Your search keyword '"Infectious Diseases/Fungal Infections"' showing total 107 results

1. Host iron withholding demands siderophore utilization for Candida glabrata to survive macrophage killing

Author

Tracy Nevitt and Dennis J. Thiele

Subjects

lcsh:Immunologic diseases. Allergy, Siderophore, Virulence Factors, Iron, Molecular Sequence Data, Immunology, Siderophores, Virulence, Candida glabrata, Microbiology/Innate Immunity, Human pathogen, Biology, Microbiology, Fungal Proteins, Cell Biology/Microbial Growth and Development, 03 medical and health sciences, Infectious Diseases/Fungal Infections, Virology, Genetics, Humans, Amino Acid Sequence, Candida albicans, Molecular Biology, lcsh:QH301-705.5, 030304 developmental biology, 0303 health sciences, Fungal protein, 030306 microbiology, Candidiasis, Microbiology/Medical Microbiology, Transporter, Infectious Diseases/Nosocomial and Healthcare-Associated Infections, biology.organism_classification, Microbiology/Immunity to Infections, 3. Good health, lcsh:Biology (General), Infectious disease (medical specialty), Parasitology, Carrier Proteins, Microbiology/Cellular Microbiology and Pathogenesis, lcsh:RC581-607, Research Article

Abstract

The fungal pathogen Candida glabrata has risen from an innocuous commensal to a major human pathogen that causes life-threatening infections with an associated mortality rate of up to 50%. The dramatic rise in the number of immunocompromised individuals from HIV infection, tuberculosis, and as a result of immunosuppressive regimens in cancer treatment and transplant interventions have created a new and hitherto unchartered niche for the proliferation of C. glabrata. Iron acquisition is a known microbial virulence determinant and human diseases of iron overload have been found to correlate with increased bacterial burden. Given that more than 2 billion people worldwide suffer from iron deficiency and that iron overload is one of the most common single-gene inherited diseases, it is important to understand whether host iron status may influence C. glabrata infectious disease progression. Here we identify Sit1 as the sole siderophore-iron transporter in C. glabrata and demonstrate that siderophore-mediated iron acquisition is critical for enhancing C. glabrata survival to the microbicidal activities of macrophages. Within the Sit1 transporter, we identify a conserved extracellular SIderophore Transporter Domain (SITD) that is critical for siderophore-mediated ability of C. glabrata to resist macrophage killing. Using macrophage models of human iron overload disease, we demonstrate that C. glabrata senses altered iron levels within the phagosomal compartment. Moreover, Sit1 functions as a determinant for C. glabrata to survive macrophage killing in a manner that is dependent on macrophage iron status. These studies suggest that host iron status is a modifier of infectious disease that modulates the dependence on distinct mechanisms of microbial Fe acquisition., Author Summary Candida glabrata is a major human pathogen due to its low susceptibility to conventional antifungal drugs and the dramatic increase in the number of immunocompromised individuals suffering from HIV AIDS, cancer, and diabetes. Iron overload is one of the most common genetically inherited diseases and reports suggest increased susceptibility of these patients to bacterial infection. The ability of microorganisms to obtain iron from their environment is a major determinant in their fitness and hence in their ability to cause infectious disease. Here we demonstrate that the siderophore iron carrier is critical for C. glabrata survival after ingestion by mouse and human macrophage immune effector cells. Through the generation of macrophage models of human iron overload disease we demonstrate that ingested C. glabrata cells sense altered macrophage iron levels, and that the Sit1 siderophore-iron transporter functions as a critical determinant in the ability of C. glabrata to survive macrophage killing in a manner that is dependent on macrophage iron status. Our results reveal a role for siderophore-iron as a source of iron during C. glabrata infection, suggest additional therapeutic intervention strategies, and support a pivotal contribution for a common human iron overload disease in the mechanisms used for Fe acquisition in C. glabrata.

Published

2011

2. The Danger Signal S100B Integrates Pathogen– and Danger–Sensing Pathways to Restrain Inflammation

Author

Rosario Donato, Guglielmo Sorci, Francesca Riuzzi, Teresa Zelante, Pierluigi Bonifazi, S. Zagarella, Gloria Giovannini, Luigina Romani, and Francesco Bistoni

Subjects

Immunology/Innate Immunity, Receptor for Advanced Glycation End Products, Immunology/Immunomodulation, Microbiology/Innate Immunity, S100B, RAGE (receptor), Mice, 0302 clinical medicine, TLR2, Biology (General), Receptors, Immunologic, Receptor, Pathogen, Lung, Mice, Knockout, 0303 health sciences, S100 Proteins, PAMP, RAGE, Cell biology, Microbiology/Immunity to Infections, Aspergillus, Host-Pathogen Interactions, medicine.symptom, DAMP, inflammation, infection, Intracellular, Research Article, QH301-705.5, Immunology, Inflammation, S100 Calcium Binding Protein beta Subunit, Biology, Microbiology, 03 medical and health sciences, Paracrine signalling, Infectious Diseases/Fungal Infections, Virology, Immunology/Immunity to Infections, Genetics, medicine, Animals, Nerve Growth Factors, Molecular Biology, 030304 developmental biology, Mechanism (biology), RC581-607, Toll-Like Receptor 2, Disease Models, Animal, Parasitology, Pulmonary Aspergillosis, Immunologic diseases. Allergy, 030215 immunology

Abstract

Humans inhale hundreds of Aspergillus conidia without adverse consequences. Powerful protective mechanisms may ensure prompt control of the pathogen and inflammation. Here we reveal a previously unknown mechanism by which the danger molecule S100B integrates pathogen– and danger–sensing pathways to restrain inflammation. Upon forming complexes with TLR2 ligands, S100B inhibited TLR2 via RAGE, through a paracrine epithelial cells/neutrophil circuit that restrained pathogen-induced inflammation. However, upon binding to nucleic acids, S100B activated intracellular TLRs eventually resolve danger-induced inflammation via transcriptional inhibition of S100B. Thus, the spatiotemporal regulation of TLRs and RAGE by S100B provides evidence for an evolving braking circuit in infection whereby an endogenous danger protects against pathogen–induced inflammation and a pathogen–sensing mechanism resolves danger–induced inflammation., Author Summary Inflammation results from recognition of invading microorganisms through pathogen–associated molecular patterns (PAMPs) and from reaction to tissue damage–associated molecular patterns (DAMPs). Despite the identification of specific signaling pathways negatively regulating responses to PAMPs or DAMPs, the unexpected convergence of molecular pathways responsible for recognition of either one raised the question of whether and how the host discriminates between the two distinct molecular patterns. Here we reveal a previously unknown mechanism by which the danger molecule S100B integrates pathogen– and danger–sensing pathways to restrain inflammation in Aspergillus fumigatus infection. By disclosing protective mechanisms that ensure prompt control of the pathogen and inflammation, our results may help to explain why humans inhale hundreds of Aspergillus conidia without adverse consequences.

Published

2011

3. New Models of Microsporidiosis: Infections in Zebrafish, C. elegans, and Honey Bee

Author

Emily R. Troemel

Subjects

lcsh:Immunologic diseases. Allergy, Immunology, Immunology/Innate Immunity, Zoology, Microsporidiosis, Microbiology, Models, Biological, Pearls, Honey Bees, Cell Biology/Microbial Growth and Development, Immunocompromised Host, Infectious Diseases/Fungal Infections, Virology, Cell Biology/Cytoskeleton, Genetics, medicine, Animals, Immunology/Cellular Microbiology and Pathogenesis, Caenorhabditis elegans, lcsh:QH301-705.5, Molecular Biology, Zebrafish, biology, Ecology, Honey bee, Bees, medicine.disease, biology.organism_classification, lcsh:Biology (General), Microsporidia, Host-Pathogen Interactions, Parasitology, lcsh:RC581-607

Published

2011

4. Coming of age--sexual reproduction in Candida species

Author

Richard J. Bennett

Subjects

QH301-705.5, Immunology, Saccharomyces cerevisiae, Biology, Microbiology, Pearls, Cell Biology/Cell Signaling, 03 medical and health sciences, Meiosis, Infectious Diseases/Fungal Infections, Virology, Genetics, Mating, Biology (General), Candida albicans, Molecular Biology, Transcription factor, 030304 developmental biology, Candida, 0303 health sciences, Microbiology/Microbial Evolution and Genomics, Microbiology/Microbial Growth and Development, 030306 microbiology, Reproduction, Microbiology/Medical Microbiology, RC581-607, Commensalism, biology.organism_classification, Genes, Mating Type, Fungal, Sexual reproduction, Sex pheromone, Parasitology, Immunologic diseases. Allergy, Microbiology/Cellular Microbiology and Pathogenesis

Published

2011

5. Selective C-Rel Activation via Malt1 Controls Anti-Fungal T-H-17 Immunity by Dectin-1 and Dectin-2

Author

Teunis B. H. Geijtenbeek, Teun Boekhout, Sonja I. Gringhuis, Bart Theelen, Tanja M. Kaptein, Brigitte A. Wevers, Esther C. de Jong, Toni M.M. van Capel, Faculteit der Geneeskunde, AII - Amsterdam institute for Infection and Immunity, Center of Experimental and Molecular Medicine, Other departments, Cell Biology and Histology, and Infectious diseases

Subjects

lcsh:Immunologic diseases. Allergy, Immunology, Interleukin-1beta, Immunology/Innate Immunity, Immunology/Immunomodulation, Nerve Tissue Proteins, Adaptive Immunity, Microbiology, Immunology/Leukocyte Signaling and Gene Expression, Immune system, Immunity, Infectious Diseases/Fungal Infections, Virology, Immunology/Immunity to Infections, Genetics, Humans, Lectins, C-Type, Molecular Biology, Transcription factor, lcsh:QH301-705.5, Caspase, Cells, Cultured, Candida, Regulation of gene expression, biology, Membrane Proteins, Nuclear Proteins, Dendritic Cells, Paracaspase, Acquired immune system, Caspase Inhibitors, Proto-Oncogene Proteins c-rel, Cell biology, Neoplasm Proteins, DNA-Binding Proteins, lcsh:Biology (General), Gene Expression Regulation, Mucosa-Associated Lymphoid Tissue Lymphoma Translocation 1 Protein, Caspases, biology.protein, Interleukin-23 Subunit p19, Th17 Cells, Parasitology, REL, lcsh:RC581-607, Research Article

Abstract

C-type lectins dectin-1 and dectin-2 on dendritic cells elicit protective immunity against fungal infections through induction of TH1 and TH-17 cellular responses. Fungal recognition by dectin-1 on human dendritic cells engages the CARD9-Bcl10-Malt1 module to activate NF-κB. Here we demonstrate that Malt1 recruitment is pivotal to TH-17 immunity by selective activation of NF-κB subunit c-Rel, which induces expression of TH-17-polarizing cytokines IL-1β and IL-23p19. Malt1 inhibition abrogates c-Rel activation and TH-17 immunity to Candida species. We found that Malt1-mediated activation of c-Rel is similarly essential to induction of TH-17-polarizing cytokines by dectin-2. Whereas dectin-1 activates all NF-κB subunits, dectin-2 selectively activates c-Rel, signifying a specialized TH-17-enhancing function for dectin-2 in anti-fungal immunity by human dendritic cells. Thus, dectin-1 and dectin-2 control adaptive TH-17 immunity to fungi via Malt1-dependent activation of c-Rel., Author Summary Fungal infections are a major health threat and the incidence is growing worldwide. There is a need for efficient antifungal vaccines. Adaptive immune responses and in particular T helper cell type 17 (TH-17) responses are crucial in the defence against fungal infections. Human dendritic cells (DCs) induce TH-17 responses after interaction with fungi. DCs express C-type lectins dectin-1 and dectin-2 that interact with the carbohydrate structures present in the cell-wall of fungi. It is unclear how signaling by these C-type lectins leads to specific TH-17 responses. Here we demonstrate that the signaling molecule Malt1 present in the CARD9-Bcl10-Malt1 complex is responsible for TH-17 induction by selectively activating the NF-κB transcription factor c-Rel, which drives transcription of the TH-17-polarizing cytokines. Inhibition of either Malt1 or c-Rel prevents TH-17 induction in response to fungi. Furthermore, we show that the C-type lectin dectin-2 selectively activates c-Rel, signifying a specialized TH-17-enhancing function for this C-type lectin. Thus, novel vaccination strategies that target dectin-2 or activate Malt1 can induce predominant TH-17 responses. Since aberrant TH-17 responses underlie the pathology of atopic dermatitis and various autoimmune diseases, Malt1 is a rational therapeutic target to attenuate anomalous adaptive immune responses.

Published

2011

6. Serum antibody levels to the Pneumocystis jirovecii major surface glycoprotein in the diagnosis of P. jirovecii pneumonia in HIV+ patients

Author

Kpandja Djawe, Brenna Roth, Anuradha Subramanian, Judy Koch, Kieran R. Daly, Linda Levin, Peter D. Walzer, Serena Fong, Leah G. Jarlsberg, Katherine Grieco, Alexandra Schwartzman, and Laurence Huang

Subjects

Male, Public Health and Epidemiology/Infectious Diseases, HIV Infections, Pneumocystis pneumonia, Pneumocystis carinii, Respiratory Medicine/Respiratory Infections, Immunoglobulin G, Serology, 0302 clinical medicine, HIV Seropositivity, Medicine, 0303 health sciences, Multidisciplinary, Membrane Glycoproteins, biology, Pneumonia, Pneumocystis, Public Health and Epidemiology/Global Health, Infectious Diseases/HIV Infection and AIDS, 3. Good health, Predictive value of tests, Female, Antibody, Bronchoalveolar Lavage Fluid, Research Article, Infectious Diseases/Epidemiology and Control of Infectious Diseases, Science, 030231 tropical medicine, Enzyme-Linked Immunosorbent Assay, Sensitivity and Specificity, 03 medical and health sciences, Predictive Value of Tests, Infectious Diseases/Fungal Infections, Pneumocystis jirovecii, Humans, 030306 microbiology, business.industry, Infectious Diseases/Respiratory Infections, medicine.disease, biology.organism_classification, Pneumonia, Immunoglobulin M, Immunology, Multivariate Analysis, biology.protein, business

Abstract

BackgroundPneumocystis jirovecii remains an important cause of fatal pneumonia (Pneumocystis pneumonia or PcP) in HIV+ patients and other immunocompromised hosts. Despite many previous attempts, a clinically useful serologic test for P. jirovecii infection has never been developed.Methods/principal findingsWe analyzed serum antibody responses to the P. jirovecii major surface glycoprotein recombinant fragment C1 (MsgC1) in 110 HIV+ patients with active PcP (cases) and 63 HIV+ patients with pneumonia due to other causes (controls) by an enzyme-linked immunosorbent assay (ELISA). The cases had significantly higher IgG and IgM antibody levels to MsgC1 than the controls at hospital admission (week 0) and intervals up to at least 1 month thereafter. The sensitivity, specificity and positive predictive value (PPV) of IgG antibody levels increased from 57.2%, 61.7% and 71.5% at week 0 to 63.4%, 100%, and 100%, respectively, at weeks 3-4. The sensitivity, specificity and PPV of IgM antibody levels rose from 59.7%, 61.3%, and 79.3% at week 0 to 74.6%, 73.7%, and 89.8%, respectively, at weeks 3-4. Multivariate analysis revealed that a diagnosis of PcP was the only independent predictor of high IgG and IgM antibody levels to MsgC1. A high LDH level, a nonspecific marker of lung damage, was an independent predictor of low IgG antibody levels to MsgC1.Conclusions/significanceThe results suggest that the ELISA shows promise as an aid to the diagnosis of PCP in situations where diagnostic procedures cannot be performed. Further studies in other patient populations are needed to better define the usefulness of this serologic test.

Published

2010

7. CO(2) acts as a signalling molecule in populations of the fungal pathogen Candida albicans

Author

Donna M. MacCallum, Gary K. Robinson, Rebecca A. Hall, Rebecca Eaton, Neil A. R. Gow, James W. Bloor, Lonny R. Levin, Fritz A. Mühlschlegel, Clemens Steegborn, Luisa De Sordi, Jochen Buck, Yue Wang, and Hüsnü Topal

Subjects

lcsh:Immunologic diseases. Allergy, Cell signaling, Immunology, Saccharomyces cerevisiae, Blotting, Western, Cell Communication, Peptidoglycan, Microbiology, chemistry.chemical_compound, Mice, Fungal Structures, Infectious Diseases/Fungal Infections, Virology, Candida albicans, Genetics, Animals, Biomass, RNA, Messenger, Molecular Biology, lcsh:QH301-705.5, Mice, Inbred BALB C, biology, Reverse Transcriptase Polymerase Chain Reaction, Candidiasis, Carbon Dioxide, biology.organism_classification, Disseminated Candidiasis, Corpus albicans, Yeast, Survival Rate, Bicarbonates, Blotting, Southern, Disease Models, Animal, Drosophila melanogaster, chemistry, lcsh:Biology (General), Mutagenesis, Site-Directed, Parasitology, Female, lcsh:RC581-607, Adenylyl Cyclases, Signal Transduction, Research Article

Abstract

When colonising host-niches or non-animated medical devices, individual cells of the fungal pathogen Candida albicans expand into significant biomasses. Here we show that within such biomasses, fungal metabolically generated CO2 acts as a communication molecule promoting the switch from yeast to filamentous growth essential for C. albicans pathology. We find that CO2-mediated intra-colony signalling involves the adenylyl cyclase protein (Cyr1p), a multi-sensor recently found to coordinate fungal responses to serum and bacterial peptidoglycan. We further identify Lys 1373 as essential for CO2/bicarbonate regulation of Cyr1p. Disruption of the CO2/bicarbonate receptor-site interferes selectively with C. albicans filamentation within fungal biomasses. Comparisons between the Drosophila melanogaster infection model and the mouse model of disseminated candidiasis, suggest that metabolic CO2 sensing may be important for initial colonisation and epithelial invasion. Our results reveal the existence of a gaseous Candida signalling pathway and its molecular mechanism and provide insights into an evolutionary conserved CO2-signalling system., Author Summary Pathogenic microorganisms can produce a variety of secondary metabolites and signalling molecules which can affect the host, or provide them with a selective advantage against competing commensal organisms. We demonstrate that gaseous, metabolically generated CO2 can serve as a signalling molecule to enhance the organism's virulence during infection establishment by using the fungal pathogen Candida albicans as a model. Furthermore, we identified a CO2 receptor site within the catalytic domain of the soluble adenylyl cyclase, Cyr1p, which is critical for CO2 sensing and hence virulence of the organism. CO2 sensing is conserved in a variety of pathogenic species, and increased levels have been shown to suppress the host's immune system. Thus, CO2 sensing may represent a mechanism to enhance C. albicans virulence when the host's immune system is suppressed.

