics, Tuberculosis, Pulmonary immunology, Tuberculosis, Pulmonary microbiology

Abstract

Members of the Mycobacterium tuberculosis complex (MTBC) are the causative agents of tuberculosis in a range of mammals, including humans. A key feature of MTBC pathogens is their high degree of genetic identity yet distinct host tropism. Notably, while Mycobacterium bovis is highly virulent and pathogenic for cattle, the human pathogen M. tuberculosis is attenuated in cattle. Previous research also suggests that host preference amongst MTBC members has a basis in host innate immune responses. To explore MTBC host tropism, we present in-depth profiling of the MTBC reference strains M. bovis AF2122/97 and M. tuberculosis H37Rv at both the global transcriptional and the translational level via RNA-sequencing and SWATH MS. Furthermore, a bovine alveolar macrophage infection time course model was used to investigate the shared and divergent host transcriptomic response to infection with M. tuberculosis H37Rv or M. bovis AF2122/97. Significant differential expression of virulence-associated pathways between the two bacilli was revealed, including the ESX-1 secretion system. A divergent transcriptional response was observed between M. tuberculosis H37Rv and M. bovis AF2122/97 infection of bovine alveolar macrophages, in particular cytosolic DNA-sensing pathways at 48 h post-infection, and highlights a distinct engagement of M. bovis with the bovine innate immune system. The work presented here therefore provides a basis for the identification of host innate immune mechanisms subverted by virulent host-adapted mycobacteria to promote their survival during the early stages of infection.

Published

2018

19. Experimental infection of cattle with Mycobacterium tuberculosis isolates shows the attenuation of the human tubercle bacillus for cattle.

Author

Villarreal-Ramos B, Berg S, Whelan A, Holbert S, Carreras F, Salguero FJ, Khatri BL, Malone K, Rue-Albrecht K, Shaughnessy R, Smyth A, Ameni G, Aseffa A, Sarradin P, Winter N, Vordermeier M, and Gordon SV

Subjects

Animals, Biomarkers metabolism, Cattle, Female, Humans, Tuberculosis metabolism, Tuberculosis microbiology, Tuberculosis, Bovine metabolism, Tuberculosis, Bovine microbiology, Bacillus immunology, Mycobacterium bovis immunology, Mycobacterium tuberculosis immunology, Tuberculosis immunology, Tuberculosis, Bovine immunology

Abstract

The Mycobacterium tuberculosis complex (MTBC) is the collective term given to the group of bacteria that cause tuberculosis (TB) in mammals. It has been reported that M. tuberculosis H37Rv, a standard reference MTBC strain, is attenuated in cattle compared to Mycobacterium bovis. However, as M. tuberculosis H37Rv was isolated in the early 1930s, and genetic variants are known to exist, we sought to revisit this question of attenuation of M. tuberculosis for cattle by performing a bovine experimental infection with a recent M. tuberculosis isolate. Here we report infection of cattle using M. bovis AF2122/97, M. tuberculosis H37Rv, and M. tuberculosis BTB1558, the latter isolated in 2008 during a TB surveillance project in Ethiopian cattle. We show that both M. tuberculosis strains caused reduced gross pathology and histopathology in cattle compared to M. bovis. Using M. tuberculosis H37Rv and M. bovis AF2122/97 as the extremes in terms of infection outcome, we used RNA-Seq analysis to explore differences in the peripheral response to infection as a route to identify biomarkers of progressive disease in contrast to a more quiescent, latent infection. Our work shows the attenuation of M. tuberculosis strains for cattle, and emphasizes the potential of the bovine model as a 'One Health' approach to inform human TB biomarker development and post-exposure vaccine development.

Published

2018

20. Integrated computational prediction and experimental validation identifies promiscuous T cell epitopes in the proteome of Mycobacterium bovis .

Author

Farrell D, Jones G, Pirson C, Malone K, Rue-Albrecht K, Chubb AJ, Vordermeier M, and Gordon SV

Subjects

Animals, Cattle, Computational Biology, Humans, Reproducibility of Results, Tuberculosis microbiology, Tuberculosis prevention & control, Tuberculosis Vaccines immunology, Tuberculosis, Bovine prevention & control, Epitopes, T-Lymphocyte genetics, Mycobacterium bovis genetics, Proteome genetics, Tuberculosis, Bovine microbiology

