Your search keyword '"Nilesh J. Bokil"' showing total 23 results

1. SCIMP is a transmembrane non-TIR TLR adaptor that promotes proinflammatory cytokine production from macrophages

Author

Lin Luo, Nilesh J. Bokil, Adam A. Wall, Ronan Kapetanovic, Natalie M. Lansdaal, Faustine Marceline, Belinda J. Burgess, Samuel J. Tong, Zhong Guo, Kirill Alexandrov, Ian L. Ross, Margaret L. Hibbs, Jennifer L. Stow, and Matthew J. Sweet

Subjects

Science

Abstract

Toll-like receptors engage TIR domain-containing adaptors to control proinflammatory gene expression in response to pathogens and tissue damage. Here the authors show that the non-TIR domain-containing transmembrane protein SCIMP is a previously unrecognized TLR adaptor expressed by macrophages.

Published

2017

2. An alternative downstream translation start site in the non‐TIR adaptor Scimp enables selective amplification of CpG DNA responses in mouse macrophages

Author

James EB Curson, Lin Luo, Liping Liu, Belinda J Burgess, Nilesh J Bokil, Adam A Wall, Tomas Brdicka, Ronan Kapetanovic, Jennifer L Stow, and Matthew J Sweet

Subjects

Mice, src-Family Kinases, Macrophages, Toll-Like Receptors, Immunology, Animals, Immunology and Allergy, DNA, Cell Biology, Signal Transduction

Abstract

Toll-like receptor (TLR) signaling relies on Toll/interleukin-1 receptor homology (TIR) domain-containing adaptor proteins that recruit downstream signaling molecules to generate tailored immune responses. In addition, the palmitoylated transmembrane adaptor protein family member Scimp acts as a non-TIR-containing adaptor protein in macrophages, scaffolding the Src family kinase Lyn to enable TLR phosphorylation and proinflammatory signaling responses. Here we report the existence of a smaller, naturally occurring translational variant of Scimp (Scimp TV1), which is generated through leaky scanning and translation at a downstream methionine. Scimp TV1 also scaffolds Lyn, but in contrast to full-length Scimp, it is basally rather than lipopolysaccharide (LPS)-inducibly phosphorylated. Macrophages from mice that selectively express Scimp TV1, but not full-length Scimp, have impaired sustained LPS-inducible cytokine responses. Furthermore, in granulocyte macrophage colony-stimulating factor-derived myeloid cells that express high levels of Scimp, selective overexpression of Scimp TV1 enhances CpG DNA-inducible cytokine production. Unlike full-length Scimp that localizes to the cell surface and filopodia, Scimp TV1 accumulates in intracellular compartments, particularly the Golgi. Moreover, this variant of Scimp is not inducibly phosphorylated in response to CpG DNA, suggesting that it may act via an indirect mechanism to enhance TLR9 responses. Our findings thus reveal the use of alternative translation start sites as a previously unrecognized mechanism for diversifying TLR responses in the innate immune system.

Published

2022

3. A transcriptional blood signature distinguishes early tuberculosis disease from latent tuberculosis infection and uninfected individuals in a Vietnamese cohort

Author

Nilesh J. Bokil, Warwick J. Britton, Bernadette M. Saunders, Guy B. Marks, Jennifer Ho, Greg J. Fox, Phuong Thi Bich Nguyen, Nathan J. Hare, Thu Anh Nguyen, and Michael Liu

Subjects

0301 basic medicine, Microbiology (medical), medicine.medical_specialty, Tuberculosis, 030106 microbiology, Context (language use), Disease, Sensitivity and Specificity, 03 medical and health sciences, 0302 clinical medicine, Asian People, Tuberculosis diagnosis, Latent Tuberculosis, Internal medicine, Humans, Medicine, 030212 general & internal medicine, Randomized Controlled Trials as Topic, Latent tuberculosis, business.industry, Sputum, Case-control study, Mycobacterium tuberculosis, Gene signature, medicine.disease, Infectious Diseases, Case-Control Studies, Biomarker (medicine), business

Abstract

Summary Objectives Global tuberculosis (TB) control is restricted by the failure to detect an estimated 3.3 million TB cases annually. In the majority of TB endemic settings, sputum smear microscopy is used to diagnose TB, but this test is insensitive for TB in its early stages. The objective of this study is to establish a concise gene signature that discriminates between individuals with early TB disease, latent TB infection (LTBI) and those without infection. Methods This is a case control study nested within a cluster-randomised trial of population screening for active TB using Xpert MTB/RIF. Whole blood samples from 303 participants with active TB (97), LTBI (92) and uninfected individuals (114) were subject to transcriptomic analysis of selected target genes based on a systematic review of previous studies. Results Analysis of 82 genes identified a pattern of differentially expressed genes in TB disease. A seven gene signature was identified that distinguished between TB disease and no TB disease with an AUC of 0.86 (95% CI: 0.80–0.91), and between TB disease from LTBI with an AUC of 0.88 (95% CI: 0.82–0.93). Conclusion This gene signature accurately distinguishes early TB disease from those without TB disease or infection, in the context of community-wide TB screening. It could be used as a non-sputum based screening tool or triage test to detect prevalent cases of TB in the community.

Published

2020

4. Frontline Science: LPS-inducible SLC30A1 drives human macrophage-mediated zinc toxicity against intracellular Escherichia coli

Author

Kate M. Peters, Ronan Kapetanovic, Claudia J. Stocks, James E. B. Curson, Nilesh J. Bokil, Darren Foo, Minh-Duy Phan, Jessica B. von Pein, Robert G. Parton, Matthew J. Sweet, Mark A. Schembri, Taiho Kambe, and James Rae

Subjects

Lipopolysaccharides, 0301 basic medicine, Immunology, Cell, chemistry.chemical_element, Zinc, Biology, medicine.disease_cause, zinc transporters, Mice, 03 medical and health sciences, 0302 clinical medicine, Anti-Infective Agents, Escherichia coli, medicine, Animals, Humans, Immunology and Allergy, Gene silencing, Macrophage, Cation Transport Proteins, Escherichia coli Infections, Macrophages, Intracellular parasite, E. coli, metal ions, Cell Biology, host‐pathogen, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Highlighted Article, chemistry, 030220 oncology & carcinogenesis, Zinc toxicity, zinc toxicity, Spotlight on Leading Edge Research, antimicrobial, Intracellular