Published

2010

8. Increasing incidence of Geomyces destructans fungus in bats from the Czech Republic and Slovakia

Author

Daniel Horáček, Radek Lučan, Helena Jahelková, Blanka Lehotská, Miroslav Kolařík, Jan Zukal, Zdeněk Řehák, Roman Lehotský, Peter Bačkor, Josef Wagner, Marcel Uhrin, Emil Tkadlec, Zdeněk Hubálek, Přemysl Tájek, Jan Zima, Vladimír Hanzal, Tomáš Bartonička, Jiří Šafář, Lukáš Falteisek, Ondřej Májek, Dita Weinfurtová, Jan Matějů, L'uboš Korytár, Natália Martínková, Ivan Horáček, Alena Kubátová, Jiří Gaisler, Pavla Blažková, and Jaroslav Červený

Subjects

0106 biological sciences, Slovakia, Science, Molecular Sequence Data, Population, Zoology, Evolutionary Biology/Evolutionary Ecology, Myotis myotis, DNA, Ribosomal, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Geomyces, Ascomycota, Species Specificity, Infectious Diseases/Fungal Infections, Pseudogymnoascus destructans, Chiroptera, Hibernation, Ecology/Evolutionary Ecology, medicine, Animals, Dermatomycoses, DNA, Fungal, education, Epizootic, Czech Republic, 030304 developmental biology, 0303 health sciences, education.field_of_study, Multidisciplinary, Geography, biology, Ecology, Incidence, Fungal genetics, Insectivore, Sequence Analysis, DNA, biology.organism_classification, medicine.disease, Population decline, Host-Pathogen Interactions, Medicine, Seasons, Research Article

Abstract

BackgroundWhite-nose syndrome is a disease of hibernating insectivorous bats associated with the fungus Geomyces destructans. It first appeared in North America in 2006, where over a million bats died since then. In Europe, G. destructans was first identified in France in 2009. Its distribution, infection dynamics, and effects on hibernating bats in Europe are largely unknown.Methodology/principal findingsWe screened hibernacula in the Czech Republic and Slovakia for the presence of the fungus during the winter seasons of 2008/2009 and 2009/2010. In winter 2009/2010, we found infected bats in 76 out of 98 surveyed sites, in which the majority had been previously negative. A photographic record of over 6000 hibernating bats, taken since 1994, revealed bats with fungal growths since 1995; however, the incidence of such bats increased in Myotis myotis from 2% in 2007 to 14% by 2010. Microscopic, cultivation and molecular genetic evaluations confirmed the identity of the recently sampled fungus as G. destructans, and demonstrated its continuous distribution in the studied area. At the end of the hibernation season we recorded pathologic changes in the skin of the affected bats, from which the fungus was isolated. We registered no mass mortality caused by the fungus, and the recorded population decline in the last two years of the most affected species, M. myotis, is within the population trend prediction interval.Conclusions/significanceG. destructans was found to be widespread in the Czech Republic and Slovakia, with an epizootic incidence in bats during the most recent years. Further development of the situation urgently requires a detailed pan-European monitoring scheme.

Published

2010

9. Are members of the fungal genus pneumocystis (a) commensals; (b) opportunists; (c) pathogens; or (d) all of the above?

Author

Melanie T. Cushion

Subjects

lcsh:Immunologic diseases. Allergy, Immunology, Library science, Biology, Microbiology, Pearls, 03 medical and health sciences, Infectious Diseases/Fungal Infections, Virology, Genetics, Animals, lcsh:QH301-705.5, Molecular Biology, Veterans Affairs, health care economics and organizations, 030304 developmental biology, 0303 health sciences, Genus Pneumocystis, Microbiology/Microbial Growth and Development, Competing interests, 030306 microbiology, Pneumocystis, Pneumonia, Pneumocystis, Microbiology/Medical Microbiology, Infectious Diseases/HIV Infection and AIDS, humanities, 3. Good health, lcsh:Biology (General), Parasitology, lcsh:RC581-607

Abstract

The author has declared that no competing interests exist. The author's research on Pneumocystis is funded by the United States National Institutes of Health Grant R01 AI076104 and the Medical Research Service, Department of Veterans Affairs. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Published

2010

10. Iridovirus and Microsporidian Linked to Honey Bee Colony Decline

Author

Samir Deshpande, Phillip M. Welch, Jerry J. Bromenshenk, Michael F. Stanford, Trevor Williams, Kevin W. Wanner, Joanna C. Gress, Rabih E. Jabbour, Alan W. Zulich, Colin B. Henderson, Robert A. Seccomb, Charles H. Wick, Evan W. Skowronski, Margaret M. Lehmann, S. L. Bilimoria, Patrick E. McCubbin, Robert A. Cramer, and David Firth

Subjects

Beekeeping, Apiary, Science, Zoology, complex mixtures, Mass Spectrometry, Iridovirus, Colony collapse disorder, Kakugo virus, Infectious Diseases/Fungal Infections, Botany, Animals, Colony Collapse, Multidisciplinary, biology, fungi, Nosema apis, Honey bee, Virology/Diagnosis, Bees, biology.organism_classification, Nosema ceranae, United States, Nosema, Biochemistry/Bioinformatics, Microsporidia, behavior and behavior mechanisms, Medicine, Biotechnology/Protein Chemistry and Proteomics, Ecology/Environmental Microbiology, Research Article

Abstract

BackgroundIn 2010 Colony Collapse Disorder (CCD), again devastated honey bee colonies in the USA, indicating that the problem is neither diminishing nor has it been resolved. Many CCD investigations, using sensitive genome-based methods, have found small RNA bee viruses and the microsporidia, Nosema apis and N. ceranae in healthy and collapsing colonies alike with no single pathogen firmly linked to honey bee losses.Methodology/principal findingsWe used Mass spectrometry-based proteomics (MSP) to identify and quantify thousands of proteins from healthy and collapsing bee colonies. MSP revealed two unreported RNA viruses in North American honey bees, Varroa destructor-1 virus and Kakugo virus, and identified an invertebrate iridescent virus (IIV) (Iridoviridae) associated with CCD colonies. Prevalence of IIV significantly discriminated among strong, failing, and collapsed colonies. In addition, bees in failing colonies contained not only IIV, but also Nosema. Co-occurrence of these microbes consistently marked CCD in (1) bees from commercial apiaries sampled across the U.S. in 2006-2007, (2) bees sequentially sampled as the disorder progressed in an observation hive colony in 2008, and (3) bees from a recurrence of CCD in Florida in 2009. The pathogen pairing was not observed in samples from colonies with no history of CCD, namely bees from Australia and a large, non-migratory beekeeping business in Montana. Laboratory cage trials with a strain of IIV type 6 and Nosema ceranae confirmed that co-infection with these two pathogens was more lethal to bees than either pathogen alone.Conclusions/significanceThese findings implicate co-infection by IIV and Nosema with honey bee colony decline, giving credence to older research pointing to IIV, interacting with Nosema and mites, as probable cause of bee losses in the USA, Europe, and Asia. We next need to characterize the IIV and Nosema that we detected and develop management practices to reduce honey bee losses.

Published

2010

11. PPARγ Ligands Switched High Fat Diet-Induced Macrophage M2b Polarization toward M2a Thereby Improving Intestinal Candida Elimination

Author

Lise Lefèvre, Bernard Pipy, José Bernad, Laurence Perez, Johan Auwerx, Agnès Coste, Amandine Galès, Alexis Valentin, David Olagnier, Rémy Burcelin, Simon, Marie Francoise, Infections Parasitaires : Transmission, Physiopathologie et Thérapeutiques (IP-TPT), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Assistance Publique - Hôpitaux de Marseille (APHM)-Service de Santé des Armées, Institut de médecine moléculaire de Rangueil (I2MR), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées- Institut Fédératif de Recherche Bio-médicale Institution (IFR150)-Institut National de la Santé et de la Recherche Médicale (INSERM), Laboratory of Integrative and Systems Physiology (LISP), Ecole Polytechnique Fédérale de Lausanne (EPFL), This work was supported by the Region Midi-Pyrenees grants (number: 07005642) and by Paul Sabatier Toulouse 3 University institutional funds., Service de Santé des Armées-Assistance Publique - Hôpitaux de Marseille (APHM)-Aix Marseille Université (AMU)-Institut de Recherche pour le Développement (IRD), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-IFR150-Institut National de la Santé et de la Recherche Médicale (INSERM), and Université de Toulouse (UT)-Université de Toulouse (UT)- Institut Fédératif de Recherche Bio-médicale Institution (IFR150)-Institut National de la Santé et de la Recherche Médicale (INSERM)

Subjects

Male, Diabetes Mellitus, Type 2/drug therapy, Candida albicans/immunology, Immunology/Innate Immunity, Peroxisome proliferator-activated receptor, lcsh:Medicine, Mice, Macrophages/drug effects, 0302 clinical medicine, Candida albicans, Cell Biology/Leukocyte Signaling and Gene Expression, lcsh:Science, chemistry.chemical_classification, 0303 health sciences, Macrophage Activation/drug effects, Multidisciplinary, Candidiasis, M2 Macrophage, 3. Good health, Intestines, 030220 oncology & carcinogenesis, Candidiasis/immunology, medicine.symptom, Rosiglitazone, medicine.drug, Research Article, Intestines/immunology, Thiazolidinediones/administration & dosage, medicine.medical_specialty, Adipose tissue macrophages, Macrophage polarization, Inflammation, Biology, 03 medical and health sciences, Insulin resistance, Dietary Fats/immunology, Infectious Diseases/Fungal Infections, Internal medicine, Immunology/Immunity to Infections, medicine, [SDV.BBM] Life Sciences [q-bio]/Biochemistry, Molecular Biology, Animals, Humans, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Diabetes and Endocrinology/Type 2 Diabetes, PPAR gamma/agonists, 030304 developmental biology, Macrophages, lcsh:R, Macrophage Activation, biology.organism_classification, medicine.disease, Dietary Fats, Mice, Inbred C57BL, PPAR gamma, Endocrinology, chemistry, Diabetes Mellitus, Type 2, lcsh:Q, Thiazolidinediones

Abstract

International audience; Obesity is associated with a chronic low-grade inflammation that predisposes to insulin resistance and the development of type 2 diabetes. In this metabolic context, gastrointestinal (GI) candidiasis is common. We recently demonstrated that the PPARγ ligand rosiglitazone promotes the clearance of Candida albicans through the activation of alternative M2 macrophage polarization. Here, we evaluated the impact of high fat diet (HFD)-induced obesity and the effect of rosiglitazone (PPARγ ligand) or WY14643 (PPARα ligand) both on the phenotypic M1/M2 polarization of peritoneal and cecal tissue macrophages and on the outcome of GI candidiasis. We demonstrated that the peritoneal macrophages and the cell types present in the cecal tissue from HF fed mice present a M2b polarization (TNF-α(high), IL-10(high), MR, Dectin-1). Interestingly, rosiglitazone induces a phenotypic M2b-to-M2a (TNF-α(low), IL-10(low), MR(high), Dectin-1(high)) switch of peritoneal macrophages and of the cells present in the cecal tissue. The incapacity of WY14643 to switch this polarization toward M2a state, strongly suggests the specific involvement of PPARγ in this mechanism. We showed that in insulin resistant mice, M2b polarization of macrophages present on the site of infection is associated with an increased susceptibility to GI candidiasis, whereas M2a polarization after rosiglitazone treatment favours the GI fungal elimination independently of reduced blood glucose. In conclusion, our data demonstrate a dual benefit of PPARγ ligands because they promote mucosal defence mechanisms against GI candidiasis through M2a macrophage polarization while regulating blood glucose level.

Published

2010

12. Azole Drugs Are Imported By Facilitated Diffusion in Candida albicans and Other Pathogenic Fungi

Author

Samantha J. Hoot, Brian G. Oliver, Lizbeth Hedstrom, Hanna N. Oltean, Sarah Leyde, Bryce E. Mansfield, and Theodore C. White

Subjects

lcsh:Immunologic diseases. Allergy, Antifungal Agents, Immunology, Saccharomyces cerevisiae, Microbiology, Diffusion, 03 medical and health sciences, Infectious Diseases/Fungal Infections, Drug Resistance, Fungal, Virology, Candida krusei, hemic and lymphatic diseases, Candida albicans, Genetics, Humans, Molecular Biology, lcsh:QH301-705.5, Fluconazole, 030304 developmental biology, Cryptococcus neoformans, chemistry.chemical_classification, 0303 health sciences, biology, Facilitated diffusion, Infectious Diseases/Antimicrobials and Drug Resistance, 030306 microbiology, Fungal genetics, Candidiasis, Microbiology/Medical Microbiology, Cryptococcosis, Pathogenic fungus, biology.organism_classification, 3. Good health, Oxygen, Biochemistry, chemistry, lcsh:Biology (General), Azole, Parasitology, Efflux, lcsh:RC581-607, Gene Deletion, Research Article

Abstract

Despite the wealth of knowledge regarding the mechanisms of action and the mechanisms of resistance to azole antifungals, very little is known about how the azoles are imported into pathogenic fungal cells. Here the in-vitro accumulation and import of Fluconazole (FLC) was examined in the pathogenic fungus, Candida albicans. In energized cells, FLC accumulation correlates inversely with expression of ATP-dependent efflux pumps. In de-energized cells, all strains accumulate FLC, suggesting that FLC import is not ATP-dependent. The kinetics of import in de-energized cells displays saturation kinetics with a Km of 0.64 uM and Vmax of 0.0056 pmol/min/108 cells, demonstrating that FLC import proceeds via facilitated diffusion through a transporter rather than passive diffusion. Other azoles inhibit FLC import on a mole/mole basis, suggesting that all azoles utilize the same facilitated diffusion mechanism. An analysis of related compounds indicates that competition for azole import depends on an aromatic ring and an imidazole or triazole ring together in one molecule. Import of FLC by facilitated diffusion is observed in other fungi, including Cryptococcus neoformans, Saccharomyces cerevisiae, and Candida krusei, indicating that the mechanism of transport is conserved among fungal species. FLC import was shown to vary among Candida albicans resistant clinical isolates, suggesting that altered facilitated diffusion may be a previously uncharacterized mechanism of resistance to azole drugs., Author Summary Azole antifungals are used to treat a wide variety of fungal infections of humans, animals and plants. A great deal is known about how the azoles interact with their target enzyme within fungal cells and how the azoles are exported from the fungal cell through various efflux pumps. Altered interactions with the target enzyme and altered efflux pump expression are common mechanisms of azole resistance in fungi. However, the mechanism by which azoles enter a fungal cell is not clear—many have assumed that azoles passively diffuse into the cell. This study demonstrates that azoles are not passively diffused, or actively pumped, into the cell. Instead, azoles are imported by facilitated diffusion, mediated by a transporter. Facilitated diffusion of azoles is saturable. All clinically important azoles, and many structurally related compounds, compete for FLC import, while structurally unrelated drugs do not compete. Azole import by facilitated diffusion is shown in four species of fungi, suggesting that it is common for most if not all fungi. Altered facilitated diffusion is observed in a collection of clinical isolates, suggesting that altered import is a previously uncharacterized mechanism of resistance.

Published

2010

13. Cost-effectiveness of primary prophylaxis of AIDS associated cryptococcosis in Cambodia

Author

Arnaud Fontanet, Hak Chanroeun, Yoann Madec, Olivier Lortholary, Jean-Philippe Dousset, Yazdan Yazdanpanah, Romain Micol, Ayden Tajahmady, Suna Balkan, Catherine Quillet, Epidémiologie des Maladies Emergentes - Emerging Diseases Epidemiology, Pasteur-Cnam Risques infectieux et émergents (PACRI), Institut Pasteur [Paris] (IP)-Conservatoire National des Arts et Métiers [CNAM] (CNAM), HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-Institut Pasteur [Paris] (IP)-Conservatoire National des Arts et Métiers [CNAM] (CNAM), HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM), Laboratoire de Virologie [CHU Necker], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Université Paris Descartes - Paris 5 (UPD5), Mission nationale d'expertise et d'audit hospitaliers [Paris] (MEAH), Centre d'infectiologie Necker-Pasteur [CHU Necker], Institut Pasteur [Paris] (IP)-CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Centre National de Référence des Mycoses invasives et antifongiques - Mycologie moléculaire (CNRMA), Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS), Epicentre [Paris] [Médecins Sans Frontières], Médecins du monde [Phnom Penh, Cambodia], Médecins du Monde [Paris] (MDM), Calmette Hospital [Phnom Penh], Programme ATIP - Avenir, Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Service Universitaire des Maladies Infectieuses et du Voyageur [Tourcoing], Centre Hospitalier Tourcoing, Lille Inflammation Research International Center - U 995 (LIRIC), Institut Pasteur de Lille, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), This work was financed by SIDACTION - Ensemble Contre le Sida., The authors would like to thank Didier Laureillard, Laurent Ferradini, Philippe-Jean Guérin, Pierre-Régis Martin, Françoise Dromer, ChanChhaya Ngeth, and Borann Sar for their participation as investigators in the 2004–2005 study [11] allowing assessment of the prevalence of asymptomatic positive serum CRAG in Cambodian HIV-infected patients, and for medical and scientific discussion of this manuscript.c, Institut Pasteur [Paris]-Conservatoire National des Arts et Métiers [CNAM] (CNAM)-Institut Pasteur [Paris]-Conservatoire National des Arts et Métiers [CNAM] (CNAM), CHU Necker - Enfants Malades [AP-HP], Institut Pasteur [Paris]-CHU Necker - Enfants Malades [AP-HP], and Centre National de la Recherche Scientifique (CNRS)-Institut Pasteur [Paris]

Subjects

Pediatrics, Antifungal Agents, Public Health and Epidemiology/Screening, Cost effectiveness, Cost-Benefit Analysis, Cryptococcus, HIV Infections, 0302 clinical medicine, Public Health and Epidemiology/Health Services Research and Economics, Medicine, Opportunistic infections, 030212 general & internal medicine, Fluconazole, 0303 health sciences, Multidisciplinary, biology, virus diseases, HIV diagnosis and management, Cost-effectiveness analysis, Cryptococcosis, Infectious Diseases/HIV Infection and AIDS, Markov Chains, 3. Good health, Treatment Outcome, Anti-Retroviral Agents, Chemoprophylaxis, Cambodia, medicine.drug, Cryptococcal meningitis, Research Article, Infectious Diseases/Epidemiology and Control of Infectious Diseases, medicine.medical_specialty, Science, Public Health and Epidemiology/Health Policy, Public Health and Epidemiology/Immunization, 03 medical and health sciences, Acquired immunodeficiency syndrome (AIDS), Infectious Diseases/Fungal Infections, Trimethoprim, Sulfamethoxazole Drug Combination, Humans, Preventive healthcare, Preventive medicine, AIDS-Related Opportunistic Infections, Infectious Diseases/Infectious Diseases of the Nervous System, 030306 microbiology, business.industry, Prophylaxis, biology.organism_classification, medicine.disease, CD4 Lymphocyte Count, Immunology, Public Health and Epidemiology/Preventive Medicine, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, business, Follow-Up Studies

Abstract

BackgroundCryptococcal infection is a frequent cause of mortality in Cambodian HIV-infected patients with CD4+ count ≤100 cells/µl. This study assessed the cost-effectiveness of three strategies for cryptococcosis prevention in HIV-infected patients.MethodsA MARKOV DECISION TREE WAS USED TO COMPARE THE FOLLOWING STRATEGIES AT THE TIME OF HIV DIAGNOSIS: no intervention, one time systematic serum cryptococcal antigen (CRAG) screening and treatment of positive patients, and systematic primary prophylaxis with fluconazole. The trajectory of a hypothetical cohort of HIV-infected patients with CD4+ count ≤100 cells/µl initiating care was simulated over a 1-year period (cotrimoxazole initiation at enrollment; antiretroviral therapy within 3 months). Natural history and cost data (US$ 2009) were from Cambodia. Efficacy data were from international literature.ResultsIn a population in which 81% of patients had a CD4+ count ≤50 cells/ µl and 19% a CD4+ count between 51-100 cells/µl, the proportion alive 1 year after enrollment was 61% (cost $ 472) with no intervention, 70% (cost $ 483) with screening, and 72% (cost $ 492) with prophylaxis. After one year of follow-up, the cost-effectiveness of screening vs. no intervention was US$ 180/life year gained (LYG). The cost-effectiveness of prophylaxis vs. screening was $ 511/LYG. The cost-effectiveness of prophylaxis vs. screening was estimated at $1538/LYG if the proportion of patients with CD4+ count ≤50 cells/µl decreased by 75%.ConclusionIn a high endemic area of cryptococcosis and HIV infection, serum CRAG screening and prophylaxis are two cost effective strategies to prevent AIDS associated cryptococcosis in patients with CD4+ count ≤100 cells/µl, at a short-term horizon, screening being more cost-effective but less effective than prophylaxis. Systematic primary prophylaxis may be preferred in patients with CD4+ below 50 cells/µl while systematic serum CRAG screening for early targeted treatment may be preferred in patients with CD4+ between 51-100 cells/µl.