Abstract

The discovery of novel antigens is an essential requirement in devising new diagnostics or vaccines for use in control programmes against human tuberculosis (TB) and bovine tuberculosis (bTB). Identification of potential epitopes recognised by CD4 + T cells requires prediction of peptide binding to MHC class-II, an obligatory prerequisite for T cell recognition. To comprehensively prioritise potential MHC-II-binding epitopes from Mycobacterium bovis , the agent of bTB and zoonotic TB in humans, we integrated three binding prediction methods with the M. bovis proteome using a subset of human HLA alleles to approximate the binding of epitope-containing peptides to the bovine MHC class II molecule BoLA-DRB3. Two parallel strategies were then applied to filter the resulting set of binders: identification of the top-scoring binders or clusters of binders. Our approach was tested experimentally by assessing the capacity of predicted promiscuous peptides to drive interferon-γ secretion from T cells of M. bovis infected cattle. Thus, 376 20-mer peptides, were synthesised (270 predicted epitopes, 94 random peptides with low predictive scores and 12 positive controls of known epitopes). The results of this validation demonstrated significant enrichment (>24 %) of promiscuously recognised peptides predicted in our selection strategies, compared with randomly selected peptides with low prediction scores. Our strategy offers a general approach to the identification of promiscuous epitopes tailored to target populations where there is limited knowledge of MHC allelic diversity.

Published

2016

21. GOexpress: an R/Bioconductor package for the identification and visualisation of robust gene ontology signatures through supervised learning of gene expression data.

Author

Rue-Albrecht K, McGettigan PA, Hernández B, Nalpas NC, Magee DA, Parnell AC, Gordon SV, and MacHugh DE

Subjects

RNA, Messenger, Computational Biology methods, Gene Ontology, Software, Supervised Machine Learning, Transcriptome

Abstract

Background: Identification of gene expression profiles that differentiate experimental groups is critical for discovery and analysis of key molecular pathways and also for selection of robust diagnostic or prognostic biomarkers. While integration of differential expression statistics has been used to refine gene set enrichment analyses, such approaches are typically limited to single gene lists resulting from simple two-group comparisons or time-series analyses. In contrast, functional class scoring and machine learning approaches provide powerful alternative methods to leverage molecular measurements for pathway analyses, and to compare continuous and multi-level categorical factors., Results: We introduce GOexpress, a software package for scoring and summarising the capacity of gene ontology features to simultaneously classify samples from multiple experimental groups. GOexpress integrates normalised gene expression data (e.g., from microarray and RNA-seq experiments) and phenotypic information of individual samples with gene ontology annotations to derive a ranking of genes and gene ontology terms using a supervised learning approach. The default random forest algorithm allows interactions between all experimental factors, and competitive scoring of expressed genes to evaluate their relative importance in classifying predefined groups of samples., Conclusions: GOexpress enables rapid identification and visualisation of ontology-related gene panels that robustly classify groups of samples and supports both categorical (e.g., infection status, treatment) and continuous (e.g., time-series, drug concentrations) experimental factors. The use of standard Bioconductor extension packages and publicly available gene ontology annotations facilitates straightforward integration of GOexpress within existing computational biology pipelines.

Published

2016

22. High-throughput transcriptomics reveals common and strain-specific responses of human macrophages to infection with Mycobacterium abscessus Smooth and Rough variants.

Author

Aulicino A, Dinan AM, Miranda-CasoLuengo AA, Browne JA, Rue-Albrecht K, MacHugh DE, and Loftus BJ

Subjects

Cell Line, Gene Expression Regulation, Humans, MAP Kinase Signaling System, Macrophages cytology, Macrophages immunology, MicroRNAs genetics, Mycobacterium pathogenicity, Mycobacterium Infections immunology, RNA, Messenger genetics, Gene Expression Profiling methods, Macrophages virology, Mycobacterium classification, Mycobacterium Infections genetics, Sequence Analysis, RNA methods