Abstract

TLR‐inducible zinc toxicity is an antimicrobial mechanism utilized by macrophages, however knowledge of molecular mechanisms mediating this response is limited. Here, we show that E. coli exposed to zinc stress within primary human macrophages reside in membrane‐bound vesicular compartments. Since SLC30A zinc exporters can deliver zinc into the lumen of vesicles, we examined LPS‐regulated mRNA expression of Slc30a/SLC30A family members in primary mouse and human macrophages. A number of these transporters were dynamically regulated in both cell populations. In human monocyte‐derived macrophages, LPS strongly up‐regulated SLC30A1 mRNA and protein expression. In contrast, SLC30A1 was not LPS‐inducible in macrophage‐like PMA‐differentiated THP‐1 cells. We therefore ectopically expressed SLC30A1 in these cells, finding that this was sufficient to promote zinc‐containing vesicle formation. The response was similar to that observed following LPS stimulation. Ectopically expressed SLC30A1 localized to both the plasma membrane and intracellular zinc‐containing vesicles within LPS‐stimulated THP‐1 cells. Inducible overexpression of SLC30A1 in THP‐1 cells infected with the Escherichia coli K‐12 strain MG1655 augmented the zinc stress response of intracellular bacteria and promoted clearance. Furthermore, in THP‐1 cells infected with an MG1655 zinc stress reporter strain, all bacteria contained within SLC30A1‐positive compartments were subjected to zinc stress. Thus, SLC30A1 marks zinc‐containing compartments associated with TLR‐inducible zinc toxicity in human macrophages, and its ectopic over‐expression is sufficient to initiate this antimicrobial pathway in these cells. Finally, SLC30A1 silencing did not compromise E. coli clearance by primary human macrophages, suggesting that other zinc exporters may also contribute to the zinc toxicity response., Graphical Abstract The zinc transporter SLC30A1 is LPS‐inducible in human macrophages and can deliver a zinc toxicity response against intracellular Escherichia coli.

Published

2020

5. High-resolution longitudinal N- and O-glycoprofiling of human monocyte-to-macrophage transition

Author

Morten Thaysen-Andersen, Rebeca Kawahara, Alexander Pralow, Bernadette M. Saunders, Nilesh J. Bokil, Jessica L Pedersen, Hannes Hinneburg, Erdmann Rapp, and Falko Schirmeister

Subjects

Glycan, Glycosylation, biology, Chemistry, Macrophages, Monocyte, CD14, Glycopeptides, Proteomics, Biochemistry, Glycome, Monocytes, Cell biology, Glycomics, medicine.anatomical_structure, Polysaccharides, Tandem Mass Spectrometry, biology.protein, medicine, Humans, Macrophage, Fucosylation, Chromatography, Liquid

Abstract

Protein glycosylation impacts the development and function of innate immune cells. The glycophenotypes and the glycan remodelling associated with the maturation of macrophages from monocytic precursor populations remain incompletely described. Herein, label-free porous graphitised carbon–liquid chromatography–tandem mass spectrometry (PGC-LC-MS/MS) was employed to profile with high resolution the N- and O-glycome associated with human monocyte-to-macrophage transition. Primary blood-derived CD14+ monocytes were differentiated ex vivo in the absence of strong anti- and proinflammatory stimuli using a conventional 7-day granulocyte-macrophage colony-stimulating factor differentiation protocol with longitudinal sampling. Morphology and protein expression monitored by light microscopy and proteomics validated the maturation process. Glycomics demonstrated that monocytes and macrophages display similar N-glycome profiles, comprising predominantly paucimannosidic (Man1-3GlcNAc2Fuc0–1, 22.1–30.8%), oligomannosidic (Man5-9GlcNAc2, 29.8–35.7%) and α2,3/6-sialylated complex-type N-glycans with variable core fucosylation (27.6–39.1%). Glycopeptide analysis validated conjugation of these glycans to human proteins, while quantitative proteomics monitored the glycoenzyme expression levels during macrophage differentiation. Significant interperson glycome variations were observed suggesting a considerable physiology-dependent or heritable heterogeneity of CD14+ monocytes. Only few N-glycome changes correlated with the monocyte-to-macrophage transition across donors including decreased core fucosylation and reduced expression of mannose-terminating (paucimannosidic-/oligomannosidic-type) N-glycans in macrophages, while lectin flow cytometry indicated that more dramatic cell surface glycan remodelling occurs during maturation. The less heterogeneous core 1-rich O-glycome showed a minor decrease in core 2-type O-glycosylation but otherwise remained unchanged with macrophage maturation. This high-resolution glycome map underpinning normal monocyte-to-macrophage transition, the most detailed to date, aids our understanding of the molecular makeup pertaining to two vital innate immune cell types and forms an important reference for future glycoimmunological studies.

Published

2020

6. High sensitivity and specificity of a 5‐analyte protein and microRNA biosignature for identification of active tuberculosis

Author

Warwick J. Britton, Simone E. Barry, Yu Rong Yang, Xiaolin Wang, Nilesh J. Bokil, Magda K. Ellis, Jessica L Pedersen, Alen Faiz, Bernadette M. Saunders, and Guangyu Guan

Subjects

0301 basic medicine, Eotaxin, Oncology, medicine.medical_specialty, Analyte, Tuberculosis, diagnosis, Immunology, Disease, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, microRNA, 1107 Immunology, 1115 Pharmacology and Pharmaceutical Sciences, medicine, Immunology and Allergy, 030212 general & internal medicine, General Nursing, Receiver operating characteristic, business.industry, RC581-607, medicine.disease, Blood proteins, proteins, 030104 developmental biology, plasma biomarkers, tuberculosis, Biomarker (medicine), Original Article, Immunologic diseases. Allergy, business

Abstract

Objectives Non‐sputum‐based tests to accurately identify active tuberculosis (TB) disease and monitor response to therapy are urgently needed. This study examined the biomarker capacity of a panel of plasma proteins alone, and in conjunction with a previously identified miRNA signature, to identify active TB disease. Methods The expression of nine proteins (IP‐10, MCP‐1, sTNFR1, RANTES, VEGF, IL‐6, IL‐10, TNF and Eotaxin) was measured in the plasma of 100 control subjects and 100 TB patients, at diagnosis (treatment naïve) and over the course of treatment (1‐, 2‐ and 6‐month intervals). The diagnostic performance of the nine proteins alone, and with the miRNA, was assessed. Results Six proteins were significantly up‐regulated in the plasma of TB patients at diagnosis compared to controls. Receiver operator characteristic curve analysis demonstrated that IP‐10 with an AUC = 0.874, sensitivity of 75% and specificity of 87% was the best single biomarker candidate to distinguish TB patients from controls. IP‐10 and IL‐6 levels fell significantly within one month of commencing treatment and may have potential as indicators of a positive response to therapy. The combined protein and miRNA panel gave an AUC of 1.00. A smaller panel of only five analytes (IP‐10, miR‐29a, miR‐146a, miR‐99b and miR‐221) showed an AUC = 0.995, sensitivity of 96% and specificity of 97%. Conclusions A novel combination of miRNA and proteins significantly improves the sensitivity and specificity as a biosignature over single biomarker candidates and may be useful for the development of a non‐sputum test to aid the diagnosis of active TB disease., The biomarker potential of plasma proteins to identify tuberculosis (TB) patients was examined. Six proteins were significantly elevated in TB patients with IP‐10 and IL‐6 declining with treatment. In conjunction with miRNA previously detected, a five analyte biosignature could identify TB patients with an AUC = 0.995, sensitivity of 96% and specificity of 97%. IP‐10 was the best single biomarker candidate, showing utility as a triage tool, to quickly and easily identify potential TB patients and monitor their response to therapy.