Published

2010

14. C. elegans germline-deficient mutants respond to pathogen infection using shared and distinct mechanisms

Author

Alejandro Aballay and Michael TeKippe

Subjects

Gram-negative bacteria, media_common.quotation_subject, Longevity, Immunology/Innate Immunity, lcsh:Medicine, Plant disease resistance, Bacterial Physiological Phenomena, Gram-Positive Bacteria, Germline, Microbiology, Animals, Genetically Modified, Infectious Diseases/Bacterial Infections, 03 medical and health sciences, 0302 clinical medicine, Immunity, Infectious Diseases/Fungal Infections, Gram-Negative Bacteria, Animals, Caenorhabditis elegans, Caenorhabditis elegans Proteins, lcsh:Science, Pathogen, 030304 developmental biology, media_common, Cryptococcus neoformans, 0303 health sciences, Multidisciplinary, biology, lcsh:R, Forkhead Transcription Factors, biology.organism_classification, RNA Interference, lcsh:Q, 030217 neurology & neurosurgery, Transcription Factors, Research Article

Abstract

Reproduction extracts a cost in resources that organisms are then unable to utilize to deal with a multitude of environmental stressors. In the nematode C. elegans, development of the germline shortens the lifespan of the animal and increases its susceptibility to microbial pathogens. Prior studies have demonstrated germline-deficient nematodes to have increased resistance to Gram negative bacteria. We show that germline-deficient strains display increased resistance across a broad range of pathogens including Gram positive and Gram negative bacteria, and the fungal pathogen Cryptococcus neoformans. Furthermore, we show that the FOXO transcription factor DAF-16, which regulates longevity and immunity in C. elegans, appears to be crucial for maintaining longevity in both wild-type and germline-deficient backgrounds. Our studies indicate that germline-deficient mutants glp-1 and glp-4 respond to pathogen infection using common and different mechanisms that involve the activation of DAF-16.

Published

2010

15. Distinct Roles for Dectin-1 and TLR4 in the Pathogenesis of Aspergillus fumigatus Keratitis

Author

Mahmoud A. Ghannoum, Michelle Momany, Sixto M. Leal, Yen C. Hsia, Eric Pearlman, and Susan Cowden

Subjects

lcsh:Immunologic diseases. Allergy, beta-Glucans, Chemokine CXCL1, Corneal Stroma, Immunology, Interleukin-1beta, Nerve Tissue Proteins, Microbiology, Peripheral blood mononuclear cell, Aspergillus fumigatus, Pathogenesis, 03 medical and health sciences, Mice, 0302 clinical medicine, Stroma, Infectious Diseases/Fungal Infections, Virology, Cornea, Genetics, medicine, Animals, Syk Kinase, Lectins, C-Type, Receptor, Molecular Biology, lcsh:QH301-705.5, 030304 developmental biology, Keratitis, 0303 health sciences, biology, Macrophages, Intracellular Signaling Peptides and Proteins, Membrane Proteins, Protein-Tyrosine Kinases, biology.organism_classification, medicine.disease, 3. Good health, CXCL1, Cellular infiltration, Toll-Like Receptor 4, medicine.anatomical_structure, lcsh:Biology (General), Immunology/Leukocyte Activation, Parasitology, lcsh:RC581-607, 030215 immunology, Research Article

Abstract

Aspergillus species are a major worldwide cause of corneal ulcers, resulting in visual impairment and blindness in immunocompetent individuals. To enhance our understanding of the pathogenesis of Aspergillus keratitis, we developed a murine model in which red fluorescent protein (RFP)-expressing A. fumigatus (Af293.1RFP) conidia are injected into the corneal stroma, and disease progression and fungal survival are tracked over time. Using Mafia mice in which c-fms expressing macrophages and dendritic cells can be induced to undergo apoptosis, we demonstrated that the presence of resident corneal macrophages is essential for production of IL-1β and CXCL1/KC, and for recruitment of neutrophils and mononuclear cells into the corneal stroma. We found that β-glucan was highly expressed on germinating conidia and hyphae in the cornea stroma, and that both Dectin-1 and phospho-Syk were up-regulated in infected corneas. Additionally, we show that infected Dectin-1−/− corneas have impaired IL-1β and CXCL1/KC production, resulting in diminished cellular infiltration and fungal clearance compared with control mice, especially during infection with clinical isolates expressing high β-glucan. In contrast to Dectin 1−/− mice, cellular infiltration into infected TLR2−/−, TLR4−/−, and MD-2−/− mice corneas was unimpaired, indicating no role for these receptors in cell recruitment; however, fungal killing was significantly reduced in TLR4−/− mice, but not TLR2−/− or MD-2−/− mice. We also found that TRIF−/− and TIRAP−/− mice exhibited no fungal-killing defects, but that MyD88−/− and IL-1R1−/− mice were unable to regulate fungal growth. In conclusion, these data are consistent with a model in which β-glucan on A.fumigatus germinating conidia activates Dectin-1 on corneal macrophages to produce IL-1β, and CXCL1, which together with IL-1R1/MyD88-dependent activation, results in recruitment of neutrophils to the corneal stroma and TLR4-dependent fungal killing., Author Summary Corneal infection with filamentous fungi, including Aspergillus species, is a common cause of visual impairment and blindness in the southern USA and worldwide. The incidence in India and China greatly increases during harvest season when infection occurs after traumatic injury with fungal spores (conidia). In contrast to pulmonary aspergillosis, keratitis occurs in immunocompetent individuals. To characterize the host response, we injected Aspergillus fumigatus conidia expressing red fluorescence into the transparent mouse cornea, and showed that cytokine production, neutrophil and monocyte recruitment to the corneal stroma and fungal killing is dependent on the presence of macrophages and dendritic cells, and on expression of the β-glucan receptor Dectin-1. We also found that fungal killing, but not cellular infiltration, is dependent on expression of the LPS receptor TLR4. In addition, we demonstrate that IL-1R1 and MyD88 regulate neutrophil recruitment and fungal killing in Aspergillus keratitis, whereas TLR4 associated adaptor molecules TRIF and TIRAP have no role. Together, these findings identify specific mediators of the innate immune response to these organisms that regulate disease severity and survival of Aspergillus that may have potential application as targets for therapeutic intervention.

Published

2010

16. PLOS ONE

Author

Matthew H. Becker, Reid N. Harris, and Biological Sciences

Subjects

Infectious Diseases/Epidemiology and Control of Infectious Diseases, medicine.drug_class, Antibiotics, Population, Urodela, lcsh:Medicine, Disease, Skin infection, Microbiology, 03 medical and health sciences, Plethodon cinereus, Ecology/Conservation and Restoration Ecology, Infectious Diseases/Fungal Infections, medicine, Animals, Chytridiomycosis, education, lcsh:Science, 030304 developmental biology, Skin, 0303 health sciences, education.field_of_study, Multidisciplinary, biology, Bacteria, Ecology, 030306 microbiology, lcsh:R, biology.organism_classification, medicine.disease, 3. Good health, Infectious Diseases, Mycoses, Infectious disease (medical specialty), lcsh:Q, Ecology/Environmental Microbiology, Research Article

Abstract

Chytridiomycosis, caused by the fungal pathogen Batrachochytrium dendrobatidis (Bd), is an infectious disease that causes population declines of many amphibians. Cutaneous bacteria isolated from redback salamanders, Plethodon cinereus, and mountain yellow-legged frogs, Rana muscosa, inhibit the growth of Bd in vitro. In this study, the bacterial community present on the skin of P. cinereus individuals was investigated to determine if it provides protection to salamanders from the lethal and sub-lethal effects of chytridiomycosis. When the cutaneous bacterial community was reduced prior to Bd exposure, salamanders experienced a significantly greater decrease in body mass, which is a symptom of the disease, when compared to infected individuals with a normal bacterial community. In addition, a greater proportion of infected individuals with a reduced bacterial community experienced limb-lifting, a behavior seen only in infected individuals. Overall, these results demonstrate that the cutaneous bacterial community of P. cinereus provides protection to the salamander from Bd and that alteration of this community can change disease resistance. Therefore, symbiotic microbes associated with this species appear to be an important component of its innate skin defenses. Published version

Published

2010

17. HapX-mediated adaption to iron starvation is crucial for virulence of Aspergillus fumigatus

Author

Christoph Jöchl, Nicola Beckmann, Ernst R. Werner, Fabio Gsaller, John J. Varga, Michael Blatzer, Axel A. Brakhage, Hubertus Haas, Shaohua Wang, Tarek A. A. Moussa, William C. Niermann, Thorsten Heinekamp, Ilse D. Jacobsen, and Markus Schrettl

Subjects

Ornithine, Siderophore, Siderophores, Mitochondrion, GATA Transcription Factors, Biochemistry, Aspergillus fumigatus, chemistry.chemical_compound, Mice, Gene Expression Regulation, Fungal, Adaptation, Psychological, Biology (General), Amino Acids, Heme, Oligonucleotide Array Sequence Analysis, 2. Zero hunger, 0303 health sciences, Fungal protein, Virulence, Reverse Transcriptase Polymerase Chain Reaction, Genetics and Genomics/Functional Genomics, Genetics and Genomics/Gene Expression, Iron Deficiencies, Anti-Bacterial Agents, Survival Rate, Basic-Leucine Zipper Transcription Factors, Microbiology/Microbial Physiology and Metabolism, Microbiology/Cellular Microbiology and Pathogenesis, Research Article, QH301-705.5, Immunology, Biology, Microbiology, DNA, Mitochondrial, Fungal Proteins, 03 medical and health sciences, Drug Resistance, Fungal, Infectious Diseases/Fungal Infections, Virology, Genetics, Animals, Aspergillosis, RNA, Messenger, Molecular Biology, Cell Biology/Chemical Biology of the Cell, 030304 developmental biology, Microbiology/Microbial Growth and Development, 030306 microbiology, Gene Expression Profiling, RC581-607, Allergens, Antigens, Plant, Tetracycline, biology.organism_classification, Blotting, Northern, Citric acid cycle, Repressor Proteins, Disease Models, Animal, chemistry, Parasitology, Immunologic diseases. Allergy, Biomarkers

Abstract

Iron is essential for a wide range of cellular processes. Here we show that the bZIP-type regulator HapX is indispensable for the transcriptional remodeling required for adaption to iron starvation in the opportunistic fungal pathogen Aspergillus fumigatus. HapX represses iron-dependent and mitochondrial-localized activities including respiration, TCA cycle, amino acid metabolism, iron-sulfur-cluster and heme biosynthesis. In agreement with the impact on mitochondrial metabolism, HapX-deficiency decreases resistance to tetracycline and increases mitochondrial DNA content. Pathways positively affected by HapX include production of the ribotoxin AspF1 and siderophores, which are known virulence determinants. Iron starvation causes a massive remodeling of the amino acid pool and HapX is essential for the coordination of the production of siderophores and their precursor ornithine. Consistent with HapX-function being limited to iron depleted conditions and A. fumigatus facing iron starvation in the host, HapX-deficiency causes significant attenuation of virulence in a murine model of aspergillosis. Taken together, this study demonstrates that HapX-dependent adaption to conditions of iron starvation is crucial for virulence of A. fumigatus., Author Summary Due to its requirement for a wide range of cellular processes, iron is an essential nutrient for virtually every organism. The mammalian immune system utilizes iron-withholding mechanisms to deny access to free iron. Therefore, pathogens must overcome extreme iron limitation. Patients with suppressed immune systems due to cancer treatments, organ transplantation, or genetic disorders are at high risk of infection with the ubiquitously present fungal pathogen Aspergillus fumigatus. In this study we found that in Aspergillus fumigatus iron starvation results in drastic metabolic changes depending on the transcription factor HapX. During iron starvation, HapX functions include the repression of iron-consuming pathways to spare iron and activation of iron uptake by siderophores. Siderophores are small molecules able to “steal” iron from host molecules and have previously been shown to play a crucial role in the virulence of Aspergillus fumigatus. Genetic inactivation of HapX attenuates virulence of Aspergillus fumigatus in a murine model of aspergillosis, demonstrating that adaption to iron limitation is a crucial virulence determinant. The identification of numerous HapX-affected genes with a yet uncharacterized link to iron will aid in the further characterization of the metabolic pathways required for fungal adaption to iron starvation and virulence traits.

Published

2010

18. Immunological Basis for the Gender Differences in Murine Paracoccidioides brasiliensis Infection

Author

Camila F. Pinzan, Analia S. Casabona-Fortunato, Maria Cristina Roque-Barreira, Fernanda C. Carvalho, and Luciana Pereira Ruas

Subjects

Male, medicine.medical_specialty, lcsh:Medicine, Spleen, GATA3 Transcription Factor, Nitric Oxide, Paracoccidioides, Fungal Proteins, Interferon-gamma, Mice, Immune system, Infectious Diseases/Fungal Infections, Internal medicine, Immunology/Immunity to Infections, Lectins, medicine, Animals, lcsh:Science, Gonadal Steroid Hormones, Paracoccidioides brasiliensis, Fungal protein, Sex Characteristics, Multidisciplinary, Microbial Viability, biology, Paracoccidioidomycosis, Macrophages, lcsh:R, Models, Immunological, biology.organism_classification, medicine.disease, Castrated Female, Interleukin-10, Interleukin 10, medicine.anatomical_structure, Endocrinology, Infectious Diseases/Neglected Tropical Diseases, Gene Expression Regulation, Organ Specificity, Immunology/Immune Response, lcsh:Q, Female, Interleukin-4, T-Box Domain Proteins, Research Article

Abstract

This study aimed to investigate the immunological mechanisms involved in the gender distinct incidence of paracoccidioidomycosis (pcm), an endemic systemic mycosis in Latin America, which is at least 10 times more frequent in men than in women. Then, we compared the immune response of male and female mice to Paracoccidioides brasiliensis infection, as well as the influence in the gender differences exerted by paracoccin, a P. brasiliensis component with carbohydrate recognition property. High production of Th1 cytokines and T-bet expression have been detected in the paracoccin stimulated cultures of spleen cells from infected female mice. In contrast, in similar experimental conditions, cells from infected males produced higher levels of the Th2 cytokines and expressed GATA-3. Macrophages from male and female mice when stimulated with paracoccin displayed similar phagocytic capability, while fungicidal activity was two times more efficiently performed by macrophages from female mice, a fact that was associated with 50% higher levels of nitric oxide production. In order to evaluate the role of sexual hormones in the observed gender distinction, we have utilized mice that have been submitted to gonadectomy followed by inverse hormonal reconstitution. Spleen cells derived from castrated males reconstituted with estradiol have produced higher levels of IFN-gamma (1291+/-15 pg/mL) and lower levels of IL-10 (494+/-38 pg/mL), than normal male in response to paracoccin stimulus. In contrast, spleen cells from castrated female mice that had been treated with testosterone produced more IL-10 (1284+/-36 pg/mL) and less IFN-gamma (587+/-14 pg/mL) than cells from normal female. In conclusion, our results reveal that the sexual hormones had a profound effect on the biology of immune cells, and estradiol favours protective responses to P. brasiliensis infection. In addition, fungal components, such as paracoccin, may provide additional support to the gender dimorphic immunity that marks P. brasiliensis infection.

Published

2010

19. Combining ChIP-chip and expression profiling to model the MoCRZ1 mediated circuit for Ca/calcineurin signaling in the rice blast fungus

Author

Soonok, Kim, Jinnan, Hu, Yeonyee, Oh, Jongsun, Park, Jinhee, Choi, Yong-Hwan, Lee, Ralph A, Dean, and Thomas K, Mitchell

Subjects

lcsh:Immunologic diseases. Allergy, Calcineurin, Gene Expression Profiling, Genetics and Genomics/Functional Genomics, Green Fluorescent Proteins, Oryza, Genetics and Genomics/Gene Expression, Microbiology/Plant-Biotic Interactions, Fungal Proteins, Genetics and Genomics/Gene Function, Magnaporthe, lcsh:Biology (General), Infectious Diseases/Fungal Infections, Calcium, Genome, Fungal, lcsh:RC581-607, lcsh:QH301-705.5, Oligonucleotide Array Sequence Analysis, Plant Diseases, Signal Transduction, Transcription Factors, Research Article, Plant Biology/Plant-Biotic Interactions

Abstract

Significant progress has been made in defining the central signaling networks in many organisms, but collectively we know little about the downstream targets of these networks and the genes they regulate. To reconstruct the regulatory circuit of calcineurin signal transduction via MoCRZ1, a Magnaporthe oryzae C2H2 transcription factor activated by calcineurin dephosphorylation, we used a combined approach of chromatin immunoprecipitation - chip (ChIP-chip), coupled with microarray expression studies. One hundred forty genes were identified as being both a direct target of MoCRZ1 and having expression concurrently differentially regulated in a calcium/calcineurin/MoCRZ1 dependent manner. Highly represented were genes involved in calcium signaling, small molecule transport, ion homeostasis, cell wall synthesis/maintenance, and fungal virulence. Of particular note, genes involved in vesicle mediated secretion necessary for establishing host associations, were also found. MoCRZ1 itself was a target, suggesting a previously unreported autoregulation control point. The data also implicated a previously unreported feedback regulation mechanism of calcineurin activity. We propose that calcium/calcineurin regulated signal transduction circuits controlling development and pathogenicity manifest through multiple layers of regulation. We present results from the ChIP-chip and expression analysis along with a refined model of calcium/calcineurin signaling in this important plant pathogen., Author Summary All organisms have the innate ability to perceive their environment and respond to it, largely through controlling gene expression. Tailored specificity of a response is primarily achieved through signal cascades involving unique receptors, downstream transcription factors (proteins that bind to DNA to regulate gene expression), and the genes these transcription factors regulate. For fungal plant pathogens, signal transduction cascades are involved in perception of hosts, transgression of physical barriers, suppression or elicitation of host defenses, in vivo nutrient acquisition, and completion of their life cycle. We know that the Ca2+/calcineurin signaling pathway is a central conduit regulating these aspects of the life cycle for fungal pathogens of plants and animals. In this study, we used advanced ChIP-chip and microarray gene expression technologies to identify the genes that the Ca2+/calcineurin responsive transcription factor MoCRZ1 directly binds to and regulates the expression of. Our findings show conservations and divergence in this pathway within the fungal kingdom. It also identifies points of control in the pathway that were previously unidentified. Most importantly, this study implicates this pathway in the establishment of host associations and virulence for the causal agent of rice blast disease, Magnaporthe oryzae, the most important disease of rice worldwide.