Abstract

Background: Mycobacterium abscessus (MAB) is an emerging pathogen causing pulmonary infections in those with inflammatory lung disorders, such as Cystic Fibrosis (CF), and is associated with the highest fatality rate among rapidly growing mycobacteria (RGM). Phenotypically, MAB manifests as either a Smooth (MAB-S) or a Rough (MAB-R) morphotype, which differ in their levels of cell wall glycopeptidolipids (GPLs) and in their pathogenicity in vivo. As one of the primary immune cells encountered by MAB, we sought to examine the early transcriptional events within macrophages, following infection with both MAB-S or MAB-R., Results: We sampled the transcriptomes (mRNA and miRNA) of THP-1-derived macrophages infected with both MAB-R and MAB-S at 1, 4 and 24 h post-infection (hpi) using RNA-seq. A core set of 606 genes showed consistent expression profiles in response to both morphotypes, corresponding to the early transcriptional response to MAB. The core response is type I Interferon (IFN)-driven, involving the NF-κB and MAPK signaling pathways with concomitant pro-inflammatory cytokine production, and network analysis identified STAT1, EGR1, and SRC as key hub and bottleneck genes. MAB-S elicited a more robust transcriptional response at both the mRNA and miRNA levels, which was reflected in higher cytokine levels in culture supernatants. The transcriptional profiles of macrophages infected with both morphotypes were highly correlated, however, and a direct comparison identified few genes to distinguish them. Most of the induced miRNAs have previously been associated with mycobacterial infection and overall miRNA expression patterns were similarly highly correlated between the morphotypes., Conclusions: The report here details the first whole transcriptome analysis of the early macrophage response to MAB infection. The overall picture at the early stages of macrophage infection is similar to that of other mycobacteria, reflected in a core type I IFN and pro-inflammatory cytokine response. Large-scale transcriptional differences in the host response to the different MAB morphotypes are not evident in the early stages of infection, however the subset of genes with distinct expression profiles suggest potentially interesting differences in internal trafficking of MAB within macrophages.

Published

2015

23. Genome sequencing of the extinct Eurasian wild aurochs, Bos primigenius, illuminates the phylogeography and evolution of cattle.

Author

Park SD, Magee DA, McGettigan PA, Teasdale MD, Edwards CJ, Lohan AJ, Murphy A, Braud M, Donoghue MT, Liu Y, Chamberlain AT, Rue-Albrecht K, Schroeder S, Spillane C, Tai S, Bradley DG, Sonstegard TS, Loftus BJ, and MacHugh DE

Subjects

Animals, England, Europe, Extinction, Biological, Genetic Variation, Genomics, Phylogeography, Ruminants classification, Ruminants genetics, Sequence Analysis, DNA, Cattle genetics, Evolution, Molecular

Abstract

Background: Domestication of the now-extinct wild aurochs, Bos primigenius, gave rise to the two major domestic extant cattle taxa, B. taurus and B. indicus. While previous genetic studies have shed some light on the evolutionary relationships between European aurochs and modern cattle, important questions remain unanswered, including the phylogenetic status of aurochs, whether gene flow from aurochs into early domestic populations occurred, and which genomic regions were subject to selection processes during and after domestication. Here, we address these questions using whole-genome sequencing data generated from an approximately 6,750-year-old British aurochs bone and genome sequence data from 81 additional cattle plus genome-wide single nucleotide polymorphism data from a diverse panel of 1,225 modern animals., Results: Phylogenomic analyses place the aurochs as a distinct outgroup to the domestic B. taurus lineage, supporting the predominant Near Eastern origin of European cattle. Conversely, traditional British and Irish breeds share more genetic variants with this aurochs specimen than other European populations, supporting localized gene flow from aurochs into the ancestors of modern British and Irish cattle, perhaps through purposeful restocking by early herders in Britain. Finally, the functions of genes showing evidence for positive selection in B. taurus are enriched for neurobiology, growth, metabolism and immunobiology, suggesting that these biological processes have been important in the domestication of cattle., Conclusions: This work provides important new information regarding the origins and functional evolution of modern cattle, revealing that the interface between early European domestic populations and wild aurochs was significantly more complex than previously thought.

Published

2015

24. RNA sequencing provides exquisite insight into the manipulation of the alveolar macrophage by tubercle bacilli.

Author

Nalpas NC, Magee DA, Conlon KM, Browne JA, Healy C, McLoughlin KE, Rue-Albrecht K, McGettigan PA, Killick KE, Gormley E, Gordon SV, and MacHugh DE

Subjects

Animals, Cats, Cattle, Computational Biology methods, DEAD-box RNA Helicases metabolism, Gene Expression Profiling, Gene Expression Regulation, High-Throughput Nucleotide Sequencing, Host-Pathogen Interactions immunology, Lysosomes metabolism, Macrophages, Alveolar immunology, Male, Molecular Sequence Annotation, Receptors, Cytoplasmic and Nuclear metabolism, Reproducibility of Results, Signal Transduction, Transcriptome, Tuberculosis, Bovine microbiology, Host-Pathogen Interactions genetics, Macrophages, Alveolar metabolism, Macrophages, Alveolar microbiology, Mycobacterium bovis immunology, Tuberculosis, Bovine genetics, Tuberculosis, Bovine immunology