Published

2021

7. Developing new TB biomarkers, are miRNA the answer?

Author

Nilesh J. Bokil, Jessica L Pedersen, and Bernadette M. Saunders

Subjects

0301 basic medicine, Microbiology (medical), Mirna signature, Tuberculosis, 030106 microbiology, Immunology, Antitubercular Agents, Computational biology, Disease, Microbiology, 03 medical and health sciences, microRNA, medicine, Mirna profiling, Humans, Circulating MicroRNA, Tuberculosis, Pulmonary, Host protein, business.industry, Gene Expression Profiling, Mycobacterium tuberculosis, medicine.disease, 030104 developmental biology, Infectious Diseases, Multiple factors, Early Diagnosis, Gene Expression Regulation, Biomarker (medicine), Drug Monitoring, business, Biomarkers

Abstract

© 2019 Elsevier Ltd Efforts to reduce the global TB burden are hindered by the lack of simple, reliable non-sputum based diagnostics. To date studies investigating the biomarker potential of circulating host proteins and mRNA have not shown sufficient diagnostic utility. Recently, there has been increasing interest in circulating miRNA as a biomarker of TB disease. This review examined all published miRNA-TB biomarker studies to determine if a reproducible miRNA signature of TB disease could be elucidated. From 15 miRNA profiling studies, 894 miRNA differentially expressed between TB patients and healthy controls were identified in at least one study. Of these, 143 miRNA were validated by qPCR with 53 differentially expressed between TB patients and controls. Interestingly, only 8 of these miRNA were identified in 2 or more studies, and no consensus on a reproducible miRNA signature for identification of TB disease could be identified. TB disease is clearly associated with a wide breadth of differentially expressed miRNA. This review highlights our recent progress and the multiple factors, including environment, source of tissue, ethnicity and extent of TB disease that may influence miRNA expression. Coordinated efforts are required to validate identified targets in multiple populations to progress miRNA biomarker development.

Published

2019

8. Salmonella employs multiple mechanisms to subvert the TLR‐inducible zinc‐mediated antimicrobial response of human macrophages

Author

Ronan Kapetanovic, Bernadette M. Saunders, Maud E. S. Achard, Katryn J. Stacey, Minh-Duy Phan, Matthew J. Sweet, Kate M. Peters, Mark A. Schembri, Cheryl-lynn Y. Ong, Mercedes Monteleone, Nilesh J. Bokil, Mark J. Walker, Claudia J. Stocks, Katharine M. Irvine, Alastair G. McEwan, and Kate Schroder

Subjects

Salmonella typhimurium, 0301 basic medicine, Salmonella, 030106 microbiology, Mutant, medicine.disease_cause, Biochemistry, Cell Line, Microbiology, 03 medical and health sciences, Bacterial Proteins, Genetics, medicine, RNA, Messenger, Molecular Biology, Pathogen, Escherichia coli, Cells, Cultured, Innate immune system, biology, Macrophages, Cytoplasmic Vesicles, Toll-Like Receptors, Gene Expression Regulation, Bacterial, biology.organism_classification, Antimicrobial, Pathogenicity island, RNA, Bacterial, Zinc, 030104 developmental biology, Salmonella enterica, bacteria, Copper, Biotechnology

Abstract

We aimed to characterize antimicrobial zinc trafficking within macrophages and to determine whether the professional intramacrophage pathogen Salmonella enterica serovar Typhimurium (S Typhimurium) subverts this pathway. Using both Escherichia coli and S Typhimurium, we show that TLR signaling promotes the accumulation of vesicular zinc within primary human macrophages. Vesicular zinc is delivered to E. coli to promote microbial clearance, whereas S. Typhimurium evades this response via Salmonella pathogenicity island (SPI)-1. Even in the absence of SPI-1 and the zinc exporter ZntA, S Typhimurium resists the innate immune zinc stress response, implying the existence of additional host subversion mechanisms. We also demonstrate the combinatorial antimicrobial effects of zinc and copper, a pathway that S. Typhimurium again evades. Our use of complementary tools and approaches, including confocal microscopy, direct assessment of intramacrophage bacterial zinc stress responses, specific E. coli and S Typhimurium mutants, and inductively coupled plasma mass spectroscopy, has enabled carefully controlled characterization of this novel innate immune antimicrobial pathway. In summary, our study provides new insights at the cellular level into the well-documented effects of zinc in promoting host defense against infectious disease, as well as the complex host subversion strategies employed by S Typhimurium to combat this pathway.-Kapetanovic, R., Bokil, N. J., Achard, M. E. S., Ong, C.-L. Y., Peters, K. M., Stocks, C. J., Phan, M.-D., Monteleone, M., Schroder, K., Irvine, K. M., Saunders, B. M., Walker, M. J., Stacey, K. J., McEwan, A. G., Schembri, M. A., Sweet, M. J. Salmonella employs multiple mechanisms to subvert the TLR-inducible zinc-mediated antimicrobial response of human macrophages.

Published

2016

9. The co‐transcriptome of uropathogenic<scp>E</scp>scherichia coli‐infected mouse macrophages reveals new insights into host–pathogen interactions

Author

Timothy Ravasi, Makrina Totsika, Kolja Schaale, Charalampos Harris Mavromatis, Asha Kakkanat, Carlo Vittorio Cannistraci, Nilesh J. Bokil, Scott A. Beatson, Matthew J. Sweet, Mark A. Schembri, Taewoo Ryu, and Glen C. Ulett

Subjects

Immunology, Biology, urologic and male genital diseases, medicine.disease_cause, Microbiology, Transcriptome, Mice, Multiplicity of infection, Virology, Gene expression, Escherichia coli, medicine, Animals, Gene, Pathogen, Cells, Cultured, Sequence Analysis, RNA, Gene Expression Profiling, Macrophages, Original Articles, Phenotype, Gene expression profiling, Host-Pathogen Interactions, Original Article