Published

2010

20. Evolution of the sex-related locus and genomic features shared in microsporidia and fungi

Author

Sylvia Doan, Patrick J. Keeling, Fred S. Dietrich, Nicolas Corradi, Soo Chan Lee, and Joseph Heitman

Subjects

Genome evolution, Genetic Linkage, Science, Molecular Sequence Data, Locus (genetics), Evolution, Molecular, Fungal Proteins, 03 medical and health sciences, Infectious Diseases/Fungal Infections, Phylogenetics, parasitic diseases, Microbiology/Parasitology, Amino Acid Sequence, Gene, Encephalitozoon cuniculi, Phylogeny, 030304 developmental biology, Genetics, 0303 health sciences, Microbiology/Microbial Evolution and Genomics, Multidisciplinary, Sequence Homology, Amino Acid, biology, Phylogenetic tree, 030306 microbiology, Sexual Development, fungi, Fungal genetics, 15. Life on land, Genes, Mating Type, Fungal, biology.organism_classification, Evolutionary Biology/Microbial Evolution and Genomics, Genetic Loci, Microsporidia, Medicine, Genome, Fungal, Research Article

Abstract

BackgroundMicrosporidia are obligate intracellular, eukaryotic pathogens that infect a wide range of animals from nematodes to humans, and in some cases, protists. The preponderance of evidence as to the origin of the microsporidia reveals a close relationship with the fungi, either within the kingdom or as a sister group to it. Recent phylogenetic studies and gene order analysis suggest that microsporidia share a particularly close evolutionary relationship with the zygomycetes.Methodology/principal findingsHere we expanded this analysis and also examined a putative sex-locus for variability between microsporidian populations. Whole genome inspection reveals a unique syntenic gene pair (RPS9-RPL21) present in the vast majority of fungi and the microsporidians but not in other eukaryotic lineages. Two other unique gene fusions (glutamyl-prolyl tRNA synthetase and ubiquitin-ribosomal subunit S30) that are present in metazoans, choanoflagellates, and filasterean opisthokonts are unfused in the fungi and microsporidians. One locus previously found to be conserved in many microsporidian genomes is similar to the sex locus of zygomycetes in gene order and architecture. Both sex-related and sex loci harbor TPT, HMG, and RNA helicase genes forming a syntenic gene cluster. We sequenced and analyzed the sex-related locus in 11 different Encephalitozoon cuniculi isolates and the sibling species E. intestinalis (3 isolates) and E. hellem (1 isolate). There was no evidence for an idiomorphic sex-related locus in this Encephalitozoon species sample. According to sequence-based phylogenetic analyses, the TPT and RNA helicase genes flanking the HMG genes are paralogous rather than orthologous between zygomycetes and microsporidians.Conclusion/significanceThe unique genomic hallmarks between microsporidia and fungi are independent of sequence based phylogenetic comparisons and further contribute to define the borders of the fungal kingdom and support the classification of microsporidia as unusual derived fungi. And the sex/sex-related loci appear to have been subject to frequent gene conversion and translocations in microsporidia and zygomycetes.

Published

2010

21. Evolution of linked avirulence effectors in Leptosphaeria maculans is affected by genomic environment and exposure to resistance genes in host plants

Author

Anton Cozijnsen, Angela P. Van de Wouw, James K. Hane, Patrick C. Brunner, Barbara J. Howlett, Bruce A. McDonald, and Richard P. Oliver

Subjects

Transposable element, DNA, Plant, Genotype, Sequence analysis, QH301-705.5, Immunology, Genes, Fungal, Virulence, Plant disease resistance, Biology, Microbiology, Genome, Polymerase Chain Reaction, Leptosphaeria maculans, Ascomycota, Infectious Diseases/Fungal Infections, Virology, Genetics, Biology (General), Molecular Biology, Gene, Alleles, Phylogeny, Plant Diseases, Brassica napus, food and beverages, RC581-607, biology.organism_classification, Biological Evolution, Immunity, Innate, Evolutionary Biology/Microbial Evolution and Genomics, Mutation, Parasitology, Immunologic diseases. Allergy, Genome, Fungal, Research Article, Plant Biology/Plant-Biotic Interactions

Abstract

Brassica napus (canola) cultivars and isolates of the blackleg fungus, Leptosphaeria maculans interact in a ‘gene for gene’ manner whereby plant resistance (R) genes are complementary to pathogen avirulence (Avr) genes. Avirulence genes encode proteins that belong to a class of pathogen molecules known as effectors, which includes small secreted proteins that play a role in disease. In Australia in 2003 canola cultivars with the Rlm1 resistance gene suffered a breakdown of disease resistance, resulting in severe yield losses. This was associated with a large increase in the frequency of virulence alleles of the complementary avirulence gene, AvrLm1, in fungal populations. Surprisingly, the frequency of virulence alleles of AvrLm6 (complementary to Rlm6) also increased dramatically, even though the cultivars did not contain Rlm6. In the L. maculans genome, AvrLm1 and AvrLm6 are linked along with five other genes in a region interspersed with transposable elements that have been degenerated by Repeat-Induced Point (RIP) mutations. Analyses of 295 Australian isolates showed deletions, RIP mutations and/or non-RIP derived amino acid substitutions in the predicted proteins encoded by these seven genes. The degree of RIP mutations within single copy sequences in this region was proportional to their proximity to the degenerated transposable elements. The RIP alleles were monophyletic and were present only in isolates collected after resistance conferred by Rlm1 broke down, whereas deletion alleles belonged to several polyphyletic lineages and were present before and after the resistance breakdown. Thus, genomic environment and exposure to resistance genes in B. napus has affected the evolution of these linked avirulence genes in L. maculans., PLoS Pathogens, 6 (11), ISSN:1553-7374, ISSN:1553-7366

Published

2010

22. Dispersion as an important step in the Candida albicans biofilm developmental cycle

Author

Anand Srinivasan, Ashok K. Chaturvedi, Julia R. Köhler, Mohua Banerjee, Anand K. Ramasubramaniam, David Kadosh, Priya Uppuluri, and Jose L. Lopez-Ribot

Subjects

Umbilical Cord, Mice, Filamentation, Gene Expression Regulation, Fungal, Candida albicans, lcsh:QH301-705.5, 0303 health sciences, Fungal protein, Mice, Inbred BALB C, biology, Virulence, Candidiasis, Hydrogen-Ion Concentration, Phenotype, Corpus albicans, Diffusion Chambers, Culture, Research Article, lcsh:Immunologic diseases. Allergy, Immunology, Models, Biological, Microbiology, Fungal Proteins, 03 medical and health sciences, Infectious Diseases/Fungal Infections, Virology, Genetics, Cell Adhesion, Animals, Humans, Molecular Biology, 030304 developmental biology, Microbiology/Microbial Growth and Development, 030306 microbiology, Biofilm, Endothelial Cells, Microbiology/Medical Microbiology, biochemical phenomena, metabolism, and nutrition, Disseminated Candidiasis, biology.organism_classification, Carbon, Disease Models, Animal, lcsh:Biology (General), Biofilms, Microscopy, Electron, Scanning, Parasitology, Stress, Mechanical, lcsh:RC581-607

Abstract

Biofilms are dynamic microbial communities in which transitions between planktonic and sessile modes of growth occur interchangeably in response to different environmental cues. In the last decade, early events associated with C. albicans biofilm formation have received considerable attention. However, very little is known about C. albicans biofilm dispersion or the mechanisms and signals that trigger it. This is important because it is precisely C. albicans cells dispersed from biofilms that are the main culprits associated with candidemia and establishment of disseminated invasive disease, two of the gravest forms of candidiasis. Using a simple flow biofilm model recently developed by our group, we have performed initial investigations into the phenomenon of C. albicans biofilm dispersion, as well as the phenotypic characteristics associated with dispersed cells. Our results indicate that C. albicans biofilm dispersion is dependent on growing conditions, including carbon source and pH of the media used for biofilm development. C. albicans dispersed cells are mostly in the yeast form and display distinct phenotypic properties compared to their planktonic counterparts, including enhanced adherence, filamentation, biofilm formation and, perhaps most importantly, increased pathogenicity in a murine model of hematogenously disseminated candidiasis, thus indicating that dispersed cells are armed with a complete arsenal of “virulence factors” important for seeding and establishing new foci of infection. In addition, utilizing genetically engineered strains of C. albicans (tetO-UME6 and tetO-PES1) we demonstrate that C. albicans biofilm dispersion can be regulated by manipulating levels of expression of these key genes, further supporting the evidence for a strong link between biofilms and morphogenetic conversions at different stages of the C. albicans biofilm developmental cycle. Overall, our results offer novel and important insight into the phenomenon of C. albicans biofilm dispersion, a key part of the biofilm developmental cycle, and provide the basis for its more detailed analysis., Author Summary Candida albicans is the main causative agent of candidiasis, a difficult-to-treat infection that occurs mostly in severely immunosuppressed and other at-risk patients. Candidiasis is often associated with the formation of biofilms (attached microbial communities encapsulated within a protective matrix) on host surfaces and/or implantable medical devices, most notably intravascular catheters. In recent years, for C. albicans, the process of biofilm formation has received much attention. However, the same is not true for biofilm dispersion (the release of cells from the biofilm). This is important since these dispersed cells are responsible for the subsequent establishment of disseminated candidiasis at distal organs. Here we have taken advantage of a model of biofilm formation under conditions of flow recently described by our group to study and characterize the phenomenon of C. albicans biofilm dispersion. Rather than an end-stage process, our results indicate that dispersion occurs at all different stages of the biofilm developmental cycle and is influenced by nutritional and other physiochemical conditions. In addition, our findings provide initial insights into how this process is regulated at the molecular level. We also demonstrate that dispersed cells display distinct phenotypic properties that are associated with increased virulence, with important clinical repercussions.

Published

2010

23. An extensive circuitry for cell wall regulation in Candida albicans

Author

Jessica J. Hamaker, Aaron P. Mitchell, Saranna Fanning, and Jill R. Blankenship

Subjects

lcsh:Immunologic diseases. Allergy, Immunology, Saccharomyces cerevisiae, Genes, Fungal, Molecular Sequence Data, Septin, Microbiology, Fungal Proteins, 03 medical and health sciences, Infectious Diseases/Fungal Infections, Cell Wall, Stress, Physiological, Virology, Sequence Homology, Nucleic Acid, Candida albicans, Genetics, Protein kinase A, Molecular Biology, lcsh:QH301-705.5, 030304 developmental biology, 0303 health sciences, Fungal protein, Microbiology/Microbial Growth and Development, biology, Base Sequence, 030306 microbiology, Kinase, Reverse Transcriptase Polymerase Chain Reaction, Cell Polarity, biology.organism_classification, Genetics and Genomics/Microbial Evolution and Genomics, Cell biology, Genetics and Genomics/Gene Function, Biochemistry, lcsh:Biology (General), Schizosaccharomyces pombe, Parasitology, Signal transduction, lcsh:RC581-607, Protein Kinases, Research Article, Signal Transduction

Abstract

Protein kinases play key roles in signaling and response to changes in the external environment. The ability of Candida albicans to quickly sense and respond to changes in its environment is key to its survival in the human host. Our guiding hypothesis was that creating and screening a set of protein kinase mutant strains would reveal signaling pathways that mediate stress response in C. albicans. A library of protein kinase mutant strains was created and screened for sensitivity to a variety of stresses. For the majority of stresses tested, stress response was largely conserved between C. albicans, Saccharomyces cerevisiae, and Schizosaccharomyces pombe. However, we identified eight protein kinases whose roles in cell wall regulation (CWR) were not expected from functions of their orthologs in the model fungi Saccharomyces cerevisiae and Schizosaccharomyces pombe. Analysis of the conserved roles of these protein kinases indicates that establishment of cell polarity is critical for CWR. In addition, we found that septins, crucial to budding, are both important for surviving and are mislocalized by cell wall stress. Our study shows an expanded role for protein kinase signaling in C. albicans cell wall integrity. Our studies suggest that in some cases, this expansion represents a greater importance for certain pathways in cell wall biogenesis. In other cases, it appears that signaling pathways have been rewired for a cell wall integrity response., Author Summary Candida albicans is the major fungal commensal and pathogen of humans. Like most microorganisms, C. albicans is surrounded and protected by a cell wall. This cell wall has two purposes: to act as a rigid “exoskeleton” to prevent cells from bursting, and to provide a surface where a cell can interact with the outside environment while protecting the cell itself from this environment. Maintenance of this structure has been well studied in the model fungus, Saccharomyces cerevisiae, but previous evidence suggested that C. albicans might have additional inputs to this process. By creating and testing a library of mutant strains for sensitivity to cell wall stress, we were able to identify a number of conserved genes with roles in this process not shared by their S. cerevisiae counterparts. Although some of these genes had previously been linked to cell wall integrity, it appears that they have increased impact on this process in C. albicans. For other genes, their role in cell wall integrity may represent a novel connection. Our findings provide insight into novel aspects of cell wall integrity in this pathogen and lay a foundation for its more detailed analysis.

Published

2010

24. Pulmonary abnormalities in mice with paracoccidioidomycosis: a sequential study comparing high resolution computed tomography and pathologic findings

Author

Henrique Leonel Lenzi, José Miguel Hidalgo, Luz Elena Cano, Damaris Lopera, Tonny W. Naranjo, Jairo Hernando Patiño, Angela Restrepo, and Bernardo Miguel de Oliveira Pascarelli

Subjects

Male, High-resolution computed tomography, Pathology, medicine.medical_specialty, Pathology/Histopathology, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Computed tomography, Lung pathology, Respiratory Medicine/Respiratory Infections, Mice, Infectious Diseases/Fungal Infections, Medicine, Animals, Radiology and Medical Imaging/Computer Tomography, Lung, Analysis of Variance, Mice, Inbred BALB C, medicine.diagnostic_test, business.industry, Paracoccidioidomycosis, Histocytochemistry, lcsh:Public aspects of medicine, Public Health, Environmental and Occupational Health, lcsh:RA1-1270, Pneumonia, respiratory system, medicine.disease, respiratory tract diseases, Disease Models, Animal, Infectious Diseases, Pulmonary imaging, Tomography x ray computed, Radiography, Thoracic, business, Tomography, X-Ray Computed, Research Article

Abstract

Background Human paracoccidioidomycosis (PCM) is an endemic fungal disease of pulmonary origin. Follow-up of pulmonary lesions by image studies in an experimental model of PCM has not been previously attempted. This study focuses on defining patterns, topography and intensity of lung lesions in experimentally infected PCM mice by means of a comparative analysis between High Resolution Computed Tomography (HRCT) and histopathologic parameters. Methodology Male BALB/c mice were intranasally inoculated with 3×106 Paracoccidioides brasiliensis (Pb) conidia (n = 50) or PBS (n = 50). HRCT was done every four weeks to determine pulmonary lesions, quantify lung density, reconstruct and quantify lung air structure. Lungs were also analyzed by histopathology and histomorphometry. Results Three different patterns of lesions were evidenced by HRCT and histopathology, as follows: nodular-diffuse, confluent and pseudo-tumoral. The lesions were mainly located around the hilus and affected more frequently the left lung. At the 4th week post-challenge HRCT showed that 80% of the Pb-infected mice had peri-bronchial consolidations associated with a significant increase in upper lung density when compared with controls, (−263±25 vs. −422±10 HU, p, Author Summary Paracoccidioidomycosis (PCM) is a fungal infection caused by the dimorphic fungus Paracoccidioides brasiliensis. It occurs preferentially in rural workers in whom the disease is severe and may cause incapacitating pulmonary sequelae. Assessment of disease progression and treatment outcome normally includes chest x-rays or CT studies. Existing experimental PCM models have focused on several aspects, but none has done a radiologic or image follow-up evaluation of pulmonary lesions considered as the fungus primary target. In this study, the lungs of mice infected with fungal conidia were studied sequentially during the chronic stage of their experimental mycosis by noninvasive high resolution medical computed tomography, and at time of sacrifice, also by histopathology to characterize pulmonary abnormalities. Three basic lung lesion patterns were revealed by both techniques: nodular-diffuse, confluent and pseudo-tumoral which were located mainly around the hilus thus accurately reflecting the situation in human patients. The experimental design of this study decreases the need to sacrifice a large number of animals, and serves to monitor treatment efficacy by means of a more rational approach to the study of human pulmonary diseases. The findings we are reporting open new avenues for experimental research, increase our understanding of the mycosis pathogenesis and consequently have repercussions in patients' care.

Published

2010

25. Rapid species diagnosis for invasive candidiasis using mass spectrometry

Author

Ralitsa Atanasova, Laura Djamdjian, Jean-Louis Golmard, Pierre Buffet, Arnaud Fekkar, Isabelle Meyer, Jean-Yves Brossas, Annick Datry, Carine Marinach-Patrice, Johanna Gomes, Georges Snounou, Christophe Hennequin, and Dominique Mazier

Subjects

Proteomics, lcsh:Medicine, Biology, Bioinformatics, Mass spectrometry, Microbiology, Infectious Diseases/Fungal Infections, medicine, Humans, Candida albicans, lcsh:Science, Fungemia, Multidisciplinary, lcsh:R, Candidiasis, Microbiology/Medical Microbiology, biology.organism_classification, medicine.disease, Blood proteins, Yeast, Biophysics/Protein Chemistry and Proteomics, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, lcsh:Q, Subculture (biology), Time-of-flight mass spectrometry, Research Article

Abstract

Background Matrix-assisted laser desorption ionisation time of flight mass spectrometry (MALDI TOF-MS) allows the identification of most bacteria and an increasing number of fungi. The potential for the highest clinical benefit of such methods would be in severe acute infections that require prompt treatment adapted to the infecting species. Our objective was to determine whether yeasts could be identified directly from a positive blood culture, avoiding the 1–3 days subculture step currently required before any therapeutic adjustments can be made. Methodology/Principal Findings Using human blood spiked with Candida albicans to simulate blood cultures, we optimized protocols to obtain MALDI TOF-MS fingerprints where signals from blood proteins are reduced. Simulated cultures elaborated using a set of 12 strains belonging to 6 different species were then tested. Quantifiable spectral differences in the 5000–7400 Da mass range allowed to discriminate between these species and to build a reference database. The validation of the method and the statistical approach to spectral analysis were conducted using individual simulated blood cultures of 36 additional strains (six for each species). Correct identification of the species of these strains was obtained. Conclusions/Significance Direct MALDI TOF-MS analysis of aliquots from positive blood cultures allowed rapid and accurate identification of the main Candida species, thus obviating the need for sub-culturing on specific media. Subsequent to this proof-of-principle demonstration, the method can be extended to other clinically relevant yeast species, and applied to an adequate number of clinical samples in order to establish its potential to improve antimicrobial management of patients with fungemia.

Published

2010

26. Development of azole resistance in Aspergillus fumigatus during azole therapy associated with change in virulence

Author

Eleftheria Mavridou, Paul E. Verweij, Niels Frimodt-Møller, Eveline Snelders, Humara Khan, Klaus Leth Mortensen, Maiken Cavling Arendrup, and Willem J. G. Melchers

Subjects

Azoles, Posaconazole, Antifungal Agents, Itraconazole, Science, Virulence, Drug resistance, Granulomatous Disease, Chronic, Microbiology, Aspergillus fumigatus, Invasive mycoses and compromised host [N4i 2], Mice, Antibiotic resistance, Drug Resistance, Fungal, Infectious Diseases/Fungal Infections, medicine, Life Science, Animals, Humans, chemistry.chemical_classification, Multidisciplinary, biology, Fungal genetics, Microbiology/Medical Microbiology, Pharmacology/Drug Resistance, biology.organism_classification, chemistry, Medicine, Azole, Drug Therapy, Combination, Infection and autoimmunity [NCMLS 1], medicine.drug, Research Article

Abstract

Contains fulltext : 88544.pdf (Publisher’s version ) (Open Access) Four sequential Aspergillus fumigatus isolates from a patient with chronic granulomatous disease (CGD) eventually failing azole-echinocandin combination therapy were investigated. The first two isolates (1 and 2) were susceptible to antifungal azoles, but increased itraconazole, voriconazole and posaconazole MICs were found for the last two isolates (3 and 4). Microsatellite typing showed that the 4 isolates were isogenic, suggesting that resistance had been acquired during azole treatment of the patient. An immunocompromised mouse model confirmed that the in vitro resistance corresponded with treatment failure. Mice challenged with the resistant isolate 4 failed to respond to posaconazole therapy, while those infected by susceptible isolate 2 responded. Posaconazole-anidulafungin combination therapy was effective in mice challenged with isolate 4. No mutations were found in the Cyp51A gene of the four isolates. However, expression experiments of the Cyp51A showed that the expression was increased in the resistant isolates, compared to the azole-susceptible isolates. The microscopic morphology of the four isolates was similar, but a clear alteration in radial growth and a significantly reduced growth rate of the resistant isolates on solid and in broth medium was observed compared to isolates 1 and 2 and to unrelated wild-type controls. In the mouse model the virulence of isolates 3 and 4 was reduced compared to the susceptible ones and to wild-type controls. For the first time, the acquisition of azole resistance despite azole-echinocandin combination therapy is described in a CGD patient and the resistance demonstrated to be directly associated with significant change of virulence.

