296 research outputs found
Transcriptomic analysis of the exit from dormancy of Aspergillus fumigatus conidia
<p>Abstract</p> <p>Background</p> <p>Establishment of aspergillosis is depending upon the exit from dormancy and germination of the conidia of <it>Aspergillus fumigatus </it>in the lung. To gain an understanding of the molecular mechanisms underlying the early steps of conidial germination, we undertook a transcriptomic analysis using macroarrays constructed with PCR fragments from > 3,000 genes (around one third of the annotated <it>A</it>. <it>fumigatus </it>genome).</p> <p>Results</p> <p>Major results of this analysis are the following: (i) conidia stored pre-packaged mRNAs transcripts (27% of genes have transcripts in the resting conidia; (ii) incubation at 37°C in a nutritive medium induced up- and down-regulation of genes: 19% of the total number of genes deposited on the array were up-regulated whereas 22% of the genes with pre-packaged mRNA in the resting conidia were down-regulated; (iii) most modifications were seen during the first 30 min of germination whereas very little modification of gene expression occurred during the following hour; (iv) one-year old conidia and one-week old conidia behaved similarly at transcriptional level.</p> <p>Conclusion</p> <p>Transcriptomic data indicate that the exit from dormancy is associated with a shift from a fermentative metabolism to a respiratory metabolism as well as a trend toward immediate protein synthesis.</p
ÎČ-Glucan Grafted Microcapsule, a Tool for Studying the Immunomodulatory Effect of Microbial Cell Wall Polysaccharides
Acknowledgements This study was supported by the Centre Franco-Indien pour la Promotion de la Recherche avancée and Agence nationale de la recherche-Deutsche Forschungsgemeinschaft grants, the Institut Universitaire de France, La région Ile de France, BPI France and benefited from the facilities of MIMA2 MEB-GABI, INRA, Agroparistech, 78352 Jouy-en-Josas, France. Funding sources: CEFIPRA (Centre Franco-Indien pour la Promotion de la Recherche avancée; Grant No. 5403-1, Pathogenic Aspergillus) to JPL and VA, and Agence nationale de la recherche and Deutsche Forschungsgemeinschaft (ANR-DFG bilateral grant, AfuINTERACT) to JPL.Peer reviewedPostprin
Species-Specific Recognition of Aspergillus fumigatus by Toll-like Receptor 1 and Toll-like Receptor 6
Background.âAspergillus fumigatus causes invasive aspergillosis, a potentially fatal infection in oncohematological patients. Innate immune detection of A. fumigatus involves Toll-like receptor (TLR) 4 and TLR2, which forms a heterodimer with either TLR1 or TLR6. The role of those coreceptors in Aspergillus sensing is unknown. Methods.âCytokine production was measured in bone marrow-derived macrophages (BMDMs) from wild-type (WT) and TLR-deficient mice after incubation with a WT and an immunogenic RodA-deficient (ÎrodA-47) strain of A. fumigatus and in lungs from these mice after intranasal mold inoculation. Aspergillus fumigatus-mediated NF-ÎșB activation was measured in HEK293T cells transfected with plasmids expressing mouse or human TLRs. Results.âBone marrow-derived macrophages from TLR1- and TLR6-deficient mice produced lower amounts of interleukin 12p40, CXCL2, interleukin 6, and tumor necrosis factor α than BMDMs from WT mice after stimulation with A. fumigatus. Lungs from TLR1- and TLR6-deficient mice had diminished CXCL1 and CXCL2 production and increased fungal burden after intranasal inoculation of ÎrodA A. fumigatus compared with lungs from WT mice. ÎrodA strain-mediated NF-ÎșB activation was observed in HEK293T cells expressing mouse TLR2/1, mouse TLR2/6, and human TLR2/1 but not human TLR2/6. Conclusions.âInnate immune detection of A. fumigatus is mediated by TLR4 and TLR2 together with TLR1 or TLR6 in mice and TLR1 but not TLR6 in human
ÎČ(1,3)-Glucanosyl-Transferase Activity Is Essential for Cell Wall Integrity and Viability of Schizosaccharomyces pombe
13 pĂĄginas, 7 figuras, 2 tablas.[Background]: The formation of the cell wall in Schizosaccharomyces pombe requires the coordinated activity of enzymes
involved in the biosynthesis and modification of b-glucans. The b(1,3)-glucan synthase complex synthesizes linear b(1,3)-
glucans, which remain unorganized until they are cross-linked to other b(1,3)-glucans and other cell wall components.