Abstract

Mycobacterium bovis, the agent of bovine tuberculosis, causes an estimated $3 billion annual losses to global agriculture due, in part, to the limitations of current diagnostics. Development of next-generation diagnostics requires a greater understanding of the interaction between the pathogen and the bovine host. Therefore, to explore the early response of the alveolar macrophage to infection, we report the first application of RNA-sequencing to define, in exquisite detail, the transcriptomes of M. bovis-infected and non-infected alveolar macrophages from ten calves at 2, 6, 24 and 48 hours post-infection. Differentially expressed sense genes were detected at these time points that revealed enrichment of innate immune signalling functions, and transcriptional suppression of host defence mechanisms (e.g., lysosome maturation). We also detected differentially expressed natural antisense transcripts, which may play a role in subverting innate immune mechanisms following infection. Furthermore, we report differential expression of novel bovine genes, some of which have immune-related functions based on orthology with human proteins. This is the first in-depth transcriptomics investigation of the alveolar macrophage response to the early stages of M. bovis infection and reveals complex patterns of gene expression and regulation that underlie the immunomodulatory mechanisms used by M. bovis to evade host defence mechanisms.

Published

2015

25. Comparative functional genomics and the bovine macrophage response to strains of the mycobacterium genus.

Author

Rue-Albrecht K, Magee DA, Killick KE, Nalpas NC, Gordon SV, and MacHugh DE

Abstract

Mycobacterial infections are major causes of morbidity and mortality in cattle and are also potential zoonotic agents with implications for human health. Despite the implementation of comprehensive animal surveillance programs, many mycobacterial diseases have remained recalcitrant to eradication in several industrialized countries. Two major mycobacterial pathogens of cattle are Mycobacterium bovis and Mycobacterium avium subspecies paratuberculosis (MAP), the causative agents of bovine tuberculosis (BTB) and Johne's disease (JD), respectively. BTB is a chronic, granulomatous disease of the respiratory tract that is spread via aerosol transmission, while JD is a chronic granulomatous disease of the intestines that is transmitted via the fecal-oral route. Although these diseases exhibit differential tissue tropism and distinct complex etiologies, both M. bovis and MAP infect, reside, and replicate in host macrophages - the key host innate immune cell that encounters mycobacterial pathogens after initial exposure and mediates the subsequent immune response. The persistence of M. bovis and MAP in macrophages relies on a diverse series of immunomodulatory mechanisms, including the inhibition of phagosome maturation and apoptosis, generation of cytokine-induced necrosis enabling dissemination of infection through the host, local pathology, and ultimately shedding of the pathogen. Here, we review the bovine macrophage response to infection with M. bovis and MAP. In particular, we describe how recent advances in functional genomics are shedding light on the host macrophage-pathogen interactions that underlie different mycobacterial diseases. To illustrate this, we present new analyses of previously published bovine macrophage transcriptomics data following in vitro infection with virulent M. bovis, the attenuated vaccine strain M. bovis BCG, and MAP, and discuss our findings with respect to the differing etiologies of BTB and JD.

Published

2014

26. RNA-seq Transcriptional Profiling of Peripheral Blood Leukocytes from Cattle Infected with Mycobacterium bovis.

Author

McLoughlin KE, Nalpas NC, Rue-Albrecht K, Browne JA, Magee DA, Killick KE, Park SD, Hokamp K, Meade KG, O'Farrelly C, Gormley E, Gordon SV, and MacHugh DE

Abstract

Bovine tuberculosis, caused by infection with Mycobacterium bovis, is a major endemic disease affecting cattle populations worldwide, despite the implementation of stringent surveillance and control programs in many countries. The development of high-throughput functional genomics technologies, including gene expression microarrays and RNA-sequencing (RNA-seq), has enabled detailed analysis of the host transcriptome to M. bovis infection, particularly at the macrophage and peripheral blood level. In the present study, we have analyzed the peripheral blood leukocyte (PBL) transcriptome of eight natural M. bovis-infected and eight age- and sex-matched non-infected control Holstein-Friesian animals using RNA-seq. In addition, we compared gene expression profiles generated using RNA-seq with those previously generated using the high-density Affymetrix(®) GeneChip(®) Bovine Genome Array platform from the same PBL-extracted RNA. A total of 3,250 differentially expressed (DE) annotated genes were detected in the M. bovis-infected samples relative to the controls (adjusted P-value ≤0.05), with the number of genes displaying decreased relative expression (1,671) exceeding those with increased relative expression (1,579). Ingenuity(®) Systems Pathway Analysis (IPA) of all DE genes revealed enrichment for genes with immune function. Notably, transcriptional suppression was observed among several of the top-ranking canonical pathways including Leukocyte Extravasation Signaling. Comparative platform analysis demonstrated that RNA-seq detected a larger number of annotated DE genes (3,250) relative to the microarray (1,398), of which 917 genes were common to both technologies and displayed the same direction of expression. Finally, we show that RNA-seq had an increased dynamic range compared to the microarray for estimating differential gene expression.