Published

2010

27. Serological profiling of a Candida albicans protein microarray reveals permanent host-pathogen interplay and stage-specific responses during candidemia

Author

Matthew A. Kayala, Pierre Baldi, Haoping Liu, M. Hong Nguyen, Cornelius J. Clancy, A. Brian Mochon, Jin Ye, Philip L. Felgner, and John R. Wingard

Subjects

Opportunistic infection, receptor-interacting protein-2, in-vivo, Blood serum, Host-Pathogen Interactions - immunology, Seroepidemiologic Studies, Candida albicans, foam cell-formation, immune-responses, Biology (General), Pathogen, 0303 health sciences, Antibodies, Fungal - blood, Candidiasis, Life Sciences, intracellular bacterial-infection, Corpus albicans, 3. Good health, Microbiology/Immunity to Infections, ifn-gamma, Candidiasis - blood - epidemiology - immunology, Host-Pathogen Interactions, Candida albicans - growth and development - immunology, Antibody, Research Article, Antigens, Fungal, QH301-705.5, Immunology, Protein Array Analysis, nitric-oxide, Heme, Biology, Microbiology, 03 medical and health sciences, Immune system, Antigen, Infectious Diseases/Fungal Infections, Virology, nf-kappa-b, Genetics, medicine, Humans, Molecular Biology, Antibodies, Fungal, 030304 developmental biology, 030306 microbiology, Convalescence, RC581-607, medicine.disease, biology.organism_classification, chlamydia-trachomatis infection, toll-like receptors, Immunoglobulin G, biology.protein, Parasitology, Immunologic diseases. Allergy, Biomarkers

Abstract

Candida albicans in the immunocompetent host is a benign member of the human microbiota. Though, when host physiology is disrupted, this commensal-host interaction can degenerate and lead to an opportunistic infection. Relatively little is known regarding the dynamics of C. albicans colonization and pathogenesis. We developed a C. albicans cell surface protein microarray to profile the immunoglobulin G response during commensal colonization and candidemia. The antibody response from the sera of patients with candidemia and our negative control groups indicate that the immunocompetent host exists in permanent host-pathogen interplay with commensal C. albicans. This report also identifies cell surface antigens that are specific to different phases (i.e. acute, early and mid convalescence) of candidemia. We identified a set of thirteen cell surface antigens capable of distinguishing acute candidemia from healthy individuals and uninfected hospital patients with commensal colonization. Interestingly, a large proportion of these cell surface antigens are involved in either oxidative stress or drug resistance. In addition, we identified 33 antigenic proteins that are enriched in convalescent sera of the candidemia patients. Intriguingly, we found within this subset an increase in antigens associated with heme-associated iron acquisition. These findings have important implications for the mechanisms of C. albicans colonization as well as the development of systemic infection., Author Summary Candida albicans has both a benign and pathogenic association with the human host. Previous to this study, little was known in regard to how the host humoral system responds to the commensal colonization of C. albicans, as well as the development of hematogenously disseminated candidiasis. We show using a C. albicans cell surface protein microarray that the immunocompetent host exists in permanent host-pathogen interplay with commensal C. albicans, and undergoes stage-specific antibody responses as the yeast transitions from a benign microbe to an opportunistic fungal pathogen. Also identified were serological signatures specific for acute and convalescent stages of candidemia. Our findings provide new insight in the characterization of potential serodiagnostic antigens and vaccine candidates to the opportunistic pathogen C. albicans.

Published

2010

28. The deadly chytrid fungus: a story of an emerging pathogen

Author

Thomas J. Poorten, Jamie Voyles, Erica Bree Rosenblum, and Jason E. Stajich

Subjects

0106 biological sciences, Amphibian, lcsh:Immunologic diseases. Allergy, Zoospore, Immunology, Population, Fungus, 010603 evolutionary biology, 01 natural sciences, Microbiology, Pearls, Amphibians, 03 medical and health sciences, Infectious Diseases/Fungal Infections, Virology, biology.animal, Genetics, Animals, Colonization, Chytridiomycosis, education, Molecular Biology, Pathogen, lcsh:QH301-705.5, 030304 developmental biology, 0303 health sciences, education.field_of_study, biology, Ecology, Fungi, Outbreak, biology.organism_classification, 3. Good health, Mycoses, lcsh:Biology (General), 13. Climate action, Parasitology, lcsh:RC581-607

Abstract

[Extract] Emerging infectious diseases present a great challenge for the health of both humans and wildlife. The increasing prevalence of drug-resistant fungal pathogens in humans [1] and recent outbreaks of novel fungal pathogens in wildlife populations [2] underscore the need to better understand the origins and mechanisms of fungal pathogenicity. One of the most dramatic examples of fungal impacts on vertebrate populations is the effect of the amphibian disease chytridiomycosis, caused by the chytrid fungus Batrachochytrium dendrobatidis (Bd). Amphibians around the world are experiencing unprecedented population losses and local extinctions [3]. While there are multiple causes of amphibian declines, many catastrophic die-offs are attributed to Bd [4],[5]. The chytrid pathogen has been documented in hundreds of amphibian species, and reports of Bd's impact on additional species and in additional geographic regions are accumulating at an alarming rate (e.g., see http://www.spatialepidemiology.net/bd). Bd is a microbial, aquatic fungus with distinct life stages. The motile stage, called a zoospore, swims using a flagellum and initiates the colonization of frog skin. Within the host epidermal cells, a zoospore forms a spherical thallus, which matures and produces new zoospores by dividing asexually, renewing the cycle of infection when zoospores are released to the skin surface (Figure 1). Bd is considered an emerging pathogen, discovered and described only a decade ago [6],[7]. Despite intensive ecological study of Bd over the last decade, a number of unanswered questions remain. Here we summarize what has been recently learned about this lethal pathogen.

Published

2010

29. Generation of IL-23 Producing Dendritic Cells (DCs) by Airborne Fungi Regulates Fungal Pathogenicity via the Induction of TH-17 Responses

Author

Josh Gregorio, Michel Gilliet, Dipyaman Ganguly, Roberto Lande, Dimitrios P. Kontoyiannis, Stephan Meller, William E. Goldman, and Georgios Chamilos

Subjects

beta-Glucans, Air Microbiology, lcsh:Medicine, Microbiology/Innate Immunity, Nerve Tissue Proteins, Fungus, Biology, Interleukin-23, Microbiology, Cell wall, Immune system, Immunity, Infectious Diseases/Fungal Infections, Histoplasma, Immunology/Immunity to Infections, Humans, Lectins, C-Type, lcsh:Science, Cells, Cultured, Multidisciplinary, lcsh:R, Fungi, Membrane Proteins, Dendritic Cells, Acquired immune system, biology.organism_classification, Mycoses, Cell culture, Leukocytes, Mononuclear, Th17 Cells, lcsh:Q, Signal transduction, Research Article

Abstract

Interleukin-17 (IL-17) producing T helper cells (T(H)-17) comprise a newly recognized T cell subset with an emerging role in adaptive immunity to a variety of fungi. Whether different airborne fungi trigger a common signaling pathway for T(H)-17 induction, and whether this ability is related to the inherent pathogenic behavior of each fungus is currently unknown. Here we show that, as opposed to primary pathogenic fungi (Histoplasma capsulatum), opportunistic fungal pathogens (Aspergillus and Rhizopus) trigger a common innate sensing pathway in human dendritic cells (DCs) that results in robust production of IL-23 and drives T(H)-17 responses. This response requires activation of dectin-1 by the fungal cell wall polysaccharide b-glucan that is selectively exposed during the invasive growth of opportunistic fungi. Notably, unmasking of b-glucan in the cell wall of a mutant of Histoplasma not only abrogates the pathogenicity of this fungus, but also triggers the induction of IL-23 producing DCs. Thus, b-glucan exposure in the fungal cell wall is essential for the induction of IL-23/T(H)-17 axis and may represent a key factor that regulates protective immunity to opportunistic but not pathogenic fungi.

Published

2010

30. Microsatellite typing of clinical and environmental Cryptococcus neoformans var. grubii isolates from Cuba shows multiple genetic lineages

Author

Maria-Teresa Illnait-Zaragozi, Corné H. W. Klaassen, Teun Boekhout, Carlos Manuel Fernández-Andreu, Jacques F. Meis, and Gerardo Martínez-Machín

Subjects

Genotype, Cryptococcus, lcsh:Medicine, Molecular Biology/Molecular Evolution, Infectious Diseases/Fungal Infections, Genetic variation, Cluster Analysis, Humans, Typing, Amplified Fragment Length Polymorphism Analysis, DNA, Fungal, Mycological Typing Techniques, lcsh:Science, Phylogeny, Cryptococcus neoformans, Genetics, Polymorphism, Genetic, Multidisciplinary, Geography, biology, lcsh:R, Cuba, Electrophoresis, Capillary, Genetic Variation, Microbiology/Medical Microbiology, Pathogenesis and modulation of inflammation Infection and autoimmunity [N4i 1], Cryptococcosis, biology.organism_classification, Genetic marker, Microsatellite, lcsh:Q, Amplified fragment length polymorphism, Microsatellite Repeats, Research Article

Abstract

Contains fulltext : 124338.pdf (Publisher’s version ) (Open Access) BACKGROUND: Human cryptococcal infections have been associated with bird droppings as a likely source of infection. Studies toward the local and global epidemiology of Cryptococcus spp. have been hampered by the lack of rapid, discriminatory, and exchangeable molecular typing methods. METHODOLOGY/PRINCIPAL FINDINGS: We selected nine microsatellite markers for high-resolution fingerprinting from the genome of C. neoformans var. grubii. This panel of markers was applied to a collection of clinical (n = 122) and environmental (n = 68; from pigeon guano) C. neoformans var. grubii isolates from Cuba. All markers proved to be polymorphic. The average number of alleles per marker was 9 (range 5-51). A total of 104 genotypes could be distinguished. The discriminatory power of this panel of markers was 0.993. Multiple clusters of related genotypes could be discriminated that differed in only one or two microsatellite markers. These clusters were assigned as microsatellite complexes. The majority of environmental isolates (>70%) fell into 1 microsatellite complex containing only few clinical isolates (49 environmental versus 2 clinical). Clinical isolates were segregated over multiple microsatellite complexes. CONCLUSIONS/SIGNIFICANCE: A large genotypic variation exists in C. neoformans var. grubii. The genotypic segregation between clinical and environmental isolates from pigeon guano suggests additional source(s) of human cryptococcal infections. The selected panel of microsatellite markers is an excellent tool to study the epidemiology of C. neoformans var. grubii.

Published

2010

31. Emergence and pathogenicity of highly virulent Cryptococcus gattii genotypes in the northwest United States

Author

Dee A. Carter, Ping Ren, Robert J. Bildfell, Vishnu Chaturvedi, Edmond J. Byrnes, Wenjun Li, Robin C. May, Kerstin Voelz, Joseph Heitman, Hansong Ma, Yonathan Lewit, Ma, Hansong [0000-0002-2705-1970], and Apollo - University of Cambridge Repository

Subjects

Northwestern United States, Genotype, QH301-705.5, Immunology, Population, Virulence, Polymerase Chain Reaction, Microbiology, Disease Outbreaks, 03 medical and health sciences, Mice, Infectious Diseases/Fungal Infections, Virology, Genetics, medicine, Animals, Cluster Analysis, Humans, Biology (General), education, Cryptococcus gattii, Molecular Biology, 030304 developmental biology, 0303 health sciences, education.field_of_study, Molecular Epidemiology, Molecular epidemiology, biology, 030306 microbiology, Outbreak, Genetics and Genomics, Cryptococcosis, RC581-607, biology.organism_classification, medicine.disease, 3. Good health, Mitochondria, Multilocus sequence typing, Parasitology, Female, Immunologic diseases. Allergy, Research Article

Abstract

Cryptococcus gattii causes life-threatening disease in otherwise healthy hosts and to a lesser extent in immunocompromised hosts. The highest incidence for this disease is on Vancouver Island, Canada, where an outbreak is expanding into neighboring regions including mainland British Columbia and the United States. This outbreak is caused predominantly by C. gattii molecular type VGII, specifically VGIIa/major. In addition, a novel genotype, VGIIc, has emerged in Oregon and is now a major source of illness in the region. Through molecular epidemiology and population analysis of MLST and VNTR markers, we show that the VGIIc group is clonal and hypothesize it arose recently. The VGIIa/IIc outbreak lineages are sexually fertile and studies support ongoing recombination in the global VGII population. This illustrates two hallmarks of emerging outbreaks: high clonality and the emergence of novel genotypes via recombination. In macrophage and murine infections, the novel VGIIc genotype and VGIIa/major isolates from the United States are highly virulent compared to similar non-outbreak VGIIa/major-related isolates. Combined MLST-VNTR analysis distinguishes clonal expansion of the VGIIa/major outbreak genotype from related but distinguishable less-virulent genotypes isolated from other geographic regions. Our evidence documents emerging hypervirulent genotypes in the United States that may expand further and provides insight into the possible molecular and geographic origins of the outbreak., Author Summary Emerging and reemerging infectious diseases are increasing worldwide and represent a major public health concern. One class of emerging human and animal diseases is caused by fungi. In this study, we examine the expansion on an outbreak of a fungus, Cryptococcus gattii, in the Pacific Northwest of the United States. This fungus has been considered a tropical fungus, but emerged to cause an outbreak in the temperate climes of Vancouver Island in 1999 that is now causing disease in humans and animals in the United States. In this study we applied a method of sequence bar-coding to determine how the isolates causing disease are related to those on Vancouver Island and elsewhere globally. We also expand on the discovery of a new pathogenic strain recently identified only in Oregon and show that it is highly virulent in immune cell and whole animal virulence experiments. These studies extend our understanding of how diseases emerge in new climates and how they adapt to these regions to cause disease. Our findings suggest further expansion into neighboring regions is likely to occur and aim to increase disease awareness in the region.

Published

2009

32. A phenotypic profile of the Candida albicans regulatory network

Author

Jeanselle Dea, Alexander D. Johnson, Oliver R. Homann, Suzanne M. Noble, and Copenhaver, Gregory P

Subjects

Cancer Research, Transcription, Genetic, Colony Count, Gene regulatory network, Colony Count, Microbial, Gene Knockout Techniques, Microbial, Models, Candida albicans, Databases, Genetic, Transcriptional regulation, 2.1 Biological and endogenous factors, Homeostasis, Genomic library, Gene Regulatory Networks, Aetiology, Genetics (clinical), Regulation of gene expression, Genetics, 0303 health sciences, biology, Genetics and Genomics/Gene Expression, Phenotype, Genetics and Genomics/Gene Function, Infectious Diseases, Transcription, Research Article, lcsh:QH426-470, Saccharomyces cerevisiae, Models, Biological, 03 medical and health sciences, Databases, Genetic, Infectious Diseases/Fungal Infections, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Gene knockout, 030304 developmental biology, Gene Library, Evolutionary Biology/Evolutionary and Comparative Genetics, 030306 microbiology, biology.organism_classification, Biological, lcsh:Genetics, Evolutionary Biology/Morphogenesis and Cell Biology, Developmental Biology

Abstract

Candida albicans is a normal resident of the gastrointestinal tract and also the most prevalent fungal pathogen of humans. It last shared a common ancestor with the model yeast Saccharomyces cerevisiae over 300 million years ago. We describe a collection of 143 genetically matched strains of C. albicans, each of which has been deleted for a specific transcriptional regulator. This collection represents a large fraction of the non-essential transcription circuitry. A phenotypic profile for each mutant was developed using a screen of 55 growth conditions. The results identify the biological roles of many individual transcriptional regulators; for many, this work represents the first description of their functions. For example, a quarter of the strains showed altered colony formation, a phenotype reflecting transitions among yeast, pseudohyphal, and hyphal cell forms. These transitions, which have been closely linked to pathogenesis, have been extensively studied, yet our work nearly doubles the number of transcriptional regulators known to influence them. As a second example, nearly a quarter of the knockout strains affected sensitivity to commonly used antifungal drugs; although a few transcriptional regulators have previously been implicated in susceptibility to these drugs, our work indicates many additional mechanisms of sensitivity and resistance. Finally, our results inform how transcriptional networks evolve. Comparison with the existing S. cerevisiae data (supplemented by additional S. cerevisiae experiments reported here) allows the first systematic analysis of phenotypic conservation by orthologous transcriptional regulators over a large evolutionary distance. We find that, despite the many specific wiring changes documented between these species, the general phenotypes of orthologous transcriptional regulator knockouts are largely conserved. These observations support the idea that many wiring changes affect the detailed architecture of the circuit, but not its overall output., Author Summary A key goal in the understanding of the biology of an organism is the description of the regulatory networks that control the expression of its genes. Changes in gene expression result in new cellular phenotypes that can be acted upon by evolutionary forces to influence the configuration of these networks. We have developed a phenotypic description of the transcriptional regulatory networks of the major fungal pathogen of humans, Candida albicans, by individually deleting genes that encode transcriptional regulators and observing the resulting phenotypes in a variety of environmental conditions. This approach provides insight into the biological roles of many previously uncharacterized regulators, and allows us to assign groups of regulators to specific biological roles, many of which are relevant to pathogenesis. For example, we identified groups of regulators that influenced sensitivity to antifungal drugs, the ability to acquire iron (a challenge for organisms in a human host), and the ability to form complex multi-cellular colonies. Our results also allow us to analyze how the phenotypes associated with transcriptional regulators change as organisms diverge. A comparison of C. albicans data with that from the well-characterized yeast S. cerevisiae revealed strong phenotypic conservation between related transcriptional regulators, despite the more than 300 million years which separate the species.