Transferases of the GH72 family play important roles in cell wall assembly and its rearrangement in Saccharomyces cerevisiae
and Aspergillus fumigatus. Four genes encoding b(1,3)-glucanosyl-transferases -gas1+, gas2+, gas4+ and gas5+- are present in
S. pombe, although their function has not been analyzed.
[Methodology/Principal Findings]: Here, we report the characterization of the catalytic activity of gas1p, gas2p and gas5p
together with studies directed to understand their function during vegetative growth. From the functional point of view,
gas1p is essential for cell integrity and viability during vegetative growth, since gas1D mutants can only grow in osmotically
supported media, while gas2p and gas5p play a minor role in cell wall construction. From the biochemical point of view, all
of them display b(1,3)-glucanosyl-transferase activity, although they differ in their specificity for substrate length, cleavage
point and product size. In light of all the above, together with the differences in expression profiles during the life cycle, the
S. pombe GH72 proteins may accomplish complementary, non-overlapping functions in fission yeast.
[Conclusions/Significance]: We conclude that b(1,3)-glucanosyl-transferase activity is essential for viability in fission yeast,
being required to maintain cell integrity during vegetative growth.This research was supported by grants from the Comision Interministerial de Ciencia y Tecnologia (BFU2004-00778) and Junta de Castilla y Leon
(GR231) to C.R.V-A and from the European Community (LSHB-CT-2004-511952) to C.R.V-A. and J.P.L. M.M-R. held a fellowship from the Ministerio de Educacion y
Ciencia.Peer reviewe
Inducible expression of beta defensins by human respiratory epithelial cells exposed to Aspergillus fumigatus organisms
<p>Abstract</p> <p>Background</p> <p><it>Aspergillus fumigatus</it>, a saprophytic mould, is responsible for life-threatening, invasive pulmonary diseases in immunocompromised hosts. The role of the airway epithelium involves a complex interaction with the inhaled pathogen. Antimicrobial peptides with direct antifungal and chemotactic activities may boost antifungal immune response.</p> <p>Results</p> <p>The inducible expression of defensins by human bronchial epithelial 16HBE cells and A549 pneumocyte cells exposed to <it>A. fumigatus </it>was investigated. Using RT-PCR and real time PCR, we showed an activation of hBD2 and hBD9 defensin genes: the expression was higher in cells exposed to swollen conidia (SC), compared to resting conidia (RC) or hyphal fragments (HF). The kinetics of defensin expression was different for each one, evoking a putative distinct function for each investigated defensin. The decrease of defensin expression in the presence of heat-inactivated serum indicated a possible link between defensins and the proteins of the host complement system. The presence of defensin peptide hBD2 was revealed using immunofluorescence that showed a punctual cytoplasmic and perinuclear staining. Quantification of the cells stained with anti hBD2 antibody demonstrated that SC induced a greater number of cells that synthesized hBD2, compared to RC or HF. Labelling of the cells with anti-hBD-2 antibody showed a positive immunofluorescence signal around RC or SC in contrast to HF. This suggests co-localisation of hBD2 and digested conidia. The HBD2 level was highest in the supernatants of cells exposed to SC, as was determined by sandwich ELISA. Experiments using neutralising anti-interleukine-1ÎČ antibody reflect the autocrine mechanism of defensin expression induced by SC. Investigation of defensin expression at transcriptional and post-transcriptional levels demonstrated the requirement of transcription as well as new protein synthesis during <it>A. fumigatus </it>defensin induction. Finally, induced defensin expression in primary culture of human respiratory cells exposed to <it>A. fumigatus </it>points to the biological significance of described phenomena.</p> <p>Conclusion</p> <p>Our findings provide evidence that respiratory epithelium might play an important role in the immune response during <it>Aspergillus </it>infection. Understanding the mechanisms of regulation of defensin expression may thus lead to new approaches that could enhance expression of antimicrobial peptides for potential therapeutic use during aspergillosis treatment.</p
Definition of the anti-inflammatory oligosaccharides derived from the galactosaminogalactan (GAG) from Aspergillus fumigatus