Abstract

Summary Urinary tract infections (UTI) are among the most common infections in humans. Uropathogenic E scherichia coli (UPEC) can invade and replicate within bladder epithelial cells, and some UPEC strains can also survive within macrophages. To understand the UPEC transcriptional programme associated with intramacrophage survival, we performed host–pathogen co‐transcriptome analyses using RNA sequencing. Mouse bone marrow‐derived macrophages (BMMs) were challenged over a 24 h time course with two UPEC reference strains that possess contrasting intramacrophage phenotypes: UTI89, which survives in BMMs, and 83972, which is killed by BMMs. Neither of these strains caused significant BMM cell death at the low multiplicity of infection that was used in this study. We developed an effective computational framework that simultaneously separated, annotated and quantified the mammalian and bacterial transcriptomes. Bone marrow‐derived macrophages responded to the two UPEC strains with a broadly similar gene expression programme. In contrast, the transcriptional responses of the UPEC strains diverged markedly from each other. We identified UTI89 genes up‐regulated at 24 h post‐infection, and hypothesized that some may contribute to intramacrophage survival. Indeed, we showed that deletion of one such gene (pspA) significantly reduced UTI89 survival within BMMs. Our study provides a technological framework for simultaneously capturing global changes at the transcriptional level in co‐cultures, and has generated new insights into the mechanisms that UPEC use to persist within the intramacrophage environment.

Published

2015

10. SCIMP is a transmembrane non-TIR TLR adaptor that promotes proinflammatory cytokine production from macrophages

Author

Ronan Kapetanovic, Natalie M. Lansdaal, Matthew J. Sweet, Zhong Guo, Kirill Alexandrov, Jennifer L. Stow, Ian L. Ross, Faustine Marceline, Nilesh J. Bokil, Lin Luo, Belinda J. Burgess, Margaret L. Hibbs, Adam A. Wall, and Samuel J. Tong

Subjects

0301 basic medicine, Science, medicine.medical_treatment, General Physics and Astronomy, Biology, digestive system, Article, General Biochemistry, Genetics and Molecular Biology, Proinflammatory cytokine, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Protein Domains, LYN, parasitic diseases, medicine, Animals, Multidisciplinary, Innate immune system, Interleukin-6, Interleukin-12 Subunit p40, Macrophages, Signal transducing adaptor protein, Tyrosine phosphorylation, General Chemistry, biochemical phenomena, metabolism, and nutrition, Cell biology, Mice, Inbred C57BL, Toll-Like Receptor 4, 030104 developmental biology, Cytokine, src-Family Kinases, chemistry, TLR4, Cytokines, Interleukin 18, 030215 immunology, Protein Binding

Abstract

Danger signals activate Toll-like receptors (TLRs), thereby initiating inflammatory responses. Canonical TLR signalling, via Toll/Interleukin-1 receptor domain (TIR)-containing adaptors and proinflammatory transcription factors such as NF-κB, occurs in many cell types; however, additional mechanisms are required for specificity of inflammatory responses in innate immune cells. Here we show that SCIMP, an immune-restricted, transmembrane adaptor protein (TRAP), promotes selective proinflammatory cytokine responses by direct modulation of TLR4. SCIMP is a non-TIR-containing adaptor, binding directly to the TLR4-TIR domain in response to lipopolysaccharide. In macrophages, SCIMP is constitutively associated with the Lyn tyrosine kinase, is required for tyrosine phosphorylation of TLR4, and facilitates TLR-inducible production of the proinflammatory cytokines IL-6 and IL-12p40. Point mutations in SCIMP abrogating TLR4 binding also prevent SCIMP-mediated cytokine production. SCIMP is, therefore, an immune-specific TLR adaptor that shapes host defence and inflammation., Toll-like receptors engage TIR domain-containing adaptors to control proinflammatory gene expression in response to pathogens and tissue damage. Here the authors show that the non-TIR domain-containing transmembrane protein SCIMP is a previously unrecognized TLR adaptor expressed by macrophages.

Published

2016

11. Co-transcriptomic Analysis by RNA Sequencing to Simultaneously Measure Regulated Gene Expression in Host and Bacterial Pathogen

Author

Timothy, Ravasi, Charalampos Harris, Mavromatis, Nilesh J, Bokil, Mark A, Schembri, and Matthew J, Sweet

Subjects

Mice, Microbial Viability, Bacteria, Gene Expression Regulation, Sequence Analysis, RNA, Gene Expression Profiling, Macrophages, Host-Pathogen Interactions, Animals, Bacterial Infections, Transcriptome, Immunity, Innate, Signal Transduction

Abstract

Intramacrophage pathogens subvert antimicrobial defence pathways using various mechanisms, including the targeting of host TLR-mediated transcriptional responses. Conversely, TLR-inducible host defence mechanisms subject intramacrophage pathogens to stress, thus altering pathogen gene expression programs. Important biological insights can thus be gained through the analysis of gene expression changes in both the host and the pathogen during an infection. Traditionally, research methods have involved the use of qPCR, microarrays and/or RNA sequencing to identify transcriptional changes in either the host or the pathogen. Here we describe the application of RNA sequencing using samples obtained from in vitro infection assays to simultaneously quantify both host and bacterial pathogen gene expression changes, as well as general approaches that can be undertaken to interpret the RNA sequencing data that is generated. These methods can be used to provide insights into host TLR-regulated transcriptional responses to microbial challenge, as well as pathogen subversion mechanisms against such responses.

Published

2016

12. Co-transcriptomic Analysis by RNA Sequencing to Simultaneously Measure Regulated Gene Expression in Host and Bacterial Pathogen

Author

Matthew J. Sweet, Mark A. Schembri, Charalampos Harris Mavromatis, Timothy Ravasi, and Nilesh J. Bokil

Subjects

0301 basic medicine, Regulation of gene expression, Intracellular parasite, RNA, Computational biology, Biology, Microbiology, Gene expression profiling, Transcriptome, 03 medical and health sciences, 030104 developmental biology, Gene expression, DNA microarray, Pathogen

Abstract

Intramacrophage pathogens subvert antimicrobial defence pathways using various mechanisms, including the targeting of host TLR-mediated transcriptional responses. Conversely, TLR-inducible host defence mechanisms subject intramacrophage pathogens to stress, thus altering pathogen gene expression programs. Important biological insights can thus be gained through the analysis of gene expression changes in both the host and the pathogen during an infection. Traditionally, research methods have involved the use of qPCR, microarrays and/or RNA sequencing to identify transcriptional changes in either the host or the pathogen. Here we describe the application of RNA sequencing using samples obtained from in vitro infection assays to simultaneously quantify both host and bacterial pathogen gene expression changes, as well as general approaches that can be undertaken to interpret the RNA sequencing data that is generated. These methods can be used to provide insights into host TLR-regulated transcriptional responses to microbial challenge, as well as pathogen subversion mechanisms against such responses.