Published

2009

33. Fatty acid synthase impacts the pathobiology of Candida parapsilosis in vitro and during mammalian infection

Author

Long N. Nguyen, David P. Trofa, and Joshua D. Nosanchuk

Subjects

Serum, Fatty Acid Synthases, Transcription, Genetic, Myristic acid, lcsh:Medicine, Microbial Sensitivity Tests, Candida parapsilosis, Microbiology, Palmitic acid, Mice, chemistry.chemical_compound, Infectious Diseases/Fungal Infections, Stress, Physiological, Gene Expression Regulation, Fungal, Animals, Humans, lcsh:Science, Unsaturated fatty acid, Candida, Microbial Viability, Multidisciplinary, biology, Genetics and Genomics/Functional Genomics, Macrophages, Fatty Acids, Homozygote, lcsh:R, Candidiasis, Fungal genetics, biology.organism_classification, Carbon, Culture Media, Cerulenin, Fatty acid synthase, Infectious Diseases, chemistry, Biochemistry, Biofilms, biology.protein, Female, lcsh:Q, Gene Deletion, Research Article

Abstract

Cytosolic fungal fatty acid synthase is composed of two subunits alpha and beta, which are encoded by Fas1 and Fas2 genes. In this study, the Fas2 genes of the human pathogen Candida parapsilosis were deleted using a modified SAT1 flipper technique. CpFas2 was essential in media lacking exogenous fatty acids and the growth of Fas2 disruptants (Fas2 KO) was regulated by the supplementation of different long chain fatty acids, such as myristic acid (14ratio0), palmitic acid (16ratio0), and Tween 80, in a dose-specific manner. Lipidomic analysis revealed that Fas2 KO cells were severely restricted in production of unsaturated fatty acids. The Fas2 KO strains were unable to form normal biofilms and were more efficiently killed by murine-like macrophages, J774.16, than the wild type, heterozygous and reconstituted strains. Furthermore, Fas2 KO yeast were significantly less virulent in a systemic murine infection model. The Fas2 KO cells were also hypersensitive to human serum, and inhibition of CpFas2 in WT C. parapsilosis by cerulenin significantly decreased fungal growth in human serum. This study demonstrates that CpFas2 is essential for C. parapsilosis growth in the absence of exogenous fatty acids, is involved in unsaturated fatty acid production, influences fungal virulence, and represents a promising antifungal drug target.

Published

2009

34. Homeobox transcription factors are required for conidiation and appressorium development in the rice blast fungus Magnaporthe oryzae

Author

Kyoung Su Kim, Jaejin Park, Jaehyuk Choi, Hee Sool Rho, Jaeduk Goh, Seryun Kim, Sook-Young Park, Myoung-Hwan Chi, Jongsun Park, Yong-Hwan Lee, and Sunghyung Kong

Subjects

Hyphal growth, Cancer Research, Magnaporthe, Transcription, Genetic, lcsh:QH426-470, Genes, Fungal, Germ tube, Conidiation, Conidium, Fungal Proteins, Transformation, Genetic, Infectious Diseases/Fungal Infections, Gene Expression Regulation, Fungal, Genetics, Cyclic AMP, Molecular Biology, Genetics (clinical), Ecology, Evolution, Behavior and Systematics, Phylogeny, Plant Diseases, Homeodomain Proteins, Appressorium, Fungal protein, biology, fungi, Fungal genetics, Oryza, Spores, Fungal, biology.organism_classification, Cell biology, Genetics and Genomics/Gene Function, lcsh:Genetics, Phenotype, Developmental Biology/Cell Differentiation, Calcium, Cell Biology/Morphogenesis and Cell Biology, Microbiology/Cellular Microbiology and Pathogenesis, Gene Deletion, Signal Transduction, Transcription Factors, Research Article

Abstract

The appropriate development of conidia and appressoria is critical in the disease cycle of many fungal pathogens, including Magnaporthe oryzae. A total of eight genes (MoHOX1 to MoHOX8) encoding putative homeobox transcription factors (TFs) were identified from the M. oryzae genome. Knockout mutants for each MoHOX gene were obtained via homology-dependent gene replacement. Two mutants, ΔMohox3 and ΔMohox5, exhibited no difference to wild-type in growth, conidiation, conidium size, conidial germination, appressorium formation, and pathogenicity. However, the ΔMohox1 showed a dramatic reduction in hyphal growth and increase in melanin pigmentation, compared to those in wild-type. ΔMohox4 and ΔMohox6 showed significantly reduced conidium size and hyphal growth, respectively. ΔMohox8 formed normal appressoria, but failed in pathogenicity, probably due to defects in the development of penetration peg and invasive growth. It is most notable that asexual reproduction was completely abolished in ΔMohox2, in which no conidia formed. ΔMohox2 was still pathogenic through hypha-driven appressoria in a manner similar to that of the wild-type. However, ΔMohox7 was unable to form appressoria either on conidial germ tubes, or at hyphal tips, being non-pathogenic. These factors indicate that M. oryzae is able to cause foliar disease via hyphal appressorium-mediated penetration, and MoHOX7 is mutually required to drive appressorium formation from hyphae and germ tubes. Transcriptional analyses suggest that the functioning of M. oryzae homeobox TFs is mediated through the regulation of gene expression and is affected by cAMP and Ca2+ signaling and/or MAPK pathways. The divergent roles of this gene set may help reveal how the genome and regulatory pathways evolved within the rice blast pathogen and close relatives., Author Summary Pathogens have evolved diverse strategies to cause disease. Magnaporthe oryzae is the fungal phytopathogen that causes rice blast and is considered an important model for understanding mechanisms in fungal development and pathogenicity. Asexual reproduction and infection-related development play key roles in M. oryzae disease development. The conidium of M. oryzae differentiates a specialized structure, an appressorium. The appressorium generates turgor pressure that allows penetration through the mechanical rupture of host cuticle layers. After colonizing host cells, the fungus produces massive conidia via conidiogenesis, serving as secondary propagules for the polycyclic disease. To elucidate molecular mechanisms in asexual reproduction and appressorium-mediated disease development, we identified eight homeobox transcription factors through a genome-wide in silico analysis. Characterization using deletion mutants revealed that each homeobox TF functions as a stage-specific regulator for conidial shape, hyphal growth, conidiation, appressorium development, and invasive growth during M. oryzae development. Notably, conidiation and appressorium development were entirely abolished in ΔMohox2 and ΔMohox7, respectively. This study also provides evidence that M. oryzae is able to cause rice blast by means of hypha-driven appressoria upon responses to host signaling factors. This study will aid in the understanding of regulatory networks associated with fungal development and pathogenicity.

Published

2009

35. Th1-Th17 cells mediate protective adaptive immunity against Staphylococcus aureus and Candida albicans infection in mice

Author

Ashraf S. Ibrahim, Valentina Avanesian, Brad Spellberg, Joshua M. Farber, Lin Lin, Samuel W. French, Yue Fu, John E. Edwards, Xin Xu, Beverlie Baquir, and May, Robin Charles

Subjects

and promotion of well-being, Aluminum Hydroxide, Adaptive Immunity, medicine.disease_cause, Inbred C57BL, Infectious Diseases/Bacterial Infections, Mice, T-Lymphocyte Subsets, Immunologic, Candida albicans, 2.1 Biological and endogenous factors, Aetiology, lcsh:QH301-705.5, Inbred BALB C, Mice, Inbred BALB C, 0303 health sciences, Vaccines, Interleukin-17, Candidiasis, Staphylococcal Infections, Acquired immune system, Adoptive Transfer, Corpus albicans, 3. Good health, Vaccination, Infectious Diseases, 3.4 Vaccines, Staphylococcus aureus, Medical Microbiology, HIV/AIDS, Female, Infection, Research Article, Biotechnology, lcsh:Immunologic diseases. Allergy, Immunology, Biology, Staphylococcal infections, Microbiology, Fungal Proteins, Vaccine Related, 03 medical and health sciences, Interferon-gamma, Adjuvants, Immunologic, Infectious Diseases/Fungal Infections, Immunity, Immunology/Immunity to Infections, Virology, Genetics, medicine, Animals, Adjuvants, Molecular Biology, 030304 developmental biology, Fungal vaccine, 030306 microbiology, Prevention, Inflammatory and immune system, Th1 Cells, biology.organism_classification, medicine.disease, Prevention of disease and conditions, Mice, Inbred C57BL, Emerging Infectious Diseases, Good Health and Well Being, lcsh:Biology (General), Parasitology, Immunization, Fungal Vaccines, lcsh:RC581-607

Abstract

We sought to define protective mechanisms of immunity to Staphylococcus aureus and Candida albicans bloodstream infections in mice immunized with the recombinant N-terminus of Als3p (rAls3p-N) vaccine plus aluminum hydroxide (Al(OH3) adjuvant, or adjuvant controls. Deficiency of IFN-γ but not IL-17A enhanced susceptibility of control mice to both infections. However, vaccine-induced protective immunity against both infections required CD4+ T-cell-derived IFN-γ and IL-17A, and functional phagocytic effectors. Vaccination primed Th1, Th17, and Th1/17 lymphocytes, which produced pro-inflammatory cytokines that enhanced phagocytic killing of both organisms. Vaccinated, infected mice had increased IFN-γ, IL-17, and KC, increased neutrophil influx, and decreased organism burden in tissues. In summary, rAls3p-N vaccination induced a Th1/Th17 response, resulting in recruitment and activation of phagocytes at sites of infection, and more effective clearance of S. aureus and C. albicans from tissues. Thus, vaccine-mediated adaptive immunity can protect against both infections by targeting microbes for destruction by innate effectors., Author Summary The bacterium Staphylococcus aureus and the fungus Candida are the second and third leading cause of bloodstream infections in hospitalized patients. A vaccine to prevent such infections would be of enormous public health benefit. The leading hypothesis to explain why vaccines have not been successfully developed against these infections is that the microbes causing the infections are highly complex, and use multiple weapons (so-called “virulence factors”) to cause disease in humans. Therefore, a vaccine targeting either infection would have to neutralize many of these virulence factors at the same time. We have been developing a vaccine that simultaneously targets both types of infections. Our vaccine is based on a single virulence factor used by Candida, which has a similar shape to virulence factors used by S. aureus. In the current study, we report that our vaccine induces specialized cells in the immune system to more effectively call in reinforcements to kill the organisms. These data demonstrate that vaccines against both organisms can be developed even if they do not work by neutralizing multiple virulence factors, and therefore open the door to a far wider array of vaccine types against both infections.

Published

2009

36. Expression Profiling the Temperature-Dependent Amphibian Response to Infection by Batrachochytrium dendrobatidis

Author

Jacques Robert, Ming-Shi Li, Matthew C. Fisher, Trenton W. J. Garner, Laia Ribas, Judith Anna Seidel, Lyle B. Zimmerman, Benjamin J. Doddington, Nicholas C. Grassly, J. Simon Kroll, Natural Environment Research Council (NERC), and Biotechnology and Biological Sciences Research Cou

Subjects

0106 biological sciences, ACTIVE PEPTIDES, Xenopus, lcsh:Medicine, 01 natural sciences, ANTIMICROBIAL PEPTIDE DEFENSES, PATHOGEN, lcsh:Science, Silurana, Oligonucleotide Array Sequence Analysis, 0303 health sciences, Multidisciplinary, biology, Reverse Transcriptase Polymerase Chain Reaction, Temperature, Genetics and Genomics/Gene Expression, RANA-ESCULENTA, Acquired immune system, Chytridiomycota, Science & Technology - Other Topics, Female, Research Article, Amphibian, General Science & Technology, XENOPUS-TROPICALIS, MICROARRAY EXPERIMENTS, 010603 evolutionary biology, Models, Biological, 03 medical and health sciences, Immune system, Immunity, Infectious Diseases/Fungal Infections, biology.animal, Immunology/Immunity to Infections, MD Multidisciplinary, Animals, Chytridiomycosis, CHYTRIDIOMYCOSIS, 030304 developmental biology, Science & Technology, Innate immune system, MULTIDISCIPLINARY SCIENCES, Gene Expression Profiling, lcsh:R, Reproducibility of Results, CHYTRID FUNGUS, biology.organism_classification, DECLINES, Mycoses, Immunology, lcsh:Q, SKIN

Abstract

Amphibians are experiencing a panzootic of unprecedented proportions caused by the emergence of Batrachochytrium dendrobatidis (Bd). However, all species are not equally at risk of infection, and risk is further modified by environmental variables, specifically temperature. In order to understand how, and when, hosts mount a response to Bd we analysed infection dynamics and patterns of gene expression in the model amphibian species Silurana (Xenopus) tropicalis. Mathematical modelling of infection dynamics demonstrate the existence of a temperature-dependent protective response that is largely independent of the intrinsic growth-rate of Bd. Using temporal expression-profiling by microarrays and qRT-PCR, we characterise this response in the main amphibian lymphoid tissue, the spleen. We demonstrate that clearance of Bd at the host-optimal temperature is not clearly associated with an adaptive immune response, but rather is correlated with the induction of components of host innate immunity including the expression of genes that are associated with the production of the antimicrobial skin peptide preprocareulein (PPCP) as well as inflammatory responses. We find that adaptive immunity appears to be lacking at host-optimal temperatures. This suggests that either Bd does not stimulate, or suppresses, adaptive immunity, or that trade-offs exist between innate and adaptive limbs of the amphibian immune system. At cold temperatures, S. tropicalis loses the ability to mount a PPCP-based innate response, and instead manifests a more pronounced inflammatory reaction that is characterised by the production of proteases and higher pathogen burdens. This study demonstrates the temperature-dependency of the amphibian response to infection by Bd and indicates the influence that changing climates may exert on the ectothermic host response to pathogens.

Published

2009

37. Rational mutational analysis of a multidrug MFS transporter CaMdr1p of Candida albicans by employing a membrane environment based computational approach

Author

Ritu Pasrija, Andrew M. Lynn, Ajeeta Kaushiki, Mohd Rehan, Khyati Kapoor, and Rajendra Prasad

Subjects

ATP Binding Cassette Transporter, Subfamily B, Mutant, DNA Mutational Analysis, Molecular Sequence Data, Sequence alignment, Plasma protein binding, Computational Biology/Protein Structure Prediction, Biology, Models, Biological, Cellular and Molecular Neuroscience, Structure-Activity Relationship, Infectious Diseases/Fungal Infections, Candida albicans, Genetics, Computer Simulation, Amino Acid Sequence, Molecular Biology, Peptide sequence, lcsh:QH301-705.5, Ecology, Evolution, Behavior and Systematics, Multiple sequence alignment, Binding Sites, Ecology, Infectious Diseases/Antimicrobials and Drug Resistance, Cell Membrane, Transmembrane protein, Computational Theory and Mathematics, Membrane protein, Biochemistry, lcsh:Biology (General), Modeling and Simulation, Computational Biology/Sequence Motif Analysis, Protein Binding, Research Article

Abstract

CaMdr1p is a multidrug MFS transporter of pathogenic Candida albicans. An over-expression of the gene encoding this protein is linked to clinically encountered azole resistance. In-depth knowledge of the structure and function of CaMdr1p is necessary for an effective design of modulators or inhibitors of this efflux transporter. Towards this goal, in this study, we have employed a membrane environment based computational approach to predict the functionally critical residues of CaMdr1p. For this, information theoretic scores which are variants of Relative Entropy (Modified Relative Entropy REM) were calculated from Multiple Sequence Alignment (MSA) by separately considering distinct physico-chemical properties of transmembrane (TM) and inter-TM regions. The residues of CaMdr1p with high REM which were predicted to be significantly important were subjected to site-directed mutational analysis. Interestingly, heterologous host Saccharomyces cerevisiae, over-expressing these mutant variants of CaMdr1p wherein these high REM residues were replaced by either alanine or leucine, demonstrated increased susceptibility to tested drugs. The hypersensitivity to drugs was supported by abrogated substrate efflux mediated by mutant variant proteins and was not attributed to their poor expression or surface localization. Additionally, by employing a distance plot from a 3D deduced model of CaMdr1p, we could also predict the role of these functionally critical residues in maintaining apparent inter-helical interactions to provide the desired fold for the proper functioning of CaMdr1p. Residues predicted to be critical for function across the family were also found to be vital from other previously published studies, implying its wider application to other membrane protein families., Author Summary Membrane proteins belonging to the Major Facilitator Superfamily (MFS) transport molecules, including drugs, across the membrane and are known to be associated with drug resistance. CaMdr1p is one such MFS major multidrug efflux pump whose over-expression is linked to frequently encountered azole resistance in hospital isolates of C. albicans. Amino acid residues critical for a protein's function are conserved across members of the protein family. However, the traditional measure of conservation is not a useful parameter in mapping a functionally important residue in membrane proteins e.g., hydrophobically conserved stretches form helical transmembrane regions of the protein and are responsible for membrane localization, which individually have limited effect on binding and transport. We have developed a method that uses information theory to score the conservation of a residue relative to its context within the membrane and hypothesize that these residues would be critical for the protein's function. The relevance of predicted residues in the functioning of MFS is validated on CaMdr1p.

Published

2009

38. In vivo yeast cell morphogenesis is regulated by a p21-activated kinase in the human pathogen Penicillium marneffei

Author

Alex Andrianopoulos, Kylie J. Boyce, and Lena Schreider

Subjects

Hyphal growth, lcsh:Immunologic diseases. Allergy, Immunology, Saccharomyces cerevisiae, Microbiology, Cell Biology/Microbial Growth and Development, Infectious Diseases/Fungal Infections, Virology, Genetics, Humans, Molecular Biology, lcsh:QH301-705.5, Microbiology/Microbial Growth and Development, biology, Effector, Cell morphogenesis, Macrophages, Penicillium, Temperature, Microbiology/Medical Microbiology, biology.organism_classification, Yeast, Cell biology, Genetics and Genomics/Gene Function, p21-Activated Kinases, lcsh:Biology (General), Host-Pathogen Interactions, Parasitology, Cell Biology/Morphogenesis and Cell Biology, Penicillium marneffei, Signal transduction, lcsh:RC581-607, Dimorphic fungus, Research Article, Signal Transduction

Abstract

Pathogens have developed diverse strategies to infect their hosts and evade the host defense systems. Many pathogens reside within host phagocytic cells, thus evading much of the host immune system. For dimorphic fungal pathogens which grow in a multicellular hyphal form, a central attribute which facilitates growth inside host cells without rapid killing is the capacity to switch from the hyphal growth form to a unicellular yeast form. Blocking this transition abolishes or severely reduces pathogenicity. Host body temperature (37°C) is the most common inducer of the hyphal to yeast transition in vitro for many dimorphic fungi, and it is often assumed that this is the inducer in vivo. This work describes the identification and analysis of a new pathway involved in sensing the environment inside a host cell by a dimorphic fungal pathogen, Penicillium marneffei. The pakB gene, encoding a p21-activated kinase, defines this pathway and operates independently of known effectors in P. marneffei. Expression of pakB is upregulated in P. marneffei yeast cells isolated from macrophages but absent from in vitro cultured yeast cells produced at 37°C. Deletion of pakB leads to a failure to produce yeast cells inside macrophages but no effect in vitro at 37°C. Loss of pakB also leads to the inappropriate production of yeast cells at 25°C in vitro, and the mechanism underlying this requires the activity of the central regulator of asexual development. The data shows that this new pathway is central to eliciting the appropriate morphogenetic response by the pathogen to the host environment independently of the common temperature signal, thus clearly separating the temperature- and intracellular-dependent signaling systems., Author Summary Dimorphic fungal pathogens pose significant health and agricultural problems worldwide. These fungi have the capacity to switch between a multicellular hyphal growth form and a unicellular yeast growth form. Often one form is pathogenic, found in infected hosts, and the other is not. Many dimorphic fungal pathogens of humans produce the yeast form during infection and this form resides within host phagocytic immune cells, where it can tolerate killing by these cells and is not exposed to the acquired immune system. Inhibiting the pathogen's ability to switch growth forms has been shown to block pathogenicity. This study identifies a pathway used by the fungal pathogen to sense the host and switch to the appropriate growth form. This study provides new insights into the molecular mechanisms which are important for pathogenicity and may identify factors which can be targeted to block the ability of the pathogen to successfully reside within host cells.