Published

2014

27. Whole-transcriptome, high-throughput RNA sequence analysis of the bovine macrophage response to Mycobacterium bovis infection in vitro.

Author

Nalpas NC, Park SD, Magee DA, Taraktsoglou M, Browne JA, Conlon KM, Rue-Albrecht K, Killick KE, Hokamp K, Lohan AJ, Loftus BJ, Gormley E, Gordon SV, and MacHugh DE

Subjects

Animals, Cattle, Female, Gene Expression Regulation, Gene Library, High-Throughput Nucleotide Sequencing, Molecular Sequence Annotation, Mycobacterium bovis, Sequence Analysis, RNA, Host-Pathogen Interactions genetics, Macrophages microbiology, Transcriptome, Tuberculosis, Bovine genetics

Abstract

Background: Mycobacterium bovis, the causative agent of bovine tuberculosis, is an intracellular pathogen that can persist inside host macrophages during infection via a diverse range of mechanisms that subvert the host immune response. In the current study, we have analysed and compared the transcriptomes of M. bovis-infected monocyte-derived macrophages (MDM) purified from six Holstein-Friesian females with the transcriptomes of non-infected control MDM from the same animals over a 24 h period using strand-specific RNA sequencing (RNA-seq). In addition, we compare gene expression profiles generated using RNA-seq with those previously generated by us using the high-density Affymetrix® GeneChip® Bovine Genome Array platform from the same MDM-extracted RNA., Results: A mean of 7.2 million reads from each MDM sample mapped uniquely and unambiguously to single Bos taurus reference genome locations. Analysis of these mapped reads showed 2,584 genes (1,392 upregulated; 1,192 downregulated) and 757 putative natural antisense transcripts (558 upregulated; 119 downregulated) that were differentially expressed based on sense and antisense strand data, respectively (adjusted P-value ≤ 0.05). Of the differentially expressed genes, 694 were common to both the sense and antisense data sets, with the direction of expression (i.e. up- or downregulation) positively correlated for 693 genes and negatively correlated for the remaining gene. Gene ontology analysis of the differentially expressed genes revealed an enrichment of immune, apoptotic and cell signalling genes. Notably, the number of differentially expressed genes identified from RNA-seq sense strand analysis was greater than the number of differentially expressed genes detected from microarray analysis (2,584 genes versus 2,015 genes). Furthermore, our data reveal a greater dynamic range in the detection and quantification of gene transcripts for RNA-seq compared to microarray technology., Conclusions: This study highlights the value of RNA-seq in identifying novel immunomodulatory mechanisms that underlie host-mycobacterial pathogen interactions during infection, including possible complex post-transcriptional regulation of host gene expression involving antisense RNA.

Published

2013

28. Correlation of disorder between S. cerevisiae interacting proteins.

Author

Rue-Albrecht K, Shields DC, and Khaldi N

Subjects

Protein Binding, Protein Conformation, Protein Folding, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins chemistry, Saccharomyces cerevisiae Proteins metabolism

Abstract

Protein disorder has been frequently associated with protein-protein interaction. However, our knowledge of how protein disorder evolves within a network is limited. It is expected that physically interacting proteins evolve in a coordinated manner. This has so far been shown in their evolutionary rate, and in their gene expression levels. Here we examine the percentage of predicted disorder residues within binary and complex interacting proteins (physical and functional interactions respectively) to investigate how the disorder of a protein relates to that of its interacting partners. We show that the level of disorder of interacting proteins are correlated, with a greater correlation seen among proteins that are co-members of the same complex, and a lesser correlation between proteins that are documented as binary interactors of each other. There is a striking variation among complexes not only in their disorder, but in the extent to which the proteins within the complex differ in their levels of disorder, with RNA processes and protein binding complexes showing more variation in the disorder of their proteins, whilst other complexes show very little variation in the overall disorder of their constituent proteins. There is likely to be a stronger selection for complex subunits to have similar disorder, than is seen for proteins involved in binary interactions. Thus, binary interactions may be more resilient to changes in disorder than are complex interactions. These results add a new dimension to the role of disorder in protein networks, and highlight the potential importance of maintaining similar disorder in the members of a complex.

Published

2012