Published

2016

13. Using the MCoTI-II cyclotide scaffold to design a stable cyclic peptide antagonist of SET, a protein overexpressed in human cancer

Author

Conana K. Wang, Nilesh J. Bokil, Matthew J. Sweet, Sónia Troeira Henriques, Charlotte D’Souza, Olivier Cheneval, David J. Craik, and Lai Yue Chan

Subjects

0301 basic medicine, cell-penetrating peptides, Tumor suppressor gene, Cell Survival, 060110 Receptors and Membrane Biology, 030403 Characterisation of Biological Macromolecules, 060109 Proteomics and Intermolecular Interactions (excl. Medical Proteomics), Cyclotides, Peptide, Biology, Peptides, Cyclic, 01 natural sciences, Biochemistry, Drug design, anticancer peptide, 03 medical and health sciences, Apolipoproteins E, Cell Line, Tumor, medicine, Humans, Histone Chaperones, intracellular protein-protein interactions, Protein Phosphatase 2, Promoter Regions, Genetic, Cytotoxicity, chemistry.chemical_classification, 010405 organic chemistry, NF-kappa B, cellular uptake, Protein phosphatase 2, Trypsin, Magnetic Resonance Imaging, Cyclic peptide, 3. Good health, 0104 chemical sciences, Cyclotide, DNA-Binding Proteins, 030104 developmental biology, chemistry, 030406 Proteins and Peptides, Cancer cell, Transcription Factors, medicine.drug

Abstract

The SET protein is a promising drug target in cancer therapy, because of its ability to inhibit the function of the tumor suppressor gene protein phosphatase 2A (PP2A). COG peptides, derived from apolipoprotein E (apoE), are potent antagonists of SET; they induce cytotoxicity in cancer cells upon binding to intracellular SET and modulate the nuclear factor kappa B (NF-κB) signaling pathway. However, the therapeutic potential of COG peptides is limited, because of their poor proteolytic stability and low bioavailability. In this study, the COG peptide, COG1410, was stabilized by grafting it onto the ultrastable cyclic peptide scaffold, Momordica cochinchinensis trypsin inhibitor-II (MCoTI-II). The grafted MCoTI-II peptides were cytotoxic to a cancer cell line and showed high stability in human serum. The most potent grafted MCoTI-II peptide inhibited lipopolysaccharide (LPS)-mediated activation of NF-κB in murine macrophages. Overall, this study demonstrates the application of the MCoTI-II scaffold for the development of stable peptide drugs for cancer therapy.

Published

2016

14. Experimental and bioinformatic characterisation of the promoter region of the Marfan syndrome gene, FBN1

Author

Kim M. Summers, Liza J. Raggatt, David A. Hume, Matthew J. Sweet, Malcolm J. West, John M. Baisden, and Nilesh J. Bokil

Subjects

Fibrillin-1, Fluorescent Antibody Technique, Kidney, Marfan Syndrome, Mice, Exon, Genes, Reporter, Sequence Analysis, Protein, Transcription (biology), Gene expression, Luciferases, Promoter Regions, Genetic, Base Pairing, Genes, Dominant, Microfilament Proteins, Exons, Immunohistochemistry, medicine.anatomical_structure, Transcription Initiation Site, Protein Binding, musculoskeletal diseases, congenital, hereditary, and neonatal diseases and abnormalities, Mesenchyme, Molecular Sequence Data, Biology, Fibrillins, Cell Line, Reporter genes, Cell Line, Tumor, Genetics, medicine, Animals, Humans, RNA, Messenger, Gene, Reporter gene, Binding Sites, Osteoblasts, Base Sequence, HEK 293 cells, Promoter regions, Computational Biology, Promoter, Molecular biology, Dominant genetic conditions, CpG Islands

Abstract

Mutations in the FBN1 gene, encoding the extracellular matrix protein fibrillin-1, result in the dominant connective tissue disease Marfan syndrome. Marfan syndrome has a variable phenotype, even within families carrying the same FBN1 mutation. Differences in gene expression resulting from sequence differences in the promoter region of the FBN1 gene are likely to be involved in causing this phenotypic variability. In this report, we present an analysis of FBN1 transcription start site (TSS) use in mouse and human tissues. We found that transcription of FBN1 initiated primarily from a single CpG-rich promoter which was highly conserved in mammals. It contained potential binding sites for a number of factors implicated in mesenchyme differentiation and gene expression. The human osteosarcoma line MG63 had high levels of FBN1 mRNA and secreted fibrillin-1 protein to form extracellular matrix fibres. The human embryonic kidney line HEK293 and two breast cancer lines MCF7 and MDA-MB-231 had levels of FBN1 mRNA 1000 fold lower and produced negligible amounts of fibrillin-1 protein. Therefore MG63 appears to be the optimal cell line for examining tissue-specific, biologically relevant promoter activity for FBN1. In reporter assays, the conserved promoter region was more active in MG63 cells than in non-FBN1-expressing lines but additional elements outside the proximal promoter are probably required for optimal tissue-specific expression. Understanding the regulation of the FBN1 gene may lead to alternative therapeutic strategies for Marfan syndrome.

Published

2009

15. TLR9‐independent effects of inhibitory oligonucleotides on macrophage responses toS. typhimurium

Author

Jasmyn A. Dunn, Damo Xu, Matthew J. Sweet, David A. Hume, Angela Trieu, Tara L. Roberts, Katryn J. Stacey, Foo Y. Liew, and Nilesh J. Bokil

Subjects

Salmonella typhimurium, Immunology, Cell Line, Microbiology, Mice, Animals, Immunology and Allergy, Secretion, Mice, Knockout, Reporter gene, Innate immune system, biology, Oligonucleotide, Macrophage Colony-Stimulating Factor, Macrophages, TLR9, hemic and immune systems, Cell Biology, biology.organism_classification, Mice, Inbred C57BL, TLR2, Oligodeoxyribonucleotides, Salmonella enterica, Cell culture, Toll-Like Receptor 9, Salmonella Infections

Abstract

Detection of bacterial CpG-containing DNA (CpG DNA) by innate immune cells is dependent on toll-like receptor 9 (TLR9). Here we show that the expression of tlr9 mRNA was induced in mouse bone marrow-derived macrophages (BMMs) upon infection with the facultative Gram-negative intracellular bacterium Salmonella enterica serovar Typhimurium (S. typhimurium). Treatment of BMM with the inhibitory oligonucleotide (ODN) 2114, an antagonist of TLR9 signalling, enhanced intracellular S. typhimurium numbers approximately fivefold, whereas a control ODN (2310) had no significant effect. Surprisingly, 2114 also amplified S. typhimurium bacterial loads in TLR9-deficient BMM. Indeed, 2114 suppressed responses (nuclear factor-kappaB-dependent reporter gene expression and interleukin-12p40 secretion) to not only CpG DNA, but also the TLR2 ligand Pam(3)Cys, in BMM and RAW264 cells in a sequence-specific manner. Inhibitory ODNs, which have been proposed as therapeutic agents for the treatment of systemic lupus erythematosus because of their inhibitory effects on TLR9 signalling, may thus compromise the host response to bacterial pathogens through TLR9-independent mechanisms.