Galactosaminogalactan (GAG) is an insoluble aminosugar polymer produced by Aspergillus fumigatus and has anti-inflammatory properties. Here, the minimum glycosidic sequences required for the induction of IL-1Ra by peripheral blood mononuclear cells (PBMCs) was investigated. Using chemical degradation of native GAG to isolate soluble oligomers, we have found that the de-N-acetylation of galactosamine residues and the size of oligomer are critical for the in vitro immune response. A minimal oligomer size of 20 galactosamine residues is required for the anti-inflammatory response but the presence of galactose residues is not necessary. In a Dextran sulfate induced colitis mouse model, a fraction of de-N-acetylated oligomers of 13 < dp < 20 rescue inflammatory damage like the native GAG polymer in an IL-1Ra dependent pathway. Our results demonstrate the therapeutic suitability of water-soluble GAG oligosaccharides in IL-1 mediated hyper-inflammatory diseases and suggest that α-1,4-galactosamine oligomers chemically synthesized could represent new anti-inflammatory glycodrugs.Aviesan project Aspergillus, the French Government's Investissement d'Avenir program, Laboratoire d'Excellence Integrative Biology of Emerging Infectious Diseases (Grant No ANR-10-LABX-62-IBEID), la Fondation pour la Recherche MĂ©dicale (DEQ20150331722 LATGE Equipe FRM 2015). RS thanks Fundação para a CiĂȘncia e Tecnologia (FCT) contract IF/00021/201
FLO1 is a variable green beard gene that drives biofilm-like cooperation in budding yeast
The budding yeast, Saccharomyces cerevisiae, has emerged as an archetype of eukaryotic cell biology. Here we show that S. cerevisiae is also a model for the evolution of cooperative behavior by revisiting flocculation, a self-adherence phenotype lacking in most laboratory strains. Expression of the gene FLO1 in the laboratory strain S288C restores flocculation, an altered physiological state, reminiscent of bacterial biofilms. Flocculation protects the FLO1 expressing cells from multiple stresses, including antimicrobials and ethanol. Furthermore, FLO1(+) cells avoid exploitation by nonexpressing flo1 cells by self/non-self recognition: FLO1(+) cells preferentially stick to one another, regardless of genetic relatedness across the rest of the genome. Flocculation, therefore, is driven by one of a few known "green beard genes,'' which direct cooperation toward other carriers of the same gene. Moreover, FLO1 is highly variable among strains both in expression and in sequence, suggesting that flocculation in S. cerevisiae is a dynamic, rapidly evolving social trait
Galactosaminogalactan, a New Immunosuppressive Polysaccharide of Aspergillus fumigatus
A new polysaccharide secreted by the human opportunistic fungal pathogen Aspergillus fumigatus has been characterized. Carbohydrate analysis using specific chemical degradations, mass spectrometry, 1H and 13C nuclear magnetic resonance showed that this polysaccharide is a linear heterogeneous galactosaminogalactan composed of α1-4 linked galactose and α1-4 linked N-acetylgalactosamine residues where both monosacharides are randomly distributed and where the percentage of galactose per chain varied from 15 to 60%. This polysaccharide is antigenic and is recognized by a majority of the human population irrespectively of the occurrence of an Aspergillus infection. GalNAc oligosaccharides are an essential epitope of the galactosaminogalactan that explains the universal antibody reaction due to cross reactivity with other antigenic molecules containing GalNAc stretches such as the N-glycans of Campylobacter jejuni. The galactosaminogalactan has no protective effect during Aspergillus infections. Most importantly, the polysaccharide promotes fungal development in immunocompetent mice due to its immunosuppressive activity associated with disminished neutrophil infiltrates
HydrophobinsâUnique Fungal Proteins
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Phagosomal removal of fungal melanin reprograms macrophage metabolism to promote antifungal immunity
Acknowledgements This work was supported by the Northern Portugal Regional Operational Programme (NORTE 2020), under the Portugal 2020 Partnership Agreement, through the European Regional Development Fund (FEDER) (NORTE-01- 0145-FEDER-000013), the Fundação para a CiĂȘncia e Tecnologia (FCT) (SFRH/BD/136814/2018 to S.M.G., SFRH/BD/141127/2018 to C.D.O., PD/BD/137680/2018 to D.A., IF/00474/2014 to N.S.O., IF/01390/2014 to E.T., IF/00959/2014 to S.C., IF/00021/2014 to R.S., PTDC/SAU-SER/29635/2017 and CEECIND/04601/2017 to C.C., and CEECIND/03628/2017 to A.C.), the Institut MĂ©rieux (MĂ©rieux Research Grant 2017 to C.C.), and the European Society of Clinical Microbiology and Infectious Diseases (ESCMID Research Grant 2017 to A.C.). M.G.N. was supported by a Spinoza grant of the Netherlands Organization for Scientific Research. A.A.B. was supported by the Deutsche Forschungsgemeinschaft Collaborative Research Center/Transregio TR124 FungiNet (project A1). G.D.B. was funded by the Wellcome Trust (102705), the MRC Centre for Medical Mycology and the University of Aberdeen (MR/N006364/1).Peer reviewedPublisher PD
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