Your search keyword '"Elaine M Bignell"' showing total 13 results

1. Correction: The pH-Responsive PacC Transcription Factor of Aspergillus fumigatus Governs Epithelial Entry and Tissue Invasion during Pulmonary Aspergillosis.

Author

Margherita Bertuzzi, Markus Schrettl, Laura Alcazar-Fuoli, Timothy C Cairns, Alberto Muñoz, Louise A Walker, Susanne Herbst, Maryam Safari, Angela M Cheverton, Dan Chen, Hong Liu, Shinobu Saijo, Natalie D Fedorova, Darius Armstrong-James, Carol A Munro, Nick D Read, Scott G Filler, Eduardo A Espeso, William C Nierman, Hubertus Haas, and Elaine M Bignell

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2015

2. Different Stress-Induced Calcium Signatures Are Reported by Aequorin-Mediated Calcium Measurements in Living Cells of Aspergillus fumigatus.

Author

Alberto Muñoz, Margherita Bertuzzi, Jan Bettgenhaeuser, Nino Iakobachvili, Elaine M Bignell, and Nick D Read

Subjects

Medicine, Science

Abstract

Aspergillus fumigatus is an inhaled fungal pathogen of human lungs, the developmental growth of which is reliant upon Ca2+-mediated signalling. Ca2+ signalling has regulatory significance in all eukaryotic cells but how A. fumigatus uses intracellular Ca2+ signals to respond to stresses imposed by the mammalian lung is poorly understood. In this work, A. fumigatus strains derived from the clinical isolate CEA10, and a non-homologous recombination mutant ΔakuBKU80, were engineered to express the bioluminescent Ca2+-reporter aequorin. An aequorin-mediated method for routine Ca2+ measurements during the early stages of colony initiation was successfully developed and dynamic changes in cytosolic free calcium ([Ca2+]c) in response to extracellular stimuli were measured. The response to extracellular challenges (hypo- and hyper-osmotic shock, mechanical perturbation, high extracellular Ca2+, oxidative stress or exposure to human serum) that the fungus might be exposed to during infection, were analysed in living conidial germlings. The 'signatures' of the transient [Ca2+]c responses to extracellular stimuli were found to be dose- and age-dependent. Moreover, Ca2+-signatures associated with each physico-chemical treatment were found to be unique, suggesting the involvement of heterogeneous combinations of Ca2+-signalling components in each stress response. Concordant with the involvement of Ca2+-calmodulin complexes in these Ca2+-mediated responses, the calmodulin inhibitor trifluoperazine (TFP) induced changes in the Ca2+-signatures to all the challenges. The Ca2+-chelator BAPTA potently inhibited the initial responses to most stressors in accordance with a critical role for extracellular Ca2+ in initiating the stress responses.

Published

2015

3. The pH-responsive PacC transcription factor of Aspergillus fumigatus governs epithelial entry and tissue invasion during pulmonary aspergillosis.

Author

Margherita Bertuzzi, Markus Schrettl, Laura Alcazar-Fuoli, Timothy C Cairns, Alberto Muñoz, Louise A Walker, Susanne Herbst, Maryam Safari, Angela M Cheverton, Dan Chen, Hong Liu, Shinobu Saijo, Natalie D Fedorova, Darius Armstrong-James, Carol A Munro, Nick D Read, Scott G Filler, Eduardo A Espeso, William C Nierman, Hubertus Haas, and Elaine M Bignell