Published

2009

39. Reverse genetics in Candida albicans predicts ARF cycling is essential for drug resistance and virulence

Author

Ghyslaine Vanier, Michael Hallett, Don C. Sheppard, David Y. Thomas, Malcolm Whiteway, Doreen Harcus, Anna Y. Lee, Elias Epp, Alaka Mullick, Gregor Jansen, and Carol A. Munro

Subjects

Antifungal Agents, Gene Expression, Drug resistance, chemistry.chemical_compound, Mice, Candida albicans, lcsh:QH301-705.5, Pathogen, Fluconazole, Oligonucleotide Array Sequence Analysis, 0303 health sciences, biology, Virulence, ADP-Ribosylation Factors, Fungal genetics, Drug Synergism, Brefeldin A, Corpus albicans, 3. Good health, Drug Therapy, Combination, Genetics and Genomics/Gene Discovery, Biochemistry/Drug Discovery, medicine.drug, Research Article, lcsh:Immunologic diseases. Allergy, Immunology, Microbiology, 03 medical and health sciences, Drug Resistance, Fungal, Infectious Diseases/Fungal Infections, Virology, Two-Hybrid System Techniques, Chemical Biology, Genetics, medicine, Animals, Molecular Biology, 030304 developmental biology, 030306 microbiology, Pharmacology/Drug Resistance, biology.organism_classification, lcsh:Biology (General), chemistry, Parasitology, lcsh:RC581-607

Abstract

Candida albicans, the major fungal pathogen of humans, causes life-threatening infections in immunocompromised individuals. Due to limited available therapy options, this can frequently lead to therapy failure and emergence of drug resistance. To improve current treatment strategies, we have combined comprehensive chemical-genomic screening in Saccharomyces cerevisiae and validation in C. albicans with the goal of identifying compounds that can couple with the fungistatic drug fluconazole to make it fungicidal. Among the genes identified in the yeast screen, we found that only AGE3, which codes for an ADP-ribosylation factor GTPase activating effector protein, abrogates fluconazole tolerance in C. albicans. The age3 mutant was more sensitive to other sterols and cell wall inhibitors, including caspofungin. The deletion of AGE3 in drug resistant clinical isolates and in constitutively active calcineurin signaling mutants restored fluconazole sensitivity. We confirmed chemically the AGE3-dependent drug sensitivity by showing a potent fungicidal synergy between fluconazole and brefeldin A (an inhibitor of the guanine nucleotide exchange factor for ADP ribosylation factors) in wild type C. albicans as well as in drug resistant clinical isolates. Addition of calcineurin inhibitors to the fluconazole/brefeldin A combination only initially improved pathogen killing. Brefeldin A synergized with different drugs in non-albicans Candida species as well as Aspergillus fumigatus. Microarray studies showed that core transcriptional responses to two different drug classes are not significantly altered in age3 mutants. The therapeutic potential of inhibiting ARF activities was demonstrated by in vivo studies that showed age3 mutants are avirulent in wild type mice, attenuated in virulence in immunocompromised mice and that fluconazole treatment was significantly more efficacious when ARF signaling was genetically compromised. This work describes a new, widely conserved, broad-spectrum mechanism involved in fungal drug resistance and virulence and offers a potential route for single or improved combination therapies., Author Summary Candida albicans is a fungus that normally resides as part of the microflora in the human gut. Candida species can cause superficial infections like thrush in the healthy human population and life-threatening invasive infections in immunocompromised patients. Fungal infections are often treated with azole drugs, but due to the fungistatic nature of these agents, C. albicans can develop drug resistance, leading to therapy failure. To improve the action of azoles and convert them into fungicidal drugs, we first systematically analyzed the genetic requirements for tolerance to one such azole drug, fluconazole. We show, both genetically and pharmacologically, that components of the ARF cycling machinery are critical in mediating both azole and echinocandin tolerance in C. albicans as well as several other pathogenic Candida species and in the pathogenic mold Aspergillus fumigatus. We highlight the importance of ARF cycling in drug resistance by showing that genetic compromise of ARF functions overrides common drug resistance mechanisms in clinical samples and other key regulators of azole/echinocandin tolerance. We validated the therapeutic potential of ARF cycling in two mouse models and provide evidence that drug treatment is more efficacious when ARF activities are genetically compromised. Our study demonstrates a new mechanism involved in two important aspects of the biology of human fungal pathogens and provides a potential route for improved antifungal therapies.

Published

2009

40. The human fungal pathogen Cryptococcus neoformans escapes macrophages by a phagosome emptying mechanism that is inhibited by Arp2/3 complex-mediated actin polymerisation

Author

Robin C. May and Simon A. Johnston

Subjects

QH301-705.5, Phagocytosis, Immunology, Green Fluorescent Proteins, Cryptococcus, Arp2/3 complex, Microbiology/Innate Immunity, R Medicine (General), Microbiology, Actin-Related Protein 2-3 Complex, 03 medical and health sciences, Mice, Immune system, Infectious Diseases/Fungal Infections, Virology, Phagosomes, Cell Biology/Cytoskeleton, Genetics, Image Processing, Computer-Assisted, Animals, Humans, Biology (General), Cytoskeleton, Molecular Biology, Actin, 030304 developmental biology, Phagosome, Immune Evasion, Cryptococcus neoformans, 0303 health sciences, Microscopy, Confocal, biology, 030306 microbiology, Macrophages, QR Microbiology, Cryptococcosis, RC581-607, biology.organism_classification, Actins, 3. Good health, Cell biology, biology.protein, Parasitology, Immunologic diseases. Allergy, Research Article

Abstract

The lysis of infected cells by disease-causing microorganisms is an efficient but risky strategy for disseminated infection, as it exposes the pathogen to the full repertoire of the host's immune system. Cryptococcus neoformans is a widespread fungal pathogen that causes a fatal meningitis in HIV and other immunocompromised patients. Following intracellular growth, cryptococci are able to escape their host cells by a non-lytic expulsive mechanism that may contribute to the invasion of the central nervous system. Non-lytic escape is also exhibited by some bacterial pathogens and is likely to facilitate long-term avoidance of the host immune system during latency. Here we show that phagosomes containing intracellular cryptococci undergo repeated cycles of actin polymerisation. These actin ‘flashes’ occur in both murine and human macrophages and are dependent on classical WASP-Arp2/3 complex mediated actin filament nucleation. Three dimensional confocal imaging time lapse revealed that such flashes are highly dynamic actin cages that form around the phagosome. Using fluorescent dextran as a phagosome membrane integrity probe, we find that the non-lytic expulsion of Cryptococcus occurs through fusion of the phagosome and plasma membranes and that, prior to expulsion, 95% of phagosomes become permeabilised, an event that is immediately followed by an actin flash. By using pharmacological agents to modulate both actin dynamics and upstream signalling events, we show that flash occurrence is inversely related to cryptococcal expulsion, suggesting that flashes may act to temporarily inhibit expulsion from infected phagocytes. In conclusion, our data reveal the existence of a novel actin-dependent process on phagosomes containing cryptococci that acts as a potential block to expulsion of Cryptococcus and may have significant implications for the dissemination of, and CNS invasion by, this organism., Author Summary Cryptococcus neoformans is fatal fungal pathogen of HIV-positive and other immunocompromised patients that causes an estimated 650 000 deaths per annum. Cryptococcus is able to undermine our immune system by growing within and escaping from immune cells called macrophages. In this study we describe how macrophage cells may be able to prevent this escape by forming a transient ‘cage’ of the protein actin around the intracellular pathogen. Blocking escape from within the macrophage in this way may help prevent the spread of disease around the body, especially into the brain. Thus actin flashes may represent an important host defence against diverse human pathogens.

Published

2009

41. Neutrophil Extracellular Traps Contain Calprotectin, a Cytosolic Protein Complex Involved in Host Defense against Candida albicans

Author

Urban, Constantin F, Ermert, David, Schmid, Monika, Abu-Abed, Ulrike, Goosmann, Christian, Nacken, Wolfgang, Brinkmann, Volker, Jungblut, Peter R, and Zychlinsky, Arturo

Subjects

Medicin och hälsovetenskap, Infectious Medicine, Abdominal Abscess, Antifungal Agents, QH301-705.5, Neutrophils, Immunology/Innate Immunity, Infektionsmedicin, Medical and Health Sciences, Neutrophil Activation, Microbiology in the medical area, Histones, Mice, fluids and secretions, Infectious Diseases/Fungal Infections, Immunology/Immunity to Infections, Candida albicans, Mikrobiologi inom det medicinska området, Animals, Humans, Biology (General), Cells, Cultured, Mice, Knockout, Analysis of Variance, Lung Diseases, Fungal, RC581-607, Immunohistochemistry, Cellular Structures, Immunity, Innate, Host-Pathogen Interactions, Immunologic diseases. Allergy, Leukocyte L1 Antigen Complex, Research Article

Abstract

Neutrophils are the first line of defense at the site of an infection. They encounter and kill microbes intracellularly upon phagocytosis or extracellularly by degranulation of antimicrobial proteins and the release of Neutrophil Extracellular Traps (NETs). NETs were shown to ensnare and kill microbes. However, their complete protein composition and the antimicrobial mechanism are not well understood. Using a proteomic approach, we identified 24 NET-associated proteins. Quantitative analysis of these proteins and high resolution electron microscopy showed that NETs consist of modified nucleosomes and a stringent selection of other proteins. In contrast to previous results, we found several NET proteins that are cytoplasmic in unstimulated neutrophils. We demonstrated that of those proteins, the antimicrobial heterodimer calprotectin is released in NETs as the major antifungal component. Absence of calprotectin in NETs resulted in complete loss of antifungal activity in vitro. Analysis of three different Candida albicans in vivo infection models indicated that NET formation is a hitherto unrecognized route of calprotectin release. By comparing wild-type and calprotectin-deficient animals we found that calprotectin is crucial for the clearance of infection. Taken together, the present investigations confirmed the antifungal activity of calprotectin in vitro and, moreover, demonstrated that it contributes to effective host defense against C. albicans in vivo. We showed for the first time that a proportion of calprotectin is bound to NETs in vitro and in vivo., Author Summary Neutrophils are phagocytes that disarm and kill microbes by engulfing them. Less well characterized than their phagocytic killing mechanisms is how neutrophils cope with microbes that are too large to be internalized. Notably, neutrophils may also kill or inhibit extracellularly by releasing Neutrophil Extracellular Traps (NETs). NETs are fibers made of chromatin (histones and DNA) decorated with antimicrobial proteins. NETs ensnare and kill microbes, such as bacteria, fungi and parasites. We wanted to find out if and how NETs control pathogenic fungi that can form large filaments such as Candida albicans. We purified all NET-bound proteins and identified 24 of them. We found that calprotectin is the major antifungal NET-bound protein. Calprotectin was known to be antimicrobial but here we demonstrate that NET formation is a novel release mechanism for this cytoplasmic protein. The NET matrix comes in close contact with the fungi and the high local concentration of calprotectin in the NETs supports the antifungal activity. Furthermore, in mice calprotectin is essential for an efficient antifungal response to Candida albicans in skin, lung and systemic infections. In tissue sections from these animals we detected NETs and NET-associated calprotectin. Thus, our study gives more insights into mechanisms how the immune system copes with fungal pathogens.

Published

2009

42. Echinocandin treatment of pneumocystis pneumonia in rodent models depletes cysts leaving trophic burdens that cannot transmit the infection

Author

Melanie T. Cushion, Margaret S. Collins, Peter D. Walzer, Alan Ashbaugh, Michael J. Linke, Ronald Brubaker, Keeley Lynch, and Tom Sesterhenn

Subjects

beta-Glucans, Echinocandin, medicine.medical_treatment, lcsh:Medicine, Biology, Pneumocystis pneumonia, Microbiology, 03 medical and health sciences, Echinocandins, Mice, Immune system, Infectious Diseases/Fungal Infections, medicine, Animals, Cyst, lcsh:Science, Lung, 030304 developmental biology, Fluorescent Dyes, 0303 health sciences, Multidisciplinary, 030306 microbiology, Pneumonia, Pneumocystis, lcsh:R, Microbiology/Medical Microbiology, Immunosuppression, Infectious Diseases/HIV Infection and AIDS, medicine.disease, 3. Good health, Rats, Disease Models, Animal, Immunology, Anidulafungin, lcsh:Q, Proteoglycans, Microbiology/Cellular Microbiology and Pathogenesis, Pneumonia (non-human), medicine.drug, Research Article

Abstract

Fungi in the genus Pneumocystis cause pneumonia (PCP) in hosts with debilitated immune systems and are emerging as co-morbidity factors associated with chronic diseases such as COPD. Limited therapeutic choices and poor understanding of the life cycle are a result of the inability of these fungi to grow outside the mammalian lung. Within the alveolar lumen, Pneumocystis spp., appear to have a bi-phasic life cycle consisting of an asexual phase characterized by binary fission of trophic forms and a sexual cycle resulting in formation of cysts, but the life cycle stage that transmits the infection is not known. The cysts, but not the trophic forms, express beta -1,3-D-glucan synthetase and contain abundant beta -1,3-D-glucan. Here we show that therapeutic and prophylactic treatment of PCP with echinocandins, compounds which inhibit the synthesis of beta -1,3-D-glucan, depleted cysts in rodent models of PCP, while sparing the trophic forms which remained in significant numbers. Survival was enhanced in the echincandin treated mice, likely due to the decreased beta -1,3-D-glucan content in the lungs of treated mice and rats which coincided with reductions of cyst numbers, and dramatic remodeling of organism morphology. Strong evidence for the cyst as the agent of transmission was provided by the failure of anidulafungin-treated mice to transmit the infection. We show for the first time that withdrawal of anidulafungin treatment with continued immunosuppression permitted the repopulation of cyst forms. Treatment of PCP with an echinocandin alone will not likely result in eradication of infection and cessation of echinocandin treatment while the patient remains immunosuppressed could result in relapse. Importantly, the echinocandins provide novel and powerful chemical tools to probe the still poorly understood bi-phasic life cycle of this genus of fungal pathogens.

Published

2009

43. An RNA Transport System in Candida albicans Regulates Hyphal Morphology and Invasive Growth

Author

Norma V. Solis, Suzanne M. Noble, Alexander D. Johnson, Scott G. Filler, Sarah L. Elson, and Biggins, Sue

Subjects

Cancer Research, Messenger, RNA Transport, Gene Expression Regulation, Fungal, Candida albicans, Transcriptional regulation, 2.2 Factors relating to the physical environment, Aetiology, Genetics (clinical), 0303 health sciences, Fungal protein, biology, Cell biology, Fungal, Infectious Diseases, Molecular Biology/mRNA Transport and Localization, Infection, Research Article, lcsh:QH426-470, 1.1 Normal biological development and functioning, Cell Biology/Microbial Physiology and Metabolism, Saccharomyces cerevisiae, Cell Biology/Developmental Molecular Mechanisms, Genes, Fungal, Hyphae, RNA transport, Microbiology, Fungal Proteins, 03 medical and health sciences, Underpinning research, Infectious Diseases/Fungal Infections, Genetics, MRNA transport, Humans, RNA, Messenger, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Evolutionary Biology, 030306 microbiology, RNA, Genetics and Genomics, Epithelial Cells, RNA, Fungal, biology.organism_classification, Yeast, Actins, lcsh:Genetics, Gene Expression Regulation, Genes, Generic health relevance, Developmental Biology

Abstract

Localization of specific mRNAs is an important mechanism through which cells achieve polarity and direct asymmetric growth. Based on a framework established in Saccharomyces cerevisiae, we describe a She3-dependent RNA transport system in Candida albicans, a fungal pathogen of humans that grows as both budding (yeast) and filamentous (hyphal and pseudohyphal) forms. We identify a set of 40 mRNAs that are selectively transported to the buds of yeast-form cells and to the tips of hyphae, and we show that many of the genes encoded by these mRNAs contribute to hyphal development, as does the transport system itself. Although the basic system of mRNA transport is conserved between S. cerevisiae and C. albicans, we find that the cargo mRNAs have diverged considerably, implying that specific mRNAs can easily move in and out of transport control over evolutionary timescales. The differences in mRNA cargos likely reflect the distinct selective pressures acting on the two species., Author Summary Generation of cellular polarity – asymmetry in shape, protein distribution, and/or sub-cellular function – is an essential feature of most eukaryotic cells and underlies such diverse processes as differentiation, mating, nutrient acquisition, and growth. Localization of specific mRNAs is one mechanism through which cells achieve polarity. We describe an RNA transport system in Candida albicans, a fungal pathogen of humans, that grows in both single cell (budding yeast) and filamentous (hyphal and pseudohyphal) forms. Hyphae are chains of elongated cells that remain attached after cell division and exhibit highly polarized growth at their tips. We show that the C. albicans She3-dependent RNA transport system binds to 40 mRNAs and transports these mRNAs to yeast buds and to the tips of hyphae. Both the transport system itself and many of the genes encoded by transported mRNAs are required for normal growth and function of hyphae. Although the basic transport mechanism appears conserved with that of the model yeast, Saccharomyces cerevisiae, the cargo mRNAs are largely distinct. The apparently rapid evolution of the transported mRNAs probably reflects distinct selective pressures acting on the two organisms.

Published

2009

44. Identification of Antifungal Compounds Active against Candida albicans Using an Improved High-Throughput Caenorhabditis elegans Assay

Author

Annie L. Conery, Emmanouil Tempakakis, Jeffrey J. Coleman, Eleftherios Mylonakis, Ikechukwu Okoli, Edward Holson, Andy Stern, Gang Wu, Florence F. Wagner, Frederick M. Ausubel, W. Frank An, and Jonah Larkins-Ford

Subjects

Antifungal Agents, Chemistry, Pharmaceutical, Drug Evaluation, Preclinical, lcsh:Medicine, Microbial Sensitivity Tests, Microbiology, Chemical library, Minimum inhibitory concentration, chemistry.chemical_compound, In vivo, Infectious Diseases/Fungal Infections, Candida albicans, Drug Discovery, Animals, Combinatorial Chemistry Techniques, lcsh:Science, Caenorhabditis elegans, Multidisciplinary, biology, Infectious Diseases/Antimicrobials and Drug Resistance, Drug discovery, lcsh:R, Microbiology/Medical Microbiology, Pathogenic fungus, biology.organism_classification, Corpus albicans, chemistry, Drug Design, Mutation, lcsh:Q, Immunosuppressive Agents, Research Article

Abstract

Candida albicans, the most common human pathogenic fungus, can establish a persistent lethal infection in the intestine of the microscopic nematode Caenorhabditis elegans. The C. elegans-C. albicans infection model was previously adapted to screen for antifungal compounds. Modifications to this screen have been made to facilitate a high-throughput assay including co-inoculation of nematodes with C. albicans and instrumentation allowing precise dispensing of worms into assay wells, eliminating two labor-intensive steps. This high-throughput method was utilized to screen a library of 3,228 compounds represented by 1,948 bioactive compounds and 1,280 small molecules derived via diversity-oriented synthesis. Nineteen compounds were identified that conferred an increase in C. elegans survival, including most known antifungal compounds within the chemical library. In addition to seven clinically used antifungal compounds, twelve compounds were identified which are not primarily used as antifungal agents, including three immunosuppressive drugs. This assay also allowed the assessment of the relative minimal inhibitory concentration, the effective concentration in vivo, and the toxicity of the compound in a single assay.