Published

2008

16. Analysis of the N-terminal region of human MLKL, as well as two distinct MLKL isoforms, reveals new insights into necroptotic cell death

Author

James M. Murphy, Gregor Gunčar, Katja Hrovat Arnež, Matthew J. Sweet, Nilesh J. Bokil, and Michaela Kindlova

Subjects

0301 basic medicine, Gene isoform, Models, Molecular, Biochemistry & Molecular Biology, Programmed cell death, Cell Survival, Necroptosis, Biophysics, necroptosis, macrophage, Biology, Biochemistry, Isozyme, Gene Expression Regulation, Enzymologic, mixed lineage kinase domain-like, 03 medical and health sciences, Necrosis, Macrophage, Humans, Molecular Biology, Original Paper, Effector, Macrophages, HEK 293 cells, isoform, Cell Biology, Molecular biology, Original Papers, Cell biology, Protein Structure, Tertiary, Isoenzymes, 030104 developmental biology, HEK293 Cells, cell death, Ectopic expression, Protein Kinases, MLKL

Abstract

We show that mixed lineage kinase domain-like (MLKL) isoform 2, which lacks the pseudokinase domain and activation loop phosphorylation sites, is a more potent activator of cell death compared with MLKL isoform 1. Both MLKL isoforms are expressed in human monocyte-derived macrophages., The pseudokinase mixed lineage kinase domain-like (MLKL) is an essential effector of necroptotic cell death. Two distinct human MLKL isoforms have previously been reported, but their capacities to trigger cell death have not been compared directly. Herein, we examine these two MLKL isoforms, and further probe the features of the human MLKL N-terminal domain that are required for cell death. Expression in HEK293T cells of the N-terminal 201 amino acids (aa) of human MLKL is sufficient to cause cell death, whereas expression of the first 154 aa is not. Given that aa 1–125 are able to initiate necroptosis, our findings indicate that the helix that follows this region restrains necroptotic activity, which is again restored in longer constructs. Furthermore, MLKL isoform 2 (MLKL2), which lacks much of the regulatory pseudokinase domain, is a much more potent inducer of cell death than MLKL isoform 1 (MLKL1) in ectopic expression studies in HEK293T cells. Modelling predicts that a C-terminal helix constrains the activity of MLKL1, but not MLKL2. Although both isoforms are expressed by human monocyte-derived macrophages at the mRNA level, MLKL2 is expressed at much lower levels. We propose that it may have a regulatory role in controlling macrophage survival, either in the steady state or in response to specific stimuli.

Published

2015

17. Innate immune perturbations, accumulating DAMPs and inflammasome dysregulation: A ticking time bomb in ageing

Author

Matthew J. Sweet, Nilesh J. Bokil, and Ronan Kapetanovic

Subjects

Aging, Inflammasomes, Antigen presentation, Inflammation, Biology, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Immune system, medicine, Animals, Humans, Secretion, Molecular Biology, 030304 developmental biology, 0303 health sciences, Innate immune system, Autophagy, Pattern recognition receptor, Inflammasome, Immunity, Innate, Cell biology, Neurology, Receptors, Pattern Recognition, Immunology, medicine.symptom, 030215 immunology, Biotechnology, medicine.drug

Abstract

Ageing has pronounced effects on the immune system, including on innate immune cells. Whilst most studies suggest that total numbers of different innate immune cell populations do not change dramatically during ageing, many of their functions such as phagocytosis, antigen presentation and inflammatory molecule secretion decline. In contrast, many endogenous damage-associated molecular patterns (DAMPs) accumulate during ageing. These include reactive oxygen species (ROS) released from damaged mitochondria, extracellular nucleotides like ATP, high mobility group box (HMGB) 1 protein, oxidized low density lipoprotein, amyloid-beta (Aβ), islet amyloid polypeptide and particulates like monosodium urate (MSU) crystals and cholesterol crystals. Some of these DAMPs trigger the activation of inflammasomes, cytosolic danger sensing signalling platforms that drive both the maturation of specific pro-inflammatory mediators such as IL-1β, as well as the initiation of pro-inflammatory pyroptotic cell death. Herein, we review the evidence that dysregulated inflammasome activation, via altered innate immune cell functions and elevated levels of DAMPs, contributes to the establishment of chronic, low-grade inflammation (characterized by elevated levels of IL-6 and C-reactive protein) and the development of age-related pathological processes.

Published

2014

18. Senescent human hepatocytes express a unique secretory phenotype and promote macrophage migration

Author

Michelle M. Hill, Gethin P. Thomas, Katharine M. Irvine, Nilesh J. Bokil, Elizabeth E. Powell, Andrew D. Clouston, Richard Skoien, Dorothy Loo, Michelle Melino, Matthew J. Sweet, and Brian Gabrielli

Subjects

Senescence, Chemokine, Gene expression, Paracrine Communication, medicine, Humans, Cellular Senescence, Regulation of gene expression, Gastroenterology & Hepatology, biology, Dose-Response Relationship, Drug, Chemotaxis, Macrophages, fungi, Gastroenterology, General Medicine, Cell Cycle Checkpoints, Hep G2 Cells, Hydrogen Peroxide, Molecular biology, Coculture Techniques, Cell biology, Oxidative Stress, Secretory protein, medicine.anatomical_structure, Phenotype, Gene Expression Regulation, Cell Aging, Cell culture, Hepatocyte, Culture Media, Conditioned, biology.protein, Hepatocytes, Cytokines, Biological Markers, Original Article, Inflammation Mediators, Transcriptome, Cell aging, Biomarkers

Abstract

© 2014 Baishideng Publishing Group Inc. All rights reserved. AIM: To develop a model of stress-induced senescence to study the hepatocyte senescence associated secretory phenotype (SASP). METHODS: Hydrogen peroxide treatment was used to induce senescence in the human HepG2 hepatocyte cell line. Senescence was confirmed by cytochemical staining for a panel of markers including Ki67, p21, heterochromatin protein 1β, and senescence-associated-β-galactosidase activity. Senescent hepatocytes were characterised by gene expression arrays and quantitative polymerase chain reaction (qPCR), and conditioned media was used in proteomic analyses, a human chemokine protein array, and cell migration assays to characterise the composition and function of the hepatocyte SASP. RESULTS: Senescent hepatocytes induced classical markers of senescence (p21, heterochromatin protein 1β, and senescence-associated- β-galactosidase activity); and downregulated the proliferation marker, Ki67. Hepatocyte senescence induced a 4.6-fold increase in total secreted protein (P = 0.06) without major alterations in the protein profile. Senescence-induced genes were identified by microarray (Benjamini Hochbergcorrected P < 0.05);, consistent with the increase in secreted protein, gene ontology analysis revealed a significant enrichment of secreted proteins among inducible genes. The hepatocyte SASP included characteristic factors such as interleukin (IL)-8 and IL-6, as well as novel components such as SAA4, IL-32 and Fibrinogen, which were validated by qPCR and/ or chemokine protein array. Senescent hepatocyteconditioned medium elicited migration of inflammatory (granulocyte-macrophage colony stimulating factor, GM-CSF-derived), but not non-inflammatory (CSF-1-derived) human macrophages (P = 0.022), which could contribute to a pro-inflammatory microenvironment in vivo , or facilitate the clearance of senescent cells. CONCLUSION: Our novel model of hepatocyte senescence provides insights into mechanisms by which senescent hepatocytes may promote chronic liver disease pathogenesis.

Published

2014

19. Metal ions in macrophage antimicrobial pathways: emerging roles for zinc and copper

Author

Maud E. S. Achard, Sian L. Stafford, Alastair G. McEwan, Ronan Kapetanovic, Nilesh J. Bokil, Matthew J. Sweet, and Mark A. Schembri

Subjects

PDE, phosphodiesterase, lcsh:Life, lcsh:QR1-502, Review Article, Nrf2, nuclear factor-erythroid 2-related factor 2, TNF, tumour necrosis factor, Biochemistry, lcsh:Microbiology, 0302 clinical medicine, DC, dendritic cells, Macrophage, Cation Transport Proteins, innate immunity, IKKβ, IκB (inhibitor of nuclear factor κB) kinase β, 0303 health sciences, Toll-like receptor, Bacterial Infections, Antimicrobial, 3. Good health, MMP, matrix metalloproteinase, Zinc, CTR, copper transporter, monocyte, copper transporter (CTR), LPS, lipopolysaccharide, NF-κB, nuclear factor κB, FPN1, ferroportin 1, TLR, Toll-like receptor, GPI, glycosylphosphatidylinositol, Biochemistry & Molecular Biology, host defence, zinc transporter, Biophysics, IFNγ, interferon γ, chemistry.chemical_element, Biology, S3, 03 medical and health sciences, ROS, reactive oxygen species, Immune system, Immunity, SOD, superoxide dismutase, Animals, Humans, Molecular Biology, 030304 developmental biology, TRIF, TIR (Toll/interleukin-1 receptor) domain-containing adaptor protein inducing interferon β, Innate immune system, Macrophages, Transporter, Biological Transport, Cell Biology, MT, metallothionein, Immunity, Innate, IL, interleukin, lcsh:QH501-531, chemistry, Gene Expression Regulation, CP, ceruloplasmin, Dietary Supplements, MAPK, mitogen-activated protein kinase, 030217 neurology & neurosurgery, Copper

Abstract

The immunomodulatory and antimicrobial properties of zinc and copper have long been appreciated. In addition, these metal ions are also essential for microbial growth and survival. This presents opportunities for the host to either harness their antimicrobial properties or limit their availability as defence strategies. Recent studies have shed some light on mechanisms by which copper and zinc regulation contribute to host defence, but there remain many unanswered questions at the cellular and molecular levels. Here we review the roles of these two metal ions in providing protection against infectious diseases in vivo, and in regulating innate immune responses. In particular, we focus on studies implicating zinc and copper in macrophage antimicrobial pathways, as well as the specific host genes encoding zinc transporters (SLC30A, SLC39A family members) and CTRs (copper transporters, ATP7 family members) that may contribute to pathogen control by these cells. © 2013 The Author(s).

Published

2013

20. Copper redistribution in murine macrophages in response to Salmonella infection

Author

Paul V. Bernhardt, Sian L. Stafford, Matthew J. Sweet, Mark A. Schembri, Jy D. Chartres, Alastair G. McEwan, Nilesh J. Bokil, and Maud E. S. Achard

Subjects

Boron Compounds, Lipopolysaccharides, Male, Salmonella typhimurium, Biochemistry & Molecular Biology, Lipopolysaccharide, Cations, Divalent, ATP7A, chemistry.chemical_element, Vacuole, Biology, Sulfides, Biochemistry, Microbiology, Copper-transporting ATPases, chemistry.chemical_compound, Mice, Metalloproteins, Animals, Homeostasis, Molecular Biology, Cation Transport Proteins, Copper Transporter 1, Fluorescent Dyes, Adenosine Triphosphatases, Intracellular parasite, Macrophages, Ceruloplasmin, Cell Biology, biology.organism_classification, Copper, Mice, Inbred C57BL, chemistry, Salmonella enterica, Copper-Transporting ATPases, Salmonella Infections, biology.protein, Intracellular

Abstract

The movement of key transition metal ions is recognized to be of critical importance in the interaction between macrophages and intracellular pathogens. The present study investigated the role of copper in mouse macrophage responses to Salmonella enterica sv. Typhimurium. The copper chelator BCS (bathocuproinedisulfonic acid, disodium salt) increased intracellular survival of S. Typhimurium within primary mouse BMM (bone-marrow-derived macrophages) at 24 h post-infection, implying that copper contributed to effective host defence against this pathogen. Infection of BMM with S. Typhimurium or treatment with the TLR (Toll-like receptor) 4 ligand LPS (lipopolysaccharide) induced the expression of several genes encoding proteins involved in copper transport [Ctr (copper transporter) 1, Ctr2 and Atp7a (copper-transportingATPase 1)], as well as the multi-copper oxidase Cp (caeruloplasmin). Both LPS and infectionwith S. Typhimurium triggered copper accumulation within punctate intracellular vesicles (copper 'hot spots') in BMM as indicated by the fluorescent reporter CS1 (copper sensor 1). These copper hot spots peaked in their accumulation at approximately 18 h post-stimulation and were dependent on copper uptake into cells. Localization studies indicated that the copper hot spotswere in discrete vesicles distinct from Salmonella containing vacuoles and lysosomes. We propose that copper hot spot formation contributes to antimicrobial responses against professional intracellular bacterial pathogens. © The Authors Journal compilation © 2012 Biochemical Society.

Published

2012

21. Intramacrophage survival of uropathogenic Escherichia coli: differences between diverse clinical isolates and between mouse and human macrophages

Author

Matthew J. Sweet, Mark A. Schembri, Alison J. Carey, Makrina Totsika, Katryn J. Stacey, Timothy Ravasi, Glen C. Ulett, Nilesh J. Bokil, Viktoria Hancock, and Bernadette M. Saunders

Subjects

Virulence Factors, Immunology, Urinary Bladder, Biology, urologic and male genital diseases, medicine.disease_cause, Host Specificity, Microbiology, Mice, Species Specificity, Immunity, Cystitis, medicine, Immunology and Allergy, Macrophage, Animals, Humans, Uropathogenic Escherichia coli, Escherichia coli, Pathogen, Escherichia coli Infections, Toll-like receptor, LAMP1, Virulence, Intracellular parasite, Macrophages, Epithelial Cells, Hematology, bacterial infections and mycoses, female genital diseases and pregnancy complications, Immunity, Innate, Mice, Inbred C57BL, Urinary Tract Infections, Female, Urothelium, Intracellular

Abstract

Uropathogenic E. coli (UPEC) are the primary cause of urinary tract infections. Recent studies have demonstrated that UPEC can invade and replicate within epithelial cells, suggesting that this bacterial pathogen may occupy an intracellular niche within the host. Given that many intracellular pathogens target macrophages, we assessed the interactions between UPEC and macrophages. Colonization of the mouse bladder by UPEC strain CFT073 resulted in increased expression of myeloid-restricted genes, consistent with the recruitment of inflammatory macrophages to the site of infection. In in vitro assays, CFT073 was able to survive within primary mouse bone marrow-derived macrophages (BMM) up to 24h post-infection. Three additional well-characterized clinical UPEC isolates associated with distinct UTI symptomatologies displayed variable long-term survival within BMM. UPEC strains UTI89 and VR50, originally isolated from patients with cystitis and asymptomatic bacteriuria respectively, showed elevated bacterial loads in BMM at 24h post-infection as compared to CFT073 and the asymptomatic bacteriuria strain 83972. These differences did not correlate with differential effects on macrophage survival or initial uptake of bacteria. E. coli UTI89 localized to a Lamp1 + vesicular compartment within BMM. In contrast to survival within mouse BMM, intracellular bacterial loads of VR50 were low in both human monocyte-derived macrophages (HMDM) and in human T24 bladder epithelial cells. Collectively, these data suggest that some UPEC isolates may subvert macrophage anti-microbial pathways, and that host species differences may impact on intracellular UPEC survival. © 2011 Elsevier GmbH.

Published

2011

22. Mutations at KCNQ1 and an unknown locus cause long QT syndrome in a large Australian family: implications for genetic testing

Author

Kim M. Summers, Jiun T. Low, John M. Baisden, Nilesh J. Bokil, David L. Duffy, Dorothy J. Radford, and Foong Teng Lu

Subjects

Adult, Male, congenital, hereditary, and neonatal diseases and abnormalities, Adolescent, Genetic Linkage, Genetic counseling, DNA Mutational Analysis, Mutation, Missense, Locus (genetics), Genome-wide association study, Biology, Young Adult, Genetic linkage, Genetics, medicine, Humans, Allele, Child, Genetics (clinical), Genetic testing, Aged, Aged, 80 and over, medicine.diagnostic_test, Haplotype, Australia, Infant, Middle Aged, Pedigree, Long QT Syndrome, Amino Acid Substitution, Haplotypes, Child, Preschool, KCNQ1 Potassium Channel, Mutation, Female, Chromosome 21, Genome-Wide Association Study, Microsatellite Repeats

Abstract

A large Australian family affected with long QT syndrome (LQTS) was studied. The medical characteristics of the 16 clinically affected members were consistent with LQT1. A previously identified mutation in KCNQ1 was found in 12 affected individuals and 1 unaffected infant but absent in 4 affected family members. A haplotype consisting of specific alleles for microsatellites flanking in KCNQ1 was associated with the mutation. This was absent from the four affected individuals without the mutation, who had three different haplotypes in this region, indicating that LQTS is unlikely to be segregating with KCNQ1 in these anomalous family members. A genome scan revealed 12 regions where all four of these individuals shared alleles. One region on chromosome 21 contained the KCNE1, KCNE2, KCNJ6, and KCNJ15 genes. A common variant of KCNE1 was segregating in the family but did not explain the anomalous cases. A candidate region on chromosome 7 contained the AKAP9 and KCND2 genes. A previously reported mutation in the N-terminal Yotiao region of AKAP9 was absent from the family. No evidence was found implicating any other known or suspected LQTS gene. This family shows that there remain unidentified genetic causes of LQTS which are clinically significant and highlights the difficulties associated with genetic testing in LQTS, since we cannot rule out risk in individuals who are negative for the known mutation in KCNQ1 without knowing the second disease locus. (C) 2010 Wiley-Liss, Inc.

Published

2010

23. High sensitivity and specificity of a 5‐analyte protein and microRNA biosignature for identification of active tuberculosis

Author

Jessica L Pedersen, Simone E Barry, Nilesh J Bokil, Magda Ellis, YuRong Yang, Guangyu Guan, Xiaolin Wang, Alen Faiz, Warwick J Britton, and Bernadette M Saunders

Subjects

diagnosis, microRNA, plasma biomarkers, proteins, tuberculosis, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Objectives Non‐sputum‐based tests to accurately identify active tuberculosis (TB) disease and monitor response to therapy are urgently needed. This study examined the biomarker capacity of a panel of plasma proteins alone, and in conjunction with a previously identified miRNA signature, to identify active TB disease. Methods The expression of nine proteins (IP‐10, MCP‐1, sTNFR1, RANTES, VEGF, IL‐6, IL‐10, TNF and Eotaxin) was measured in the plasma of 100 control subjects and 100 TB patients, at diagnosis (treatment naïve) and over the course of treatment (1‐, 2‐ and 6‐month intervals). The diagnostic performance of the nine proteins alone, and with the miRNA, was assessed. Results Six proteins were significantly up‐regulated in the plasma of TB patients at diagnosis compared to controls. Receiver operator characteristic curve analysis demonstrated that IP‐10 with an AUC = 0.874, sensitivity of 75% and specificity of 87% was the best single biomarker candidate to distinguish TB patients from controls. IP‐10 and IL‐6 levels fell significantly within one month of commencing treatment and may have potential as indicators of a positive response to therapy. The combined protein and miRNA panel gave an AUC of 1.00. A smaller panel of only five analytes (IP‐10, miR‐29a, miR‐146a, miR‐99b and miR‐221) showed an AUC = 0.995, sensitivity of 96% and specificity of 97%. Conclusions A novel combination of miRNA and proteins significantly improves the sensitivity and specificity as a biosignature over single biomarker candidates and may be useful for the development of a non‐sputum test to aid the diagnosis of active TB disease.

Published

2021