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Destruction of the pulmonary epithelium is a major feature of lung diseases caused by the mould pathogen Aspergillus fumigatus. Although it is widely postulated that tissue invasion is governed by fungal proteases, A. fumigatus mutants lacking individual or multiple enzymes remain fully invasive, suggesting a concomitant requirement for other pathogenic activities during host invasion. In this study we discovered, and exploited, a novel, tissue non-invasive, phenotype in A. fumigatus mutants lacking the pH-responsive transcription factor PacC. Our study revealed a novel mode of epithelial entry, occurring in a cell wall-dependent manner prior to protease production, and via the Dectin-1 β-glucan receptor. ΔpacC mutants are defective in both contact-mediated epithelial entry and protease expression, and significantly attenuated for pathogenicity in leukopenic mice. We combined murine infection modelling, in vivo transcriptomics, and in vitro infections of human alveolar epithelia, to delineate two major, and sequentially acting, PacC-dependent processes impacting epithelial integrity in vitro and tissue invasion in the whole animal. We demonstrate that A. fumigatus spores and germlings are internalised by epithelial cells in a contact-, actin-, cell wall- and Dectin-1 dependent manner and ΔpacC mutants, which aberrantly remodel the cell wall during germinative growth, are unable to gain entry into epithelial cells, both in vitro and in vivo. We further show that PacC acts as a global transcriptional regulator of secreted molecules during growth in the leukopenic mammalian lung, and profile the full cohort of secreted gene products expressed during invasive infection. Our study reveals a combinatorial mode of tissue entry dependent upon sequential, and mechanistically distinct, perturbations of the pulmonary epithelium and demonstrates, for the first time a protective role for Dectin-1 blockade in epithelial defences. Infecting ΔpacC mutants are hypersensitive to cell wall-active antifungal agents highlighting the value of PacC signalling as a target for antifungal therapy.

Published

2014

4. Clonality despite sex: the evolution of host-associated sexual neighborhoods in the pathogenic fungus Penicillium marneffei.

Author

Daniel A Henk, Revital Shahar-Golan, Khuraijam Ranjana Devi, Kylie J Boyce, Nengyong Zhan, Natalie D Fedorova, William C Nierman, Po-Ren Hsueh, Kwok-Yung Yuen, Tran P M Sieu, Nguyen Van Kinh, Heiman Wertheim, Stephen G Baker, Jeremy N Day, Nongnuch Vanittanakom, Elaine M Bignell, Alex Andrianopoulos, and Matthew C Fisher

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Molecular genetic approaches typically detect recombination in microbes regardless of assumed asexuality. However, genetic data have shown the AIDS-associated pathogen Penicillium marneffei to have extensive spatial genetic structure at local and regional scales, and although there has been some genetic evidence that a sexual cycle is possible, this haploid fungus is thought to be genetically, as well as morphologically, asexual in nature because of its highly clonal population structure. Here we use comparative genomics, experimental mixed-genotype infections, and population genetic data to elucidate the role of recombination in natural populations of P. marneffei. Genome wide comparisons reveal that all the genes required for meiosis are present in P. marneffei, mating type genes are arranged in a similar manner to that found in other heterothallic fungi, and there is evidence of a putatively meiosis-specific mutational process. Experiments suggest that recombination between isolates of compatible mating types may occur during mammal infection. Population genetic data from 34 isolates from bamboo rats in India, Thailand and Vietnam, and 273 isolates from humans in China, India, Thailand, and Vietnam show that recombination is most likely to occur across spatially and genetically limited distances in natural populations resulting in highly clonal population structure yet sexually reproducing populations. Predicted distributions of three different spatial genetic clusters within P. marneffei overlap with three different bamboo rat host distributions suggesting that recombination within hosts may act to maintain population barriers within P. marneffei.

Published

2012

5. Epithelial uptake leads to fungal killing in vivo and is aberrant in COPD-derived epithelial cells

Author

Margherita Bertuzzi, Gareth J. Howell, Darren D. Thomson, Rachael Fortune-Grant, Anna Möslinger, Patrick Dancer, Norman Van Rhijn, Natasha Motsi, Alice Codling, and Elaine M. Bignell

Subjects

Respiratory medicine, Mycology, Cell biology, Science

Abstract

Summary: Hundreds of spores of Aspergillus fumigatus (Af) are inhaled daily by human beings, representing a constant, possibly fatal, threat to respiratory health. The small size of Af spores suggests that interactions with alveolar epithelial cells (AECs) are frequent; thus, we hypothesized that spore uptake by AECs is important for driving fungal killing and susceptibility to Aspergillus-related disease. Using single-cell approaches to measure spore uptake and its outcomes in vivo, we demonstrate that Af spores are internalized and killed by AECs during whole-animal infection. Moreover, comparative analysis of primary human AECs from healthy and chronic obstructive pulmonary disease (COPD) donors revealed significant alterations in the uptake and killing of spores in COPD-derived AECs. We conclude that AECs contribute to the killing of Af spores and that dysregulation of curative AEC responses in COPD may represent a driver of Aspergillus-related diseases.

Published

2024

6. Heightened efficacy of anidulafungin when used in combination with manogepix or 5-flucytosine againstCandida auris in vitro

Author

Larissa L.H. John, Darren D. Thomson, Tihana Bicanic, Martin Hoenigl, Alistair J.P. Brown, Thomas S. Harrison, and Elaine M. Bignell

Subjects

Pharmacology, Infectious Diseases, Pharmacology (medical)

Abstract

Candida aurisis an emerging, multi-drug resistant fungal pathogen that causes refractory colonisation and life-threatening invasive nosocomial infections. The high proportion ofC. aurisisolates that display antifungal resistance severely limits treatment options. Combination therapies provide a possible strategy to enhance antifungal efficacy and prevent the emergence of further resistance. Therefore, we examined drug combinations using antifungals that are already in clinical use or undergoing clinical trials. Using checkerboard assays we screened combinations of 5-flucytosine and manogepix (the active form of the novel antifungal drug fosmanogepix) with anidulafungin, amphotericin B or voriconazole against drug resistant and susceptibleC. aurisisolates from clades I and III. Fractional inhibitory concentration indices (FICI values) of 0.28-0.75 and 0.36-1.02 were observed for combinations of anidulafungin with manogepix or 5-flucytosine, respectively, indicating synergistic activity. The high potency of these anidulafungin combinations was confirmed using live-cell microfluidics-assisted imaging of fungal growth. In summary, combinations of anidulafungin with manogepix or 5-flucytosine show great potential against both resistant and susceptibleC. aurisisolates.

Published

2022

7. Caenorhabditis elegans-Aspergillus fumigatus (Nematode-mould) Model for Study of Fungal Pathogenesis

Author

Ikechukwu Okoli and Elaine M. Bignell

Subjects

biology, Cryptococcus, General Medicine, medicine.disease_cause, biology.organism_classification, Microbiology, Aspergillus fumigatus, Spore, chemistry.chemical_compound, Pathosystem, Nematode, chemistry, Brain heart infusion, medicine, Escherichia coli, Caenorhabditis elegans

Abstract

Aims : Caenorhabditis elegans nema tode pathosystem has been used to study both bacterial and fungal pathogenesis. Apart from Candida and Cryptococcus , studies using this model for other fungal infections especially filamentous fungi however, are still lacking. This work aimed at developing a C. elegans - Aspergillus fumigatus (nematode - mould) killing assay model. Study Design : Infection model of Caenorhabditis elegans with Aspergillus fumigatus . Place and Duration of Study: Centre for Molecular Microbiology and Infection, Imperial College Lo ndon, London SW7 2AZ, United kingdom , between October 2011 and April 2012. Methodology: Double mutant glp - 4;sek - 1 strain of C. elegans worms were propagated and maintained on nematode growth medium (NGM) with Escherichia coli non - pathogenic strain HB101 us ed as food prior to a fungal killing assay. L4 stage of the worms were infected with spores of A. fumigatus wild - type strain AF293, and incubated in 30% brain heart infusion (BHI) in M9 buffer at room temperature for 72 h. The survival of the worms was stu died within this period. Results: The scenario presented after killing of the worms by A. fumigatus appears to be the same

Published

2015

8. Mechanistic Basis of pH-Dependent 5-Flucytosine Resistance in Aspergillus fumigatus

Author

Fabio, Gsaller, Takanori, Furukawa, Paul D, Carr, Bharat, Rash, Christoph, Jöchl, Margherita, Bertuzzi, Elaine M, Bignell, and Michael J, Bromley

Subjects

Fungal Proteins, Antifungal Agents, Drug Resistance, Fungal, Mechanisms of Resistance, Aspergillus fumigatus, Flucytosine, Microbial Sensitivity Tests, Hydrogen-Ion Concentration, Transcription Factors

Abstract

The antifungal drug 5-flucytosine (5FC), a derivative of the nucleobase cytosine, is licensed for the treatment of fungal diseases; however, it is rarely used as a monotherapeutic to treat Aspergillus infection. Despite being potent against other fungal pathogens, 5FC has limited activity against Aspergillus fumigatus when standard in vitro assays are used to determine susceptibility. However, in modified in vitro assays where the pH is set to pH 5, the activity of 5FC increases significantly. Here we provide evidence that fcyB, a gene that encodes a purine-cytosine permease orthologous to known 5FC importers, is downregulated at pH 7 and is the primary factor responsible for the low efficacy of 5FC at pH 7. We also uncover two transcriptional regulators that are responsible for the repression of fcyB and, consequently, mediators of 5FC resistance, the CCAAT binding complex (CBC) and the pH regulatory protein PacC. We propose that the activity of 5FC might be enhanced by the perturbation of factors that repress fcyB expression, such as PacC or other components of the pH-sensing machinery.

Published

2017

9. Conservation in Aspergillus fumigatus of pH-signaling seven transmembrane domain and arrestin proteins, and implications for drug discovery

Author

Elaine M, Bignell

Subjects

Antifungal Agents, Sequence Homology, Amino Acid, Arrestins, Aspergillus fumigatus, Drug Discovery, Molecular Sequence Data, Membrane Proteins, Amino Acid Sequence, Hydrogen-Ion Concentration, Signal Transduction

Abstract

Adaptation to extracellular pH is a major challenge to fungal pathogens that infect mammalian hosts. Among pH responses mounted by diverse fungal pathogens there is a high degree of molecular conservation. This, coupled with the absence of such signaling pathways in mammalian cells, suggests that this crucial fungal survival mechanism might provide a useful means of limiting a broad spectrum of infectious fungal growth. PacC/Rim signaling converts extracellular cues, perceived by the fungal cell at extremes of ambient pH, into a cellular signal moderating the activation and/or derepression of multiple pH-sensitive gene functions including enzymes, permeases, and transporters. Signal transduction via the fungal PacC/Rim pathway involves a seven transmembrane domain (7TMD) receptor-arrestin protein complex. This review will discuss, with particular attention to Aspergillus fumigatus (the major mold pathogen of humans), the conservation of PacC/Rim signal reception proteins, and protein domains, required for tolerance of pH change, and pathogenicity, and the significance of such molecules as targets for interventive therapies.

Published

2012

10. Oligopeptide transport and regulation of extracellular proteolysis are required for growth of Aspergillus fumigatus on complex substrates but not for virulence

Author

Thomas, Hartmann, Timothy C, Cairns, Patrick, Olbermann, Joachim, Morschhäuser, Elaine M, Bignell, and Sven, Krappmann

Subjects

Virulence, Nitrogen, Aspergillus fumigatus, Gene Expression Profiling, Gene Expression Regulation, Bacterial, Gene Expression Regulation, Enzymologic, Culture Media, Disease Models, Animal, Mice, Protein Transport, Proteolysis, Animals, Aspergillosis, Oligopeptides, Gene Deletion, Peptide Hydrolases

Abstract

Moulds are characterized by their saprophytic lifestyle that is based on osmotrophy. Among them, Aspergillus fumigatus has emerged as the leading cause of fungal infections in the presence of an underlying immunodeficiency. To assess the role of its nutritional versatility for virulence, transcriptional profiling studies in the presence of varying sources of nitrogen were carried out and revealed an extensive reprogramming of the fungal transcriptome when shifting to a proteinaceous growth substrate. Transcripts encoding metabolic activities were predominantly upregulated, as were proteinases and transport activities. To probe whether fundamental aspects of its osmotrophic lifestyle, that is, extracellular proteolysis and uptake of oligopeptides, are required for A. fumigatus pathogenicity, serial gene replacements were carried out, which eventually yielded an octuple deletion mutant ablated for the opt gene family. This strain displayed no growth defect on various substrates, but supplementary reduction of extracellular proteolytic activity by additional deletion of the prtT gene revealed a synthetic phenotype on porcine lung tissue agar. Virulence studies in a murine model of pulmonary aspergillosis did not disclose any attenuation in virulence of these deletants. Our data emphasize a high degree of redundancy encoded by the A. fumigatus genome that secures nutrient supply for growth and, therefore, virulence.

Published

2011

11. The Aspergillus fumigatus transcriptional activator CpcA contributes significantly to the virulence of this fungal pathogen

Author

Sven, Krappmann, Elaine M, Bignell, Utz, Reichard, Tom, Rogers, Ken, Haynes, and Gerhard H, Braus

Subjects

Male, Aspergillus fumigatus, Molecular Sequence Data, Gene Expression Regulation, Bacterial, Fungal Proteins, Survival Rate, Mice, Open Reading Frames, Basic-Leucine Zipper Transcription Factors, Animals, Humans, Amino Acid Sequence, Sequence Alignment, Transcription Factors

Abstract

We have cloned and characterized the Aspergillus fumigatus cpcA gene encoding the transcriptional activator of the cross-pathway control system of amino acid biosynthesis. cpcA encodes a functional orthologue of Saccharomyces cerevisiae Gcn4p. The coding sequence of the 2.2 kb transcript is preceded by two short upstream open reading frames, the larger one being well conserved among Aspergilli. Deletion strains in which either the coding sequence or the entire locus are replaced by a bifunctional dominant marker are impaired in their cross-pathway control response upon amino acid starvation, as demonstrated by analyses of selected reporter genes and specific enzymatic activities. In a murine model of pulmonary aspergillosis, cpcAdelta strains display attenuated virulence. Pathogenicity is restored to wild-type levels in strains with reconstitution of the genomic locus. Competitive mixed infection experiments additionally demonstrate that cpcAdelta strains are less able to survive in vivo than their wild-type progenitor. Our data suggest that specific stress conditions are encountered by A. fumigatus within the mammalian host and that the fungal cross-pathway control system plays a significant role in pulmonary aspergillosis.

Published

2004

12. Pathogenic Yeasts

Author

Ruth Ashbee, Elaine M. Bignell, Ruth Ashbee, and Elaine M. Bignell

Subjects

Mycoses, Medical mycology, Yeast fungi, Pathogenic fungi

Abstract

Mycological studies of yeasts are entering a new phase, with the sequencing of multiple fungal genomes informing our understanding of their ability to cause disease and interact with the host. At the same time, the ongoing use of traditional methods in many clinical mycology laboratories continues to provide information for the diagnosis and treatment of patients. This volume reviews various aspects of pathogenic yeasts and what is known about their molecular and cellular biology and virulence, in addition to looking at clinical and laboratory findings. As each chapter is written by a leading expert in the field, this book summarizes in one volume much of the latest research on several pathogenic yeasts, including Candida, Cryptococcus, Malassezia and yeasts of emerging importance. The importance of laboratory diagnosis, antifungal susceptibility testing, antifungal resistance and yeast diseases in animals are reviewed.

Published

2009

13. Anti-Aspergillus Activities of the Respiratory Epithelium in Health and Disease

Author

Margherita Bertuzzi, Gemma E. Hayes, Uju J. Icheoku, Norman van Rhijn, David W. Denning, Nir Osherov, and Elaine M. Bignell

Subjects

Aspergillus fumigatus, respiratory epithelium, airway epithelial cells (AECs), spore uptake, epithelial responses, morphotypes, fungal pathogenesis, internalization, Biology (General), QH301-705.5

Abstract

Respiratory epithelia fulfil multiple roles beyond that of gaseous exchange, also acting as primary custodians of lung sterility and inflammatory homeostasis. Inhaled fungal spores pose a continual antigenic, and potentially pathogenic, challenge to lung integrity against which the human respiratory mucosa has developed various tolerance and defence strategies. However, respiratory disease and immune dysfunction frequently render the human lung susceptible to fungal diseases, the most common of which are the aspergilloses, a group of syndromes caused by inhaled spores of Aspergillus fumigatus. Inhaled Aspergillus spores enter into a multiplicity of interactions with respiratory epithelia, the mechanistic bases of which are only just becoming recognized as important drivers of disease, as well as possible therapeutic targets. In this mini-review we examine current understanding of Aspergillus-epithelial interactions and, based upon the very latest developments in the field, we explore two apparently opposing schools of thought which view epithelial uptake of Aspergillus spores as either a curative or disease-exacerbating event.

Published

2018