Published

2009

45. PPARγ controls Dectin-1 expression required for host antifungal defense against Candida albicans

Author

Bernard Pipy, José Bernad, Johan Auwerx, Lise Lefèvre, Maryse Beraud, Amandine Galès, Agnès Coste, David Olagnier, Marie-Denise Linas, Guillaume Martin-Blondel, and Annabelle Conduché

Subjects

Candida albicans/immunology, Immunology/Innate Immunity, Receptors, Cell Surface/immunology, Peroxisome proliferator-activated receptor, Macrophages/immunology, Cell Separation, Mice, Immunology/Leukocyte Signaling and Gene Expression, Candida albicans, Membrane Proteins/immunology, Biology (General), Receptor, chemistry.chemical_classification, Mice, Knockout, Gastrointestinal tract, Interleukin-13, Reverse Transcriptase Polymerase Chain Reaction, PPAR gamma/immunology, Candidiasis, Interleukin-13/immunology, Macrophage Activation/immunology, Flow Cytometry, Nerve Tissue Proteins/immunology, Interleukin 13, Candidiasis/immunology, Signal transduction, Mannose receptor, Mannose Receptor, Signal Transduction, Research Article, QH301-705.5, Phagocytosis, Immunology, Phagocytosis/immunology, Nerve Tissue Proteins, Receptors, Cell Surface, Biology, Microbiology, Infectious Diseases/Fungal Infections, Virology, Genetics, Animals, Lectins, C-Type/immunology, Lectins, C-Type, Molecular Biology, Mannose-Binding Lectins/immunology, Reactive Oxygen Species/immunology, Signal Transduction/immunology, Macrophages, Membrane Proteins, RC581-607, Macrophage Activation, biology.organism_classification, PPAR gamma, Mannose-Binding Lectins, chemistry, Parasitology, Immunologic diseases. Allergy, Reactive Oxygen Species

Abstract

We recently showed that IL-13 or peroxisome proliferator activated receptor γ (PPARγ) ligands attenuate Candida albicans colonization of the gastrointestinal tract. Here, using a macrophage-specific Dectin-1 deficient mice model, we demonstrate that Dectin-1 is essential to control fungal gastrointestinal infection by PPARγ ligands. We also show that the phagocytosis of yeast and the release of reactive oxygen intermediates in response to Candida albicans challenge are impaired in macrophages from Dectin-1 deficient mice treated with PPARγ ligands or IL-13. Although the Mannose Receptor is not sufficient to trigger antifungal functions during the alternative activation of macrophages, our data establish the involvement of the Mannose Receptor in the initial recognition of non-opsonized Candida albicans by macrophages. We also demonstrate for the first time that the modulation of Dectin-1 expression by IL-13 involves the PPARγ signaling pathway. These findings are consistent with a crucial role for PPARγ in the alternative activation of macrophages by Th2 cytokines. Altogether these data suggest that PPARγ ligands may be of therapeutic value in esophageal and gastrointestinal candidiasis in patients severely immunocompromised or with metabolic diseases in whom the prevalence of candidiasis is considerable., Author Summary Since the early 1980s, Candida albicans has emerged as major cause of human disease, especially among immunocompromised individuals and those with metabolic dysfunction. The main host defense mechanisms against this yeast are engulfment and the production of reactive oxygen molecules by macrophages through Dectin-1 and the Mannose Receptor, two macrophage receptors for Candida albicans cell wall sugars. However, the contribution of these two receptors remains unclear. In our animal experiments, the lack of Dectin-1 in macrophages renders the animals more susceptible to gastrointestinal infection with Candida albicans, demonstrating the essential role of Dectin-1 in antifungal defense. In addition, our experiments established that the interaction between Dectin-1 and Mannose Receptor is important to orchestrate the host antifungal defense. Thus, Candida albicans clearance would be improved by Dectin-1 and Mannose Receptor up-regulation. Interestingly, we had established that the expression of these two receptors was increased by IL-13 through the activation of the nuclear receptor PPARγ, suggesting that PPARγ could be a therapeutic target to eliminate fungal infection. This paper, which highlights a new area of application of PPARγ ligands in infectious diseases, hence heralds the emergence of a new therapeutic strategy against fungal infection in severely immunocompromised patients or those with metabolic diseases.

Published

2009

46. Susceptibility to Infection and Immune Response in Insular and Continental Populations of Egyptian Vulture: Implications for Conservation

Author

Javier Grande, José A. Donázar, Laura Gangoso, Guillermo Blanco, Juan Manuel Grande, and Jesús A. Lemus

Subjects

Conservation of Natural Resources, Old World, Population, Population Dynamics, Endangered species, lcsh:Medicine, Context (language use), Predation, Birds, Infectious Diseases/Bacterial Infections, Ecology/Conservation and Restoration Ecology, Infectious Diseases/Fungal Infections, biology.animal, Immunology/Immunity to Infections, Animals, education, lcsh:Science, Vulture, education.field_of_study, Multidisciplinary, biology, Ecology, business.industry, lcsh:R, Infectious Diseases/Protozoal Infections, Retraction, Threatened species, Immunology/Immune Response, Livestock, lcsh:Q, business, Immunocompetence, Ecology/Environmental Microbiology, Research Article

Abstract

Background A generalized decline in populations of Old World avian scavengers is occurring on a global scale. The main cause of the observed crisis in continental populations of these birds should be looked for in the interaction between two factors - changes in livestock management, including the increased use of pharmaceutical products, and disease. Insular vertebrates seem to be especially susceptible to diseases induced by the arrival of exotic pathogens, a process often favored by human activities, and sedentary and highly dense insular scavengers populations may be thus especially exposed to infection by such pathogens. Here, we compare pathogen prevalence and immune response in insular and continental populations of the globally endangered Egyptian vulture under similar livestock management scenarios, but with different ecological and evolutionary perspectives. Methods/Principal Findings Adult, immature, and fledgling vultures from the Canary Islands and the Iberian Peninsula were sampled to determine a) the prevalence of seven pathogen taxa and b) their immunocompetence, as measured by monitoring techniques (white blood cells counts and immunoglobulins). In the Canarian population, pathogen prevalence was higher and, in addition, an association among pathogens was apparent, contrary to the situation detected in continental populations. Despite that, insular fledglings showed lower leukocyte profiles than continental birds and Canarian fledglings infected by Chlamydophila psittaci showed poorer cellular immune response. Conclusions/Significance A combination of environmental and ecological factors may contribute to explain the high susceptibility to infection found in insular vultures. The scenario described here may be similar in other insular systems where populations of carrion-eaters are in strong decline and are seriously threatened. Higher susceptibility to infection may be a further factor contributing decisively to the extinction of island scavengers in the present context of global change and increasing numbers of emerging infectious diseases.

Published

2009

47. Early-expressed chemokines predict kidney immunopathology in experimental disseminated Candida albicans infections

Author

Frank C. Odds, Alistair J. P. Brown, Luis Castillo, Donna M. MacCallum, and Neil A. R. Gow

Subjects

Chemokine, Virulence, lcsh:Medicine, Microbiology/Innate Immunity, Spleen, Biology, Lesion, Mice, 03 medical and health sciences, Immune system, Infectious Diseases/Fungal Infections, Candida albicans, medicine, Animals, lcsh:Science, 030304 developmental biology, 0303 health sciences, Kidney, Multidisciplinary, 030306 microbiology, lcsh:R, Candidiasis, Microbiology/Medical Microbiology, biology.organism_classification, Corpus albicans, Microbiology/Immunity to Infections, 3. Good health, medicine.anatomical_structure, Immunology, biology.protein, Kidney Diseases, lcsh:Q, Chemokines, medicine.symptom, Research Article

Abstract

Background: The mouse intravenous challenge model of Candida albicans infection is widely used to determine aspects of host-fungus interaction. We investigated the production of cytokines in the kidneys and spleen of animals up to 48 h after challenge with virulent and attenuated isolates and related these responses to semi-quantitative estimations of histopathological changes in the kidney. Methodology/Principal Findings: Progression of Candida albicans infection of the kidney in response to highly virulent fungal strains was characterized by higher levels of host cellular infiltrate, higher lesion densities and greater quantities of fungal elements at 24 and 48 h, and by higher kidney concentrations of IL-1b, MCP-1, KC, IL-6, G-CSF, TNF, MIP-2 and MIP1b, among the immune effectors measured. Levels of the chemokine KC as early as 12 h after challenge correlated significantly with all later measurements of lesion severity. Early renal IL-6 and MIP-1b concentrations also correlated with subsequent damage levels, but less significantly than for KC. All chemokines tested appeared in kidney homogenates, while most of the cytokines were undetectable in kidney and spleen homogenates. GM-CSF and IL-10 showed inverse correlations with measures of lesion severity, suggesting these alone may have exerted a defensive role. Spleen levels of KC at all times showed significant associations with kidney lesion measurements. Conclusions/Significance: Elevated chemokine levels, including KC, represent the earliest responses to C. albicans infection in the mouse kidney. Fungal strains of low mouse virulence stimulate a lower innate response and less host infiltrate than more virulent strains. These findings are consistent with immunopathological damage to kidneys in the mouse C. albicans infection model and with growing evidence implicating some TLR pathways as the main point of interaction between fungal surface polysaccharides and leukocytes.

Published

2009

48. Transcriptional regulation of carbohydrate metabolism in the human pathogen Candida albicans

Author

Adnane Sellam, Christopher Askew, Elias Epp, Alaka Mullick, Hervé Hogues, Malcolm Whiteway, and André Nantel

Subjects

Glycerol, Transcription, Genetic, Gene Expression, Molecular Biology/Bioinformatics, Mice, Adenosine Triphosphate, Gene Expression Regulation, Fungal, Candida albicans, pathogenicity, CrossSector, Glycolysis, lcsh:QH301-705.5, Candida, Regulation of gene expression, 0303 health sciences, biology, Virulence, Candidiasis, Genetics and Genomics/Gene Expression, Pyruvate dehydrogenase complex, DNA-Binding Proteins, Genetics and Genomics/Gene Function, Biochemistry, Models, Animal, Carbohydrate Metabolism, Glycogen, Biotechnology, Research Article, lcsh:Immunologic diseases. Allergy, Saccharomyces cerevisiae Proteins, Immunology, Citric Acid Cycle, Molecular Biology/Molecular Evolution, Fructose, Saccharomyces cerevisiae, Carbohydrate metabolism, Microbiology, 03 medical and health sciences, Infectious Diseases/Fungal Infections, Virology, Genetics, Immunoprecipitation, pharmaceutical, Animals, Humans, Molecular Biology, 030304 developmental biology, 030306 microbiology, Metabolism, Molecular Biology/Transcription Initiation and Activation, biology.organism_classification, Microarray Analysis, Carbon, Citric acid cycle, Oxygen, Metabolic pathway, Glucose, lcsh:Biology (General), Genes, Fermentation, Parasitology, lcsh:RC581-607, metabolism, Transcription Factors

Abstract

Glycolysis is a metabolic pathway that is central to the assimilation of carbon for either respiration or fermentation and therefore is critical for the growth of all organisms. Consequently, glycolytic transcriptional regulation is important for the metabolic flexibility of pathogens in their attempts to colonize diverse niches. We investigated the transcriptional control of carbohydrate metabolism in the human fungal pathogen Candida albicans and identified two factors, Tye7p and Gal4p, as key regulators of glycolysis. When respiration was inhibited or oxygen was limited, a gal4tye7 C. albicans strain showed a severe growth defect when cultured on glucose, fructose or mannose as carbon sources. The gal4tye7 strain displayed attenuated virulence in both Galleria and mouse models as well, supporting the connection between pathogenicity and metabolism. Chromatin immunoprecipitation coupled with microarray analysis (ChIP-CHIP) and transcription profiling revealed that Tye7p bound the promoter sequences of the glycolytic genes and activated their expression during growth on either fermentable or non-fermentable carbon sources. Gal4p also bound the glycolytic promoter sequences and activated the genes although to a lesser extent than Tye7p. Intriguingly, binding and activation by Gal4p was carbon source-dependent and much stronger during growth on media containing fermentable sugars than on glycerol. Furthermore, Tye7p and Gal4p were responsible for the complete induction of the glycolytic genes under hypoxic growth conditions. Tye7p and Gal4p also regulated unique sets of carbohydrate metabolic genes; Tye7p bound and activated genes involved in trehalose, glycogen, and glycerol metabolism, while Gal4p regulated the pyruvate dehydrogenase complex. This suggests that Tye7p represents the key transcriptional regulator of carbohydrate metabolism in C. albicans and Gal4p provides a carbon source-dependent fine-tuning of gene expression while regulating the metabolic flux between respiration and fermentation pathways., Author Summary Pathogens must be able to assimilate the carbon sources in their environment to generate sufficient energy and metabolites to survive. Since glycolysis is a central metabolic pathway, it is important for this metabolic flexibility. The most commonly isolated agent in human fungal infections, Candida albicans, depends upon glycolysis for the progression of systemic disease. We investigated glycolytic transcriptional regulation in C. albicans and defined two key regulators of the pathway, Tye7p and Gal4p. We demonstrated that these factors are important for the fermentative growth of C. albicans both in vitro and in vivo and also regulate the input and output fluxes of glycolysis. The gal4tye7 strain showed attenuated virulence in a Galleria and two mouse models, potentially due to the severe growth defect in oxygen-limiting environments. Gal4p and Tye7p represent fungal specific regulators involved in the pathogenicity of the organism that may be exploited in the development of antifungal treatments. Our study describes a fungal glycolytic transcriptional circuit that is fundamentally different from that of the model yeast Saccharomyces cerevisiae, providing further evidence that the transcriptional networks in S. cerevisiae need not be generally representative of the fungal kingdom.

Published

2009

49. Biofilm matrix regulation by Candida albicans Zap1

Author

Jeniel E. Nett, André Nantel, Alexander D. Johnson, Jean-Sebastien Deneault, Oliver R. Homann, Aaron D. Hernday, David R. Andes, Clarissa J. Nobile, Aaron P. Mitchell, and Odds, Frank C

Subjects

Matrix (biology), immunoprecipitation, Medical and Health Sciences, Gene Expression Regulation, Fungal, Candida albicans, 2.1 Biological and endogenous factors, genetics, Scanning, Biology (General), Aetiology, 0303 health sciences, Fungal protein, education.field_of_study, Microscopy, Microscopy, Confocal, biology, General Neuroscience, Biofilm matrix, in vitro, vitro, Biological Sciences, Corpus albicans, Genetics and Genomics/Gene Function, Fungal, Infectious Diseases, hydrolysis, Biochemistry, Confocal, candida, Synopsis, General Agricultural and Biological Sciences, Infection, Research Article, Chromatin Immunoprecipitation, QH301-705.5, Genes, Fungal, Population, education, Saccharomyces cerevisiae, Electron, Regulon, General Biochemistry, Genetics and Molecular Biology, Microbiology, Fungal Proteins, 03 medical and health sciences, Extracellular polymeric substance, Infectious Diseases/Fungal Infections, Genetics, pharmaceutical, gene, genome, 030304 developmental biology, Binding Sites, Microbiology/Microbial Growth and Development, General Immunology and Microbiology, Agricultural and Veterinary Sciences, 030306 microbiology, microbiology, Biofilm, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Gene Expression Regulation, Genes, Biofilms, physiology, growth & development, Microscopy, Electron, Scanning, protein, metabolism, Developmental Biology

Abstract

The zinc-responsive transcription factor Zap1 has a striking role in fungal biofilm formation and is reported to regulate matrix formation., A biofilm is a surface-associated population of microorganisms embedded in a matrix of extracellular polymeric substances. Biofilms are a major natural growth form of microorganisms and the cause of pervasive device-associated infection. This report focuses on the biofilm matrix of Candida albicans, the major fungal pathogen of humans. We report here that the C. albicans zinc-response transcription factor Zap1 is a negative regulator of a major matrix component, soluble β-1,3 glucan, in both in vitro and in vivo biofilm models. To understand the mechanistic relationship between Zap1 and matrix, we identified Zap1 target genes through expression profiling and full genome chromatin immunoprecipitation. On the basis of these results, we designed additional experiments showing that two glucoamylases, Gca1 and Gca2, have positive roles in matrix production and may function through hydrolysis of insoluble β-1,3 glucan chains. We also show that a group of alcohol dehydrogenases Adh5, Csh1, and Ifd6 have roles in matrix production: Adh5 acts positively, and Csh1 and Ifd6, negatively. We propose that these alcohol dehydrogenases generate quorum-sensing aryl and acyl alcohols that in turn govern multiple events in biofilm maturation. Our findings define a novel regulatory circuit and its mechanism of control of a process central to infection., Author Summary A biofilm is a surface-associated population of microbes that is embedded in a cement of extracellular compounds. This cement is known as matrix. The two main functions of matrix are to protect cells from their surrounding environment, preventing drugs and other stresses from penetrating the biofilm, and to maintain the architectural stability of the biofilm, acting as a glue to hold the cells together. The presence of matrix is a contributing factor to the high degree of resistance to antimicrobial drugs observed in biofilms. Because biofilms have a major impact on human health, and because matrix is such a pivotal component of biofilms, it is important to understand how the production of matrix is regulated. We have begun to address this question in the major human fungal pathogen Candida albicans. We found that the zinc-responsive regulatory protein Zap1 controls the expression of several genes important for matrix formation in C. albicans. These target genes encode glucoamylases and alcohol dehydrogenases, enzymes that probably govern the synthesis of distinct matrix constituents. The findings here offer insight into the metabolic processes that contribute to biofilm formation and indicate that Zap1 functions broadly as a negative regulator of biofilm maturation.

Published

2009

50. Rapid etiological classification of meningitis by NMR spectroscopy based on metabolite profiles and host response

Author

Ray L. Somorjai, Richard Malik, Heide-Marie Daniel, Uwe Himmelreich, Tania C. Sorrell, Till Kühn, Brion Dolenko, and UCL - AGRO/CABI - Département de chimie appliquée et des bio-industries

Subjects

Magnetic Resonance Spectroscopy, Metabolite, lcsh:Medicine, Biology, medicine.disease_cause, Meningitis, Bacterial, Microbiology, Infectious Diseases/Bacterial Infections, Computational Biology/Metabolic Networks, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Metabolomics, Cerebrospinal fluid, Infectious Diseases/Fungal Infections, Streptococcus pneumoniae, medicine, Animals, lcsh:Science, Biochemistry/Experimental Biophysical Methods, 030304 developmental biology, Cryptococcus neoformans, 0303 health sciences, Multidisciplinary, Infectious Diseases/Infectious Diseases of the Nervous System, lcsh:R, Microbiology/Medical Microbiology, Nuclear magnetic resonance spectroscopy, medicine.disease, biology.organism_classification, Rats, Inbred F344, Rats, QR, 3. Good health, Biochemistry/Bioinformatics, chemistry, Cryptococcosis, Biophysics/Experimental Biophysical Methods, lcsh:Q, Microbiology/Cellular Microbiology and Pathogenesis, Meningitis, 030217 neurology & neurosurgery, Research Article

Abstract

Bacterial meningitis is an acute disease with high mortality that is reduced by early treatment. Identification of the causative microorganism by culture is sensitive but slow. Large volumes of cerebrospinal fluid (CSF) are required to maximise sensitivity and establish a provisional diagnosis. We have utilised nuclear magnetic resonance (NMR) spectroscopy to rapidly characterise the biochemical profile of CSF from normal rats and animals with pneumococcal or cryptococcal meningitis. Use of a miniaturised capillary NMR system overcame limitations caused by small CSF volumes and low metabolite concentrations. The analysis of the complex NMR spectroscopic data by a supervised statistical classification strategy included major, minor and unidentified metabolites. Reproducible spectral profiles were generated within less than three minutes, and revealed differences in the relative amounts of glucose, lactate, citrate, amino acid residues, acetate and polyols in the three groups. Contributions from microbial metabolism and inflammatory cells were evident. The computerised statistical classification strategy is based on both major metabolites and minor, partially unidentified metabolites. This data analysis proved highly specific for diagnosis (100 percent specificity in the final validation set), provided those with visible blood contamination were excluded from analysis; 6–8 percent of samples were classified as indeterminate. This proof of principle study suggests that a rapid etiologic diagnosis of meningitis is possible without prior culture. The method can be fully automated and avoids delays due to processing and selective identification of specific pathogens that are inherent in DNA-based techniques.

Published